Cross River State - Documents & Reports - All...

Cross River State Water Board Limited

Itigidi, Obubra & Okpoma Water Distribution & Supply

Schemes Project

ENVIRONMENTAL & SOCIAL IMPACT

ASSESSMENT

Final Report

January 2012

E1138 v. 7

Itigidi, Obubra & Okpoma Water Distribution & Supply Schemes Environmental and Social Impact Assessment

PREPARED BY:

EARTHGUARDS LIMITED: Sustainable Development Consultants

SUITE 45 GOD’S OWN PLAZA4 TAKUM CLOSE (BEHIND UNITY HOUSE)

AREA 11, GARKIABUJA

[email protected]+234-9-8707469; +234-803-3740948


LIST OF ACRONYMS

EA Environmental AssessmentEIA Environmental Impact AssessmentESIA Environmental and Social Impact AssessmentESMF Environmental and Social Management FrameworkESMP Environmental and Social Management PlanEPAD Environmental Protection and Assessment Department CRSWBL Cross River State Water Board LimitedEMP Environmental Management PlanFCT Federal Capital TerritoryFEPA Federal Environmental Protection AgencyFGDs Focus Group DiscussionsFGN Federal Government of NigeriaFM Frequency Modulation FMEnv Federal Ministry of EnvironmentFMAWR Federal Ministry of Agriculture and Water ResourcesFPIU Federal Project Implementation UnitHSE Health, Safety and EnvironmentIDA International Development AssociationLGA Local Government AuthorityM & E Monitoring and Evaluation NUWSRP National Urban Water Sector Reform ProjectNUWSRP1 First National Urban Water Sector Reform Project NUWSRP2 Second National Urban Water Sector Reform Project NWRP National Water Rehabilitation ProjectOP/BP Operation Policy/Bank PolicyPAD Project Appraisal DocumentPCU Project Coordination UnitPHCN Power Holding Company of NigeriaPIU Project Implementation UnitPMU Project Management UnitPRA Participatory Rural AppraisalPPP Public-Private PartnershipPSP Private Sector Partner or Private Sector ParticipationRAP Resettlement Action PlanROW Right of WayRPF Resettlement Policy FrameworkSMWR State Ministry of Water ResourcesSPIU State Project Implementation UnitSSI Semi Structured InterviewedSWAs State Water AgenciesTOR Terms of ReferenceWHO World Health OrganizationWTP Willingness to Pay

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GLOSSARY OF TERMS

BOD Biochemical Oxygen DemandCa CalciumCd CadmiumCO Carbon MonoxideCOD Chemical Oxygen DemandCr ChromiumCu CopperdBA DecibelDO Dissolved OxygenESP Exchange Sodium PercentageFe IronHC HydrocarbonHg MercuryHB Heterotrophic BacteriaHF Heterotrophic FungiHUB Hydrocarbon Utilizing BacteriaK PotassiumMg MagnesiumN NitrogenNi NickelNO2 Nitrogen DioxideNO3 NitrateNTU Nephelometric Turbidity UnitsP PhosphatePb LeadpH Hydrogen ion concentrationPO4 PhosphateSO2 Sulphur DioxideSPM Suspended Particulate MatterTDS Total Dissolved SolidsTOM Total Organic MatterTSS Total Suspended SolidsV VanadiumZn Zinc


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UNIT OF MEASUREMENTS

% PercentageuS/cm MicroSiemens per centimetreatm Atmospherecfu/ml Colony forming unit per millimetrecm centimeterdBA Measures sound or noise levelft Feetg grammesg/l Grammes per litreg/kg Grammes per kilogrammemeq/100g Milliequivalent per 100 grammein incheskm Kilometrem Metrem/s metre per secondm2 metre squarem3 metre cubemg/kg milligram per kilogrammemg/l milligram per litremV millivoltmg/m3 milligram per metre cubicml millilitremm millimetremm/hr millimetre per hourmS/cm milliSiemens per centimetreNTU Nephelometric Turbidity UnitsoC Degrees Celciusppm parts per millionppt parts per thousands secondton tonne


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TABLE OF CONTENTSLIST OF ACRONYMS.......................................................................IIGLOSSARY OF TERMS..................................................................IIIUNIT OF MEASUREMENTS...........................................................IVTABLE OF CONTENTS....................................................................VLIST OF FIGURES.........................................................................VIILIST OF TABLES.........................................................................VIIIEXECUTIVE SUMMARY.................................................................IX1 INTRODUCTION.....................................................................1

1.1 BACKGROUND...........................................................................................................11.2 OBJECTIVES OF THE ESIA.........................................................................................11.3 SCOPE OF WORK.......................................................................................................21.4 ESIA PROCESS.......................................................................................................31.5 STUDY APPROACH AND METHODOLOGY......................................................................4

1.5.1 Organization and Planning...................................................................................................41.5.2 Environmental Study..............................................................................................................51.5.3 Social, Economic and Health Study..................................................................................6

1.6 PROJECT CLASSIFICATION..........................................................................................6

2 PROJECT DESCRIPTION.........................................................82.1 PROJECT RATIONALE.................................................................................................82.2 PROJECT COMPONENTS.............................................................................................82.3 PROJECT ENVIRONMENT............................................................................................82.4 PROJECT LOCATIONS...............................................................................................16

2.4.1 Itigidi Town Water Scheme (Abi LGA Project Locations)......................................172.4.2 Obubra Town Water Scheme ( Obubra LGA Project Locations)..........................192.4.3 Okpoma Town Water Scheme ( Yala LGA Project Locations)..............................22

2.5 PROJECT ACTIVITY..................................................................................................25

3 BASELINE INFORMATION...................................................313.1 GENERAL OVERVIEW...............................................................................................313.2 PHYSICAL ENVIRONMENT........................................................................................333.3 BASELINE DATA ANALYSIS........................................................................................36

3.3.1 Analysis of Surface and Underground Water Samples............................................373.3.2 Soil Sample Analysis..............................................................................................................423.3.3 Air Quality/Meteorological and Noise Measurement..............................................483.3.4 Environmental Impacts from the Water Treatment Process................................55

3.4 SOCIO-ECONOMICS.................................................................................................573.4.1 Socio-Demographic Attributes of Respondents............................................................57

3.5 HEALTH IMPART ASSESSMENT..................................................................................623.5.1 Obubra LGA Project areas..................................................................................................623.5.2 Abi LGA Project areas..........................................................................................................623.5.3 Yala LGA Project areas.........................................................................................................62

4 POLICY, LEGAL AND REGULATORY FRAMEWORK.............644.1 WORLD BANK SAFEGUARD POLICIES..........................................................................644.2 NIGERIA’ REGULATORY FRAMEWORK.......................................................................64


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4.2.1 The Federal Ministry of Environment. (FMEnv)..................................................644.2.2 International Guidelines and Conventions on Environment which Nigeria is signatory...................................................................................................................................................65

5 POTENTIAL ENVIRONMENTAL AND SOCIAL IMPACTS......675.1 INTRODUCTION.......................................................................................................675.2 ASSESSMENT METHODOLOGY..................................................................................675.5 POSITIVE ENVIRONMENTAL IMPACTS IN THE LOCATIONS..............................................81

Construction Phase..............................................................................................................................81Operation and Maintenance Phase...............................................................................................81

5.6 POTENTIAL NEGATIVE IMPACTS................................................................................815.7 WASTE WATER AND SLUDGE DISPOSAL....................................................................81

5.7.1 Estimation of the quantities of sludge...........................................................................835.7.3 Sludge Treatment...................................................................................................................85

5.8 POTENTIAL IMPACTS RELATED TO THE WATER DISTRIBUTION AND SUPPLY SCHEME IN ABI, OBUBRA AND YALA LGAS.................................................................................86

6 MITIGATION PLAN.............................................................1056.1 INTRODUCTION...................................................................................................105

7 MONITORING PLAN...........................................................1097.1 MONITORING PLAN...............................................................................................1097.2 MONITORING PROCEDURE:.....................................................................................109

8 ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN....1108.1 DEFINITION AND INTRODUCTION............................................................................1108.2 IMPLEMENTATION ARRANGEMENT..........................................................................111

8.2.1. World Bank.............................................................................................................................1128.2.2. Cross River State Water Board Limited (CRSWBL)...............................................1128.2.3. Environmental Officer........................................................................................................1128.2.4. Contractor...............................................................................................................................112

8.3 RECOMMENDED CAPACITY BUILDING AND TRAINING...............................................1138.3.1 Training Needs......................................................................................................................1138.3.2 Training of Contractors Personnel:...............................................................................114

8.4 ENVIRONMENTAL MANAGEMENT PLAN BUDGET........................................................114

9 PUBLIC CONSULTATION..................................................1279.1 INTRODUCTION.....................................................................................................127

REFERENCES..............................................................................129APPENDICIES..............................................................................130

APPENDIX 1: LIST OF ESIA PREPARERS.........................................................................130APPENDIX 2: SUMMARY OF WORLD BANK ENVIRONMENTAL AND SOCIAL SAFEGUARD

POLICIES..............................................................................................................131APPENDIX 3:- SOCIO-ECONOMIC DATA QUESTIONNAIRE....................................................133APPENDIX 4: CONSTRUCTION CONTRACTS ENVIRONMENTAL MANAGEMENT CONDITIONS. .137APPENDIX 5: EXAMPLE FORMAT: HSE REPORT..............................................................143APPENDIX 6: ATTENDANCE AT PUBLIC CONSULTATIVE MEETINGS AND PROCEEDINGS OF

MEETINGS............................................................................................................144APPENDIX 7: PROCEEDINGS OF MEETINGS.......................................................................149APPENDIX 8: DEVELOPMENT OF A WASTE MANAGEMENT PLAN........................................155


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LIST OF FIGURES

FIGURE 2.1: OBUBRA WATER TREATMENT PLANT LAYOUT........................................11FIGURE 2.2: ITIGIDI WATER TREATMENT PLANT LAYOUT PLAN.................................13FIGURE 2.3 OKPOMA WATER TREATMENT PLAN LAYOUT PLAN DRAWINGS................15FIGURE 2.4: MAP OF NIGERIA SHOWING PROJECT LOCATIONS IN CROSS RIVER STATE

..................................................................................................................... 16FIGURE 2.5: COMMUNITIES AND PROPOSED WATER DISTRIBUTION NETWORK IN ABI LGA

..................................................................................................................... 17FIGURE 2.7: COMMUNITIES AND WATER DISTRIBUTION NETWORK IN YALA LGA.........23FIGURE 2.8 SCHEMATIC DIAGRAM OF A GENERAL TREATMENT PLANT.......................27FIGURE 3.1: MAP OF NIGERIA SHOWING THE VEGETATION OF CROSS RIVER STATE....32FIGURE 3.2: MEAN MONTHLY RELATIVE HUMIDITY IN THE STUDY AREA...................49FIGURE 3.3: MEAN MONTHLY TEMPERATURE VARIATIONS WITHIN THE STUDY AREA..49FIGURE 5.1: IMPACT ASSESSMENT APPROACH.........................................................67FIGURE 5.2: RISK ASSESSMENT MATRIX.................................................................74


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LIST OF TABLESTABLE 2.1: PROJECT COMPONENTS AND LOCATIONS IN ABI LGA..............................17TABLE 2.3 PROJECT COMPONENTS AND LOCATIONS IN YALA LGA.............................24TABLE 2.4: WATER DEMAND AND TREATMENT PLANT LAND TAKE............................29TABLE 2.5: ESTIMATION OF TOTAL SLUDGE GENERATED DURING THE PROJECT PERIOD30TABLE 3.1: POPULATION DISTRIBUTION OF CROSS RIVER STATE...............................35TABLE 3.2: OBUBRA LGA PROJECT AREA: WATER QUALITY RESULT..........................37TABLE 3.3. ABI LGA PROJECT AREA: WATER QUALITY RESULT.................................38TABLE 3.4 YALA LGA PROJECT AREA: WATER QUALITY RESULT................................40TABLE 3.5: YALA LGA PROJECT AREA: PHYSIO-CHEMICAL QUALITY OF SOIL..............42TABLE 3.6: OBUBRA PROJECT AREA: SOIL QUALITY RESULT.....................................44TABLE 3.7: ABI PROJECT AREA: SOIL QUALITY RESULT............................................46TABLE 3.8: METEOROLOGICAL MEASUREMENT FOR CRSWBL PROPOSED WATER

PROJECT IN SEPT/OCT 2009............................................................................51TABLE 3.9: AMBIENT AIR QUALITY AND NOISE CHARACTERISTICS IN THE STUDY AREA

..................................................................................................................... 52TABLE 3.10: ENVIRONMENTAL IMPACTS AND MITIGATION MEASURES.......................55TABLE 3.11: PROJECT AREAS, THEIR LGAS AND DEMOGRAPHIC DISTRIBUTION..........57TABLE 3.12: SOCIO-ECONOMIC ATTRIBUTES OF RESPONDENT..................................58TABLE 3.13: PATTERN OF HEALTH IMPACT ASSESSMENT.........................................63TABLE 5.1: IMPACT CHARACTERIZATION..................................................................69TABLE 5.2: CHECKLIST FOR RANKING OF ASSOCIATED AND POTENTIAL IMPACTS........76TABLE 5.3: IMPACT PROJECTION.............................................................................77TABLE 5.4: CON’TD: MITIGATION MEASURE.............................................................78TABLE 5.5: SLUDGE TREATMENT PROCESS..............................................................82TABLE 5.6: DAILY WATER PRODUCTION RATE..........................................................83TABLE 5.7: ESTIMATION OF TOTAL QUANTITY OF SLUDGE........................................84TABLE 6.1 MITIGATION HIERARCHY FOR PLANNED PROJECT ACTIVITIES..................105TABLE 6.2: MITIGATION MEASURES OF IMPACTS DURING PRE-CONSTRUCTION,

CONSTRUCTION AND OPERATION AND MAINTENANCE PHASE...........................106TABLE 8.1: TRAINING COURSE OUTLINE...............................................................113TABLE 8.2: BUDGET AND RESPONSIBILITIES..........................................................114TABLE 8.3: EMP TABLE PORTRAYING IMPACT, MITIGATION MEASURES,

IMPLEMENTATION SCHEDULE AND RESPONSIBILITIES FOR MITIGATION AND MONITORING................................................................................................115


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TABLE 9.1: SUMMARY OF PUBLIC CONSULTATIONS IN ABI, OBUBRA AND YALA........128


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EXECUTIVE SUMMARYIntroductionThe original Project, (NUWSRP-II) with an IDA credit of US$ 200 million (IDA Credit No. 4086-UNI), was approved on July 15, 2005 in order to address some of the above deficiencies in water supply services. The Project's Development Objectives were to (i) improve reliability of water supply produced by the water treatment works in Lagos State; (ii) increase access to piped water networks in four cities in Cross River State; and (iii) improve commercial viability of the urban water utilities in Participating States. The project was made up of four components: (a) rehabilitation and systems expansion, (b) public private partnership development, (c) service sustainability and project management, (iv) institutional development and policy reform.

As a result of the successful implementation of NUWSRP 2 in the 2 states, the FGN is requesting an additional financing of US$150 million from the International Development Association (IDA) for Cross River state. The proposed additional credit will help finance the scaling up of the project activities in Cross River state by supporting the construction of 3 additional water supply systems in Itigidi, Obubra and Okpoma towns in the northern part of the state. A project extension of 3 years is proposed to cover the above activities.The proposed civil works of the Water Supply Scheme include:-

Construction of Intake and Weir; Construction of Low and High Lift Pumping Stations; Construction of Water Treatment Plants; Construction of Ground Level Reservoirs; Construction of Elevated Water Tanks; Constructions of Kiosk and house connections; Supply and lying of water supply pipes to cover approximately over

100km of sizes ranging from OD 75mm – OD 500mm including accessories etc; and

Construction of water kiosks and supply and installation of house connection, including pipes, accessories, conventional credit water meters with automatic meter reading (AMR) capabilities.

Purpose and Scope of the ESIAThe purpose of the ESIA is to identify the major issues and impacts associated with the project and to identify mitigation measures required to limit any such impacts to acceptable levels. The scope of the ESIA may be summarized as follows: Assess the potential environmental and social impacts of the sub-,

whether positive or negative and propose effective mitigation measures for the negative impacts;

Inform the project team- Cross River State Water Board Limited- Project Implementation Unit (CRSWB-PIU) and the CRSG of the potential impacts of different projects activities and relevant mitigation measures and strategies to be undertaken;


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Develop an Environmental and Social Management Plan (ESMP) to ensure successful mitigation of all negative adverse impacts, a tangible monitoring indicator and plan, Estimate mitigation cost and institutional arrangements to execute this plan; and to provide clear instructions to works supervisors and contractors with regard to any measures that need to be implemented in order to limit any potential negative impacts to acceptable levels.

Identify environmental policies, legal and institutional framework pertaining to the project.

Access the existing institutional capacity to implement the ESMP and suggest measures for capacity gap development.


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Potential Environmental and Social ImpactsWater Supply projects are executed with the aim to improve water distribution services to the population by expanding water distribution points and increasing the quantities of water distributed. In general, therefore the proposed CRSG Water Supply Scheme would have substantial positive social impacts that will improve the public health and subsequently conditions of living in the LGAs.However, there are a number of aspects of the project which have potential negative impacts. Table ES1 shows some of the identified potential impacts and their impact ratings.

ES1: Identified Potential impacts and their impact ratings Impacts Pre-construction Phase Construction Phase Operation & maintenance Phase

Intake/

Weir

Treatment plant

Pump/

Pipeline

Reservoirs/

Tanks

Intake/

Weir

TreatmentPlant

Pump/

Pipeline

Reservoirs/

Tanks

Intake/

Weir

Treatment Plant

Pump/

Pipeline

Reservoirs/

Tanks

POLLUTIONAir pollution M M M M M M M M L - L -Water pollution

L L L M M L L L M M L L

Noise pollution

L M M M M M M M L L L -

Soil Pollution M M M M M M M M L M L -ENVIRONMENTSoil Erosion M L M L M L M L - L L -Ecosystem depletion

M M M M M L M L L - L- -

WASTE GENERATIONIncreased sludge production

- - - - - - - - - M - -

Increased waste water

- - - - - - - - - M - -

Solid waste generation

M M M M M M M M L L L -

HEALTHSafety of the public

M M L M M M M M L L L L

Public health risks

L M L M M M M M L L L L

Risk of STDs M L L L L L L L L L L LSOCIALLand take L M M L L L L L - - L -Social Conflict for water use

M M L M L L L L - L L -

Disruption of commercial activities

M M M M M M M M L - L L

Key for impact rating:High= HMedium=MLow=LNot applicable = -

Table ES2 the potential impacts of the project and the proposed mitigation measures Potential Impact Mitigation measures

Soil Erosion and Contamination

Appropriate erosion protection measures such as construction of embankment or/and an alternate


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drainage route should be provided.

Land take Necessary resettlement action plan shall commence where land displacement is for permanent duration.

Water Pollution Disposal of sludge into the river or forest should be avoided

Noise Pollution Contractors/CRSWBL shall stick to the industry noise level limit of between 45dB and 55dB. Worker operating equipments exceeding permissible noise limit must not work longer than 8 hours per day, in addition to wearing necessary noise proof equipment

Public Health Proper maintenance site and removal of water from ditches especially after rainfall or ground water infiltration. This should be done by the use of water pumps

Disturbance of Activities Establishment of traffic plans at locations of blockage; civil work activities should be reduced to areas of work site and impact on private property should be avoided as much as possible.

Air Pollution Sprinkling of water during dry periods to prevent dust and burning of waste should be avoided and waste collected should be directed to Cross River State Environmental Protection and Assessment Department (EPAD).

Sludge Disposal Sludge must be dewatered and stabilized and dry treated sludge can be economically used as manure for agricultural purposes

Solid waste Solid wastes to be generated during construction works shall be collected and disposed in the EPAD designated site. Further guidelines can be seen in the waste management plan.

Aesthetics During construction works, sites shall be delimited from the public with appropriate equipments. Maintenance /rehabilitation works shall be prompt in areas where there is leakage or any project induced factor that may lead to poor aesthetics of the environment

Flora Tree planting and re-vegetation shall be embarked upon to restore the natural condition of the environment.

Disruption of Economic activities

All civic works along the access roads shall be carried out in a manner that will not close the road; and where roads need to be temporarily blocked due to pipeline networking, a diversion route shall be created before blocking the existing road

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Environmental Management Plan The Environmental Management Plan (EMP) for Itigidi, Obubra and Okpoma water production and distribution systems contains the following elements: Description of Mitigation Measures: The EMP identified feasible and cost

effective measures to reduce potentially significant adverse environmental and social impacts to acceptable levels.

Description of Monitoring Program: Environmental performance monitoring is designed to ensure that mitigation measures are implemented. It is in compliance with national standards, International Finance Corporation Performance Standards and World Bank Safeguard Policies.

Institutional Arrangements: Responsibilities for mitigation and monitoring are clearly defined amongst the various stakeholders.

Implementation Schedule and Reporting Procedures: The timing, frequency, and duration of mitigation measures are specified in an implementation schedule, showing links with the overall Project Implementation Plans (PIP).

Cost Estimate and Responsibility for the Environmental Management Plan ITEM RESPONSIBILIT

YCOST

BREAKDOWNCOST ESTIMATE

INNIGERIAN

NAIRA(N)

COST ESTIMATE

INUS DOLLARS

(US$)Mitigation CRSWBL- /EPAD 1,572,000 10,480Management CRSWBL-- 5% of Mitigation

Cost78,600 524

Monitoring CRSWBL-- / EPAD 25% of Mitigation Cost

393,000 2620

Training/Capacity Building

CRSWBL/Consultant

1,886,800 12,579

Resettlement Cost

2,343,000 15,620

Sub- Total 6,273,400 41,823Contingency 10% of Sub- Total 1,707,340. 11,382Total per LGA 7,980,740 53,205Total for three (3) LGAs

3 * Total per Town 23,942,220 159,615

The total cost for the EMP in the three (3) LGAs is estimated at Twenty Three Million Nine Hundred and Forty Two Thousand, Two Hundred and Twenty only (N23, 942,220).


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Environmental and Social Impact Assessment of Ikom, Ogoja and Obudu Water Supply Schemes

1 INTRODUCTION

1.1 Background

The original Project, (NUWSRP-II) with an IDA credit of US$ 200 million (IDA Credit No. 4086-UNI), was approved on July 15, 2005 in order to address some of the above deficiencies in water supply services. The Project's Development Objectives were to (i) improve reliability of water supply produced by the water treatment works in Lagos State; (ii) increase access to piped water networks in four cities in Cross River State; and (iii) improve commercial viability of the urban water utilities in Participating States. The project was made up of four components: (a) rehabilitation and systems expansion, (b) public private partnership development, (c) service sustainability and project management, (iv) institutional development and policy reform.

As a result of the successful implementation of NUWSRP 2 in the 2 states, the FGN is requesting an additional financing of US$150 million from the International Development Association (IDA) for Cross River state. The proposed additional credit will help finance the scaling up of the project activities in Cross River state by supporting the construction of 3 additional water supply systems in Itigidi, Obubra and Okpoma towns in the northern part of the state. A project extension of 3 years is proposed to cover the above activities.

The proposed civil works of the Water Supply Scheme include:- Construction of Intake and Weir; Construction of Low and High Lift Pumping Stations; Construction of Water Treatment Plants; Construction of Ground Level Reservoirs; Construction of Elevated Water Tanks; Constructions of Kiosk and house connections; Supply and lying of water supply pipes to cover approximately over

100km of sizes ranging from OD 75mm – OD 500mm including accessories etc; and

Construction of water kiosks and supply and installation of house connection, including pipes, accessories, conventional credit water meters with automatic meter reading (AMR) capabilities.

The water supply scheme is aimed at providing access to portable pipe borne water to some selected semi-urban and rural communities of the state. The water supply Scheme includes the rehabilitation/construction of water production and distribution systems in the selected communities.

1.2 Objectives of the ESIA This report presents the results of the Environmental and Social Impact Assessment (ESIA) of the civil works of the proposed project. The major objective of the ESIA is to identify potential environmental and social

Earthguards Limited1


impacts associated with the project and to identify any measures required to limit such impacts to acceptable levels.

More specifically, the objectives of the ESIA are to: Assess the potential environmental and social impacts of the project’s

activities (rehabilitation, extension, or new constructions), and propose mitigation measures which will effectively address these potential impacts;

Inform the project team- Cross River State Water Board Limited- Project Implementation Unit (CRSWB-PIU) and the CRSG of the potential negative impacts and propose relevant mitigation measures and strategies to be undertaken;

Develop an environmental and social management process to ensure successful mitigation of all adverse impacts; develop a monitoring plan and institutional arrangements to execute this plan; and to provide clear instructions to works supervisors and contractors with regard to any measures that need to be implemented in order to limit any potential negative impacts to acceptable levels

Identify international and national environmental policies, legal and institutional frameworks pertaining to the proposed project.

1.3 Scope of WorkThe Consultant shall:

Study and familiarize himself with the provisions of ESMF and RPF prepared by the Federal Ministry of Water Resources for the implementation of project activities in the participating states.

Undertake field visits to each of the three towns and possible project sites Prepare an ESIA report.

Ensure that each report mentioned in (b) above covers the entire project schemes of Itigidi,Obubra and Okpoma.

Study and review Engineering and Technical Designs for planned investments to identify assess and quantify to the extent possible, all environmental and social impacts and risks in the project schemes.

Provide detailed and tangible mitigation measures to reverse these adverse impacts or manage them within acceptable limits according to existing law in Nigeria and World Bank Safeguard Policies.

Develop an Environmental and Social Management Process to ensure successful mitigation of all adverse impacts, a tangible monitoring plan and institutional arrangements to execute this plan.

Assess further the State Water Board’s capacity to manage the sub-project’s Environmental and Social issues and propose measures on how to reinforce their capacity, for example, by establishing an Environmental Unit, and providing technical training.



Suggest Capacity Building and Technical Assistance requirements in relation to safeguard and awareness needs in the public and private sectors to be implemented under the proposed sub-project.

Develop a suitable maintenance plan with estimates of costs to ensure sustainability of mitigation measures.

Prepare outline reports that are concise but detailed and thorough to include all significant Environmental and Social Impacts. The reports should focus on identifying impacts, mitigating them in the Technical Designs, during construction, operation and sustainable through an effective maintenance plan.

Submit six (6) separate Reports to the Cross River State Water Board Limited (CRSWBL).



1.4 ESIA Process

The ESIA process details the methodology for the assessment and management of environmental issues in any development project. This includes screening, scoping, baseline/ data collection, identification of potential environmental impacts and required management action steps to be taken.

The applied ESIA process is presented below, while further site details are shown in chapter 5 of this report.

Stage 1: Screening: This includes an analysis of the proposed project’s terms of activities to be undertaken, and facility to be established in order to determine the suitability or otherwise of project and whether EA was needed and the scale of impact. This was done using the World Bank safeguards policies, ISO 14001 checklist criteria and best professional judgment. The outcome of this is that the proposed project requires environmental assessment, and is a category B project.

Stage 2: Scoping: Determines any project activities and facilities that might potentially cause interferences with the environment and society. Furthermore, determines any particular environmental sensitivities and conditions that are of relevance to the proposed project. This includes a reconnaissance level visit and full field visit to the various project locations.

Stage 3: On the basis of the analysis in stages 1 and 2, identify any potential impacts of the project on the environment. Depending on the nature of the project activities and facility, as well as specific environmental conditions, the potential significance of such impacts is determined.

Stage 4: Identifies and reviews relevant measures to be taken in order to prevent or reduce any potential adverse impacts to acceptable levels. Furthermore, measures for monitoring and control impacts, including verification of the proposed mitigations measures are determined.

Stage 5: Where impacts may not be successfully prevented or reduced to acceptable levels, measures are defined to either recover environmental conditions, or compensate for unavoidable damage.

Stage 6: Summary of impacts- The predicted adverse environmental and social impacts for which mitigation is required should be identified and summarized.

Stage 7: Description of mitigation measures - The ESMP identifies feasible and cost effective measures to reduce potentially significant adverse environmental and social impacts to acceptable levels.


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Stage 8: Description of monitoring program- environmental performance monitoring should be designed to ensure that mitigation measures are implemented, have the intended result, and remedial measures are undertaken if mitigation measures are inadequate or impacts have been underestimated within the ESIA report. It should also assess compliance with national guidelines and World Bank s OP 4.01 (Environmental Assessment).

Stage 9: Institutional arrangements: Responsibilities for mitigation and monitoring should be clearly defined. The EMP will identify arrangements for coordination between the various actors responsible for mitigation.

Stage 10: Cost estimates: These should both the initial investment and recurring expenses for implementing all measures contained in the ESMP and then integrated into the total project costs.

1.5 Study Approach and Methodology

The ESIA will be prepared in accordance with:

World Bank Safeguard Policy- Operational Policy (OP/BP 4.01): Environmental Assessment, and

Nigerian Government - Environmental Impact Assessment (EIA) Act No. 86 of 1992

A multi-methodological approach was used for the ESIA study to cover the following principal areas:

Project organization and planning, Environmental Assessment, and Socio-economic Assessment

Details of the assessment methodologies are as follows:

1.5.1 Organization and Planning

Project organization and planning was undertaken by collecting relevant materials and information about the project; and a desk review of the literatures.

The materials collected and reviewed include: The gazette of the Nigerian regulatory framework, Project Appraisal Document (PAD) of the NUWSRP2,

World Bank Safeguard Policies especially Environmental Assessment Safeguard Policy (OP 4.01),

the general environmental management conditions for construction contracts, engineering and technical designs, work requirements of


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the treatment plants and other extension/densification of Cross River water distribution system,

baseline information relating to the physical, biological and socio-cultural environment of Ikom, Obudu and Ogoja, and the entire Cross River State (including the climatic conditions),

the Constitution of the Federal Republic of Nigeria, numerous relevant Federal, State, and local laws, regulations, decrees, acts, and guidelines,

The harmonized Environmental and Social Management Framework (ESMF) of the National Urban Water Sector Reform Project (NUWSRP),

Resettlement Policy Framework (RPF) of NUWSRP, and Baseline information relating to the physical, biological and socio-

cultural environment of Cross River State (including the climatic conditions),

1.5.2 Environmental Study

Environmental study was based on:

Reconnaissance level survey

This was the first level visit to the project area to familiarize with the proposed facility sites and the geo-physical conditions of the project area. It also included visits to institutions and authorities who would partner in the implementation process as well as the various communities that this project would be impacting; being the first stage of public consultation. This occurred along side the socio-economic survey

Water quality study

Water samples for analysis were collected daily from various sources of water used by the communities; including the proposed water extraction sources for the project. Water was collected as a composite sample at each sample station. At each time of water collection, two separated set of samples were collected, one for the determination of heavy metals and the other for the determination of physico-chemical parameters. Water samples were collected in plastic containers after being rinsed with ambient water from each station and labeled accordingly. Analysis of pyhsico-chemical parameters was determined in the laboratory, while heavy metals were determined using the Atomic Absorption Spectrometer (AAS). Water quality analysis in relation to the study is to determine the bacteria loads, level of metal composition and chemicals, and subject them to the WHO/Nigerian Federal Ministry of Environment standards for drinking water. Quality control of water collection was ensured by: Ensuring that professionals only collect water samples Wearing hand gloves


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Immersing the container inside the water and stoppering below surface water

Transporting samples to laboratory for analysis within 24 hours of collection.

Soil Quality study

Soil samples were collected from locations of various proposed constructions and installations. This was also collected from the water resources sites being used or proposed for this water scheme project for the purpose of determining the existing physico-chemical soil conditions.

Quality control of soil collection entailed;o removing the topsoil, and collecting soil below 2cm from the surface

soil-level,o Air drying soil samples o Labeling of each soil sample,o Transporting samples to laboratory for analysis within 24 hours of

collection.

This involved visits to all the communities of project influence in the 3 project areas. All the proposed locations for facility constructions including the intake and weirs were visited to observe the nature of the environmental conditions.


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Air and Noise Quality Using air and noise quality equipment, the experts tested surveyed proposed sites in all the project areas. The analysis was subjected to the standards given by the Federal Ministry of Environment in Nigeria. This will help during implementation for pollution control and compliance monitoring.

1.5.3 Social, Economic and Health Study

The first step adopted was to visit authorities and communities that this project would be impacting. The community consultation as a tool of social study would not only community participation and sustainable development, but was used to create awareness of the questionnaire to be administered to the households in the project areas; and at the same time was useful for eliciting the communicable health concerns of the project communities.

Semi Structured Interview (SSI) questionnaire, a tool of Participatory Rural Appraisal (PRA) was used for data collection from the respondents.

A sample of the SSI Questionnaire used for the field study is presented in Appendix 5.

To ensure quality control of the field work, the following steps were taken:

Field Interviewers/EnumeratorsThe instrument was administered by well-trained and tested research assistants and enumerators, under close supervision. Field enumerators were recruited based on the following: Graduate from a higher institution; Ability to speak the local language; Familiarity with the project area.

Training was held for all field enumerators and supervisors by the experts in the consulting firm. The training included: Detailed explanation of the entire project; The importance, and how to administer the questionnaires; Field practices/ reconnaissance survey using the SSI; Cross Checking of questionnaire filled by the research assistants

enumerators during the field practice to ascertain their ability to use the SSI.

1.6Project Classification The classification phase involves a preliminary screening that categorizes the proposed project, so as to determine the nature and extent of the environmental assessment needed. Projects are classified as category A, B or C (high, medium and low social or environmental risks) depending on the Earthguards Limited: Sustainable Development Consultants

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type, location (nearness to ecologically vulnerable areas), sensitivity and scale of the project, as well as the nature and magnitude of its possible impacts. Category A: A proposed project is classified in this category if it is likely

to have significant adverse environmental impacts that are sensitive (and may be irreversible), diverse or unprecedented. These projects may affect an area broader than the sites or facilities subject to physical work.

Category B: A proposed project receives this classification if it has potential environmental impacts on human populations or environmentally important areas –including wetlands, forests, grasslands, and other natural habitats –that are less adverse than those of Category A projects. These impacts are site-specific; few if any of them are irreversible; and in most cases mitigation measures can be designed more readily than for Category A projects.

Category C: A proposed project is classified as a Category C if it is likely to have minimal or no adverse environmental impacts.

This project is classified as a Category B project because:o Its impacts are site specific o Its impacts are reversible, or in most cases have practical

mitigation measureso Most of its impacts fall within medium and low ratings.

As a result of the above justification and classification, this project is classified as a Category B (medium impacts) project. It is therefore required that an Environmental and Social Impact Assessment (ESIA) be prepared.

This ESIA report is prepared as a stand alone document for ease of implementation by the CRSWBL.


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2 PROJECT DESCRIPTION

2.1 Project Rationale

The Cross River State Government considers the provision of potable water as a critical element in its policy for sustainable economic development and poverty reduction. The project’s principal development outcomes are:

Increased reliability and financial viability of selected urban water utilities;

Increased access to piped water networks in selected urban areas; and

Improve financial viability of the urban water utilities in the selected urban areas of Cross River State.

Progress toward these principal development outcomes will be measured through:

The increase in water delivered through existing and extended networks;

Improvements in cost recovery, especially the degree to which operating costs are recovered from water sales revenues in Cross River State; and

Increase in the number of households having access to the piped water network.

2.2 Project Components

The proposed civil works of the Water Supply Scheme include:- Construction of Intake and Weir; Construction of Low and High Lift Pumping Stations; Construction of Water Treatment Plants; Construction of Ground Level Reservoirs; Construction of Elevated Water Tanks; Supply and lying of water supply pipes to cover approximately

over 100km of sizes ranging from OD 75mm – OD 500mm including accessories etc.

Construction of about 130 water kiosk and supply and installation of house connection, including pipes, accessories, conventional credit water meters with automatic meter reading (AMR) capabilities for approximately 1,500 house connection.

The CRSWBL commissioned detailed engineering design for these civil works for these civil works to result in construction specifications and drawings for inclusion in the tender documents; this work has been carried by SGI Consulting Engineers Limited.

2.3 Project Environment


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From field survey and expert review of the feasibility report of the proposed sites the site information of the various facilities across the three (3) project areas are presented as follows:


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Fig 2.1(e): Proposed New TreatmentPlant site at Okpoma Fig 2.1(f): Affected buildings in the right of way of water pipeline in Itigidi

Fig 2.1(c): Proposed New TreatmentPlant site at Itigidi old market

Fig 2.1(b): A section of Onwan river source ofIntake for Okpoma project area

Fig 2.1(d): Proposed Treatment Plant site atObubra showing uncompleted building and

Farm land to be affected

Fig 2.1(a): A section of River Cross, source of intake for Itigidi and Obubra project areas



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Obubra site information:

Intake and Weir SiteThe intake and weir plant is located by the river bank of River Cross at Adun Beach. The land take is about 50m x 100m. Activities around the river bank include crop cultivation, while fishing is said to take place at a distance as a result of constant human activities by the community which have drove aquatic habitats afar–off. There are no buildings and/or habitations within the area. Access to the treatment plant is through motor-bike.

Raw water extraction is from River Cross which bisects Itigidi, Obubra, Ikom and flows through to Republic of Cameroun. The River is massive, and has a historical record of large water resources at both dry and rainy seasons (SGI Ingenierie SA of Geneva, 2009).

Treatment Plant Site:The proposed treatment plant site is located at the left bank side of Adun Beach village about 500m away from the intake site. It is a communal land given to individuals for agricultural purposes. The total land space measures 350m x 250m. There is an uncompleted building project about 70m west of the proposed site. The site is located about 250m away from the regular settlements. Figure 2.1 shows the Obubra water treatment plant layout.

Pipeline network routeThe water pipeline work is expected to follow along existing road path. The communities where the pipeline will pass through are mostly rural. Their major occupation is farming, with few people into petty trading. There are no private or community assets or means of livelihood to be affected by the pipeline work. However, intermittent obstruction to movement is expected. As a result of this, basic safety cautions for construction works will apply.

Kiosk Construction sitesThe construction of kiosks will be done at various points within the settlements. It is expected to be situated on the Neighborhood on certification of feasibility study of proposed site. However, necessary sanitation plan and training is being proposed as an integral of the management plan.


14

11

3

7

E

A

4

6

F

22

D

22 22

8

1B

92

C

G

8

10

Water supply conveyance system

10

100

From River Cross

5

5

COAGULATION +FLOCCULATION TNAK SETTLING TANK SAND FILTER CHLORINATION TANK CLEAR WATER TANK PUMPING STATION (CONVEYANCE) BACK WASH PUMPING STATION SLUDGE PUMPING STATION SLUDGE THICKENER DRYING BEDSRETURN WATER PUMPING STATIONAHEADQUARTER BUILDINGBELECTRICAL BUILDINGCTECHNICAL BUILDINGDREAGENT BUILDINGECOMPRESSOR BUILDINGFGUARD HOUSE

ACCESS ROAD

FIRST STAGE INVESTMENT

LONG TERM INVESTMENT


Figure 2.1: Obubra Water Treatment Plant Layout


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Itigidi site information:

Intake and Weir siteThe facility is using the existing intake site at Itigidi town, which lies about 200m away from the Itigidi town hall, and about 150m away from the existing water treatment plant. Raw water extraction is from River Cross which bisects Itigidi, Obubra, Ikom and flows through Republic of Cameroun. The River is massive, and has a historical record of large water resources at both dry and rainy seasons (SGI Ingenierie SA of Geneva, 2009))

Treatment Plant Site:The existing plant operating from that site is virtually redundant and will be replaced by the proposed new plant because the existing plant site is not large enough to accommodate the new plant. The new plant is about 300m away from the old site. It is on the side of the old market. The local authority has built a new market, and has offered the old market for the new water treatment plant.

There is neither human habitation nor agricultural activities in the proposed site. Figure 2.2 shows the Itigidi water treatment plant layout.

Pipeline network routeThe water pipeline work is expected to follow along existing road path for the most of the rural developing adjoining communities. In this area the settlement pattern is typically traditional with scattered and nucleated structures of houses made of mostly mud walls. However, pipeline in Itigidi town will follow the existing right of way. This will entail the rehabilitation of the existing pipeline network. This will obviously disrupt movement and affect private assets.

Kiosk Construction sitesThe construction of kiosks will be done at various points within the settlements. It is expected to be situated on the Neighbourhood on certification of feasibility study of proposed site. However, necessary sanitation plan and training is being proposed as an integral of the management plan.


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A

C

5

5

F

6

22

3

9 8

B

E

D

1

11

4

7

G

From River Cross

2 2

10

10

ITIG

IDI

COAGULATION +FLOCCULATION TNAK SETTLING TANK SAND FILTER CHLORINATION TANK CLEAR WATER TANK PUMPING STATION (CONVEYANCE) BACK WASH PUMPING STATION SLUDGE PUMPING STATION SLUDGE THICKENER DRYING BEDSRETURN WATER PUMPING STATIONAHEADQUARTER BUILDINGBELECTRICAL BUILDINGCTECHNICAL BUILDINGDREAGENT BUILDINGFGUARD HOUSE

ACCESS ROAD




Figure 2.2: Itigidi Water Treatment Plant Layout Plan


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Okpoma site information Intake site The proposed intake site is situated on the Onwe River. The land is owned by the community and is located 4km away from settlement. The land was previously used for crop cultivation purpose until it was offered for use of the water scheme.

Feasibility study carried out by SGI Ingenierie SA of Geneva (2009) on behalf Cross River State Water Board shows that Onwe River is large and feasible to serve the purpose of the scheme along with other competing local uses in both dry and rainy seasons.

Treatment Plant Site:The treatment plant is located in Idigbo-Okpoma, about 3 km distance away from settlement, and the land take is about 275M x 200M. The land is owned by the community, who has offered same for the facility. The site is located in a grass land space with no habitation. Surrounding land around the proposed site is used for farming by members of the community. The plan layout of the Okpoma water treatment plant is shown in figure 2.3.

There is a road from Okpoma to the Onwe River that at present is motor-able only in the dry season but which, as part of the project, will be converted to an all-season laterite road. This will be of assistance to the farmers who till land in areas bordering this road and provide them an opportunity to move their produce to the market.

Pipeline network routeThe water pipeline work is expected to follow along existing road path. The communities where the pipeline will pass through are mostly rural. The settlement pattern is typically traditional with scattered and nucleated structures of houses made of mostly mud walls.

Their major occupation is farming. There are no private or community assets or means of livelihood to be affected by the pipeline work. However, intermittent obstruction to movement is expected. As a result of this, basic safety cautions for construction works will apply.

Kiosk Construction sitesThe construction of kiosks will be done at various points within the settlements. It is expected to be situated on the Neighbourhood on certification of feasibility study of proposed site. However, necessary sanitation plan and training is being proposed as an integral of the management plan.


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COAGULATION +FLOCCULATION TNAK SETTLING TANK SAND FILTER CHLORINATION TANK CLEAR WATER TANK PUMPING STATION (CONVEYANCE) BACK WASH PUMPING STATION SLUDGE PUMPING STATION SLUDGE THICKENER DRYING BEDSRETURN WATER PUMPING STATIONAHEADQUARTER BUILDINGBELECTRICAL BUILDINGCTECHNICAL BUILDINGDREAGENT BUILDINGECOMPRESSOR BUILDINGFGUARD HOUSE

ACCESS ROAD




6

1

F

3

7

9

E

A

4

OKPOMA

1010

22

D1B

228

22

FROM ONWE RIVER

E

5

5

C


Figure 2.3 Okpoma Water Treatment Plan Layout Plan Drawings


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2.4 Project Locations

The proposed project will be carried out in Abi, Obubra and Yala LGAs as seen in figure 2.4 and exact description of the project components in the three (3) LGAs can be seen in the sections that follow.

Figure 2.4: Map of Nigeria showing project locations in Cross River State


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2.4.1 Itigidi Town Water Scheme (Abi LGA Project Locations)

The Abi LGA project area comprises of Itigidi town and 12 communities namely Adadama, Egboronyi, Emin Ekpon, Anong, Likpoma, Akaefor Esegeh, Akarefor, Ekureku, Agbara, Ngarebe, Akpoha, Itgeve and Isong Inyang. Figure 2.5 indicates the water facilities, pipeline routes and the communities to be connected to

the proposed Water Supply Scheme.

Figure 2.5: Communities and proposed water distribution network in Abi LGA

Table 2.1: Project Components and Locations in Abi LGALocation Project Components

Itigidi Town Raw Water Intake Station is via a LLPS through (0.05km/500mm diameter) Ductile pipes to a Water Treatment Plant

Water Treatment Plant

Water Treatment Plant pipes (DI) of (1km/450mm diameter) to school rd GLR

Primary Pipes (DI) of (1km400mm diameter) from School rd GLR via a HLPS to LGA Hq GLR

Primary Pipes of (0.8km/300mm diameter) from School rd GLR pipes to Central Itigidi

Primary pipes of 0.8km/180mm diameter from LGA Hq to Northern Itigidi

Distribution within Northern and Central Itigidi town via secondary PVC pipes (8.5km)

Construction of 16 kiosks in Itigidi town


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LGA Hq primary pipes (DI) of 2.5km/400mm diameter) to T-junction

Location Project Components

Location T junction pipes(DI) of 5.8km/300mm diameter to Adadama GLR

Primary pipes of (1km/300m diameter) from Adadama GLR to Adadama community

Distribution within Adadama community via secondary PVC pipes (7.7km)

Construction of 14 kiosks Adadama community

Adadama/Imina Primary pipes(HDPE) of (0.7km/110mm diameter) from Adadama GLR to Imina EWT

Primary pipes of (0.1km/110mm diameter) from Imina EWT to Imina community

Primary pipes of (2km/110mm diameter) from Imina EWT to Itigieve community

Itigieve Primary pipes of (0.7km/75mm diameter from Itigieve community to Isong Inyang community

Distribution within Itigieve and Isong Inyang communities via secondary PVC pipes (1.2 km)

Construction of 3 kiosks in Itigieve and Isong Inyang communities

Akerofor Distribution with Akerofor community via secondary PVC pipes (3.2 km)

Construction of 8 kiosks in Akerofor community

Distribution with Akerofor Esegeh commuinty via secondary PVC pipes (0.6km)

Construction of 2 kiosks in Akerofor Esegeh community

Primary pipes of (0.9km/100mm diameter) from Akerofor community to Likpoma community

Likpoma Distribution within Likpoma communty via secondary PVC pipes (0.9km)

Construction of 2 kiosks in Likpoma community

Ekureku Primary pipes of (0.5km/250mm diameter) from Anong EWT to Ekureku community

Distribution within Ekureku community via secondary PVC pipes (3km)

Construction of 7 kiosks in Ekureku community

Primary pipes of (1.4km/160mm diameter) from Ekureku community to Akpoha community

Akpoha Distribution within Akpoha community via secondary PVC pipes (2.4km)

Construction of 6 kiosks in Akpoha community

Primary pipes of (1.4km/200mm diameter) from Ekureku community to Ngarebe community

Ngarebe Distribution within Ngarebe community via secondary PVC pipes (2.6km)

Construction of 7 kiosks in Ngarebe community

Primary pipes of (0.8km/200mm diameter) from Ngarebe community to Agbara

Agbara Distribution within Agbara community via secondary PVC pipes (7 km)

Construction of 18 kiosks in Agbara community

The Water Supply Scheme for Abi LGA and surrounding communities is as follows:

Surface water abstraction from river cross by means of intake raw Water Pumping Station located at Itigidi close to River Cross.

Treatment plant located at Itigidi receive the raw water for processingEarthguards Limited: Sustainable Development Consultants

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High Lift Pumping Station (HLPS) at Local Government Authority conveys the total water demand from the treatment plant to the planned Local Government Authority Ground Level Reservoir (LGA GLR).

From this GLR, treated water is supplied to central Itigidi center will be secure through two newly built reservoirs such as a GLR installed close to School Road and design to supply the lowest part of the city, called central Itigidi and EWT sited on the LGA GLR location which will be built to supply Northern Itigidi.

A gravity main will be linked to the outlet of the LGA GLR and go on to the North-East to Adadama-Egboronyi junction where a T will be installed

From the T junction, the proposed pipe goes straight to Adadama GLR through the main road.

A proposed Elevated Water Tank (EWT) will be constructed at Imina to supply water to the communities of Itigeve and Isong Inyang.

Also from the junction, a 350mm ductile iron pipe will be connected to the T and will carry on to the Egboronyi- Emin Ekpon junction.

On the junction quoted above, a double socket tee will be installed to supply three proposed overhead reservoir in Emin-Ekpon and Egboronyi, distributing water to the respective communities and Anong, distributing water to Anong, Agbara, Akpoha, Ekureku, Akarefor, Ngarebe and Likpoma.

2.4.2 Obubra Town Water Scheme ( Obubra LGA Project Locations)The Obubra LGA project area comprises of Obubra town and 18 communities namely Owakande I, Owakande II, Ogada I, Ogada II, Apipum, Ofatura, Ovonum, Ofodua, Iyamoyong, Ohana, Ofukpa, Ofat, Ababene, Obubra station/ Mile I, Onyedama, Adun Beach, Ofonbongha, Ochon and Oderigha. Figure 2.6 indicates the water facilities, pipeline routes and the communities to be connected to the proposed Water Supply Scheme.


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Figure 2.6: Communities and proposed water distribution network in Obubra LGA


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Table 2.2: Project Components and Locations in Obubra LGALocation Project Components

Adun Beach Raw Water Intake Station through Ductile pipes of (0.5 Km/600mm

diameter)to a Water Treatment Plant at Adun Beach Primary pipes (HDPE) of (1km/75mm diameter) from Water

Treatment Plant to Adun Beach EWT

Pipes of (0.1km/110mm diameter) from Adun EWT to Adun Beach Distribution within Adun Beach community via secondary PVC pipes

(1.3km)

Construction of 3 kiosks in Adun Beach community

Ofat Primary pipes (DI) of (5.1km/400mm diameter) from Water

Treatment Plant to Ofat EWT

Pipes of (0.2km/500mm diameter) from Ofat EWT to Ofat junction Pipes of (0.2km/300mm diameter) from Ofat junction to Ofat

community

Distribution within Ofat commuinty via secondary PVC pipes (5.1km)

Construction of 10 kiosks in Ofat community

Ofatura Pipes of (1.9km/400mm diameter) from Ofat junction to Ofatura Distribution within Ofatura community via secondary PVC pipes

(2.9km)

Construction of 6 kiosks in Ofatura community

Ofodua Pipes of (0.3km/350mm diameter) from Ofatura to Ofodua Distribution within Ofodua community via secondary PVC pipes

(8.3km)

Construction of 16 kiosks in Ofodua community

Abebene Pipes of (1km/300mm diameter) from Ofat junction to Abebene Distribution within Ababene community via secondary PVC pipes

(7.6km)

Construction of 19 kiosks in Ababene community

Oderigha

Pipe of (1.3km/250mm diameter) from Ofat junction to Oderigha Distribution within Oderigha community via secondary PVC pipes

(2.1km) Construction of 4 kiosks in Oderigha community


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Onyedama Pipes of (2.6km/180mm diameter) from Oderigha to Onyeadema Distribution within Onyedama community via secondary PVC pipes

(4.1km) Construction of 10 kiosks in Onyedama community

Apapium Primary pipes (DI) of (4.1km450mm diameter)from Water Treatment

Plant to Apapium GLR Pipes (DI) of (0.03km/350mm diameter) from Apapium GLR to

Apapium EWT Pipes of (1.7km/450mm diameter) from Apapium EWT to Apapium

community Distrbution within Apapium community via secondary PVC pipes

(7.9km) Construction of 15 kiosks in Apapium community

Ovonum Pipes of (1.3km/300mm diameter) from Apapium community to

Ovonum community Distribution within Ovonum community via secondary PVC pipes

(5.6km) Construction of 10 kiosks in Ovonum community

Ofukpa Pipes of (1.9km/60mm diameter) from Apapium EWT to Ofukpa

community Distribution within Ofukpa community via secondary PVC pipe

Construction of 1 kiosks in Ofukpa community


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Location Project Components

Mile 1 Pipe (DI) of (12.1km/350mm diameter) from Apapium GLR to Mile 1

EWT Pipe of (0.04km/300mm diameter) from Mile I EWT to Mile I

community Distribution within Mile I community via secondary PVC pipe (3.8km)

Construction of 7 Kiosks in Mile I/ Obubra Town

Ogada I Pipe of (2.1km/250mm diameter) from Mile I community to Ogada

junction Pipe of (5km/160mm diameter) from Ogada junction to Ogada I

community Distribution within Ogada I community via PVC pipe (3.6km)

Construction of 9 Kiosks in Ogada I community

Ogada II Pipes of (1.1km/200mm diameter) from Ogada junction to Ogada II

community Distribution within Ogada II community via PVC pipe (5.2km)

Construction of 13 Kiosks in Ogada II community

Owakande II Pipes of (0.09km/125mm diameter) from Ogada II community to

Owakande II community Distribution within Owakande I community via PVC pipe (1.6km)

Construction of 4 Kiosks in Owakande I communityObubra junction Pipe of (1.2km/300mm diameter) from Mile I EWT to Obubra junction

Distribution within Obubra junction community via PVC pipe (3.8km) Construction of 7 Kiosks in Obubra junction community

Obubra I Pipe of (0.8km/200mm diameter) from Obubra junction to Obubra

station Pipe of (1.8km/200mm diameter) from Obubra junction to Obubra I

community Distribution within Obubra I community via PVC pipe (2.2km)

Construction of 4 Kiosks in Obubra I

Owakande I Pipe of (2.5km/250m diameter) from Obubra junction to Owakande

community Distribution within Owakande I community via PVC pipe (2.3km)

Construction of 6 Kiosks in Owakande I community

Ofonbongha Pipe of (0.4km/225mm diameter) from Owakande to Ofonbongha I

community Pipe of (0.9km/200mm diameter) from Ofonbongha I community to

Ofonbongha II community Pipe of (0.3km/200mm diameter) from Ofonbongha II community to

Ofonbongha III community Pipe of (1km/180mm diameter) from Ofonbongha III community to

Ofonbongha IV community Distribution within Ofongbongha communities via PVC pipe (7.3km)

Construction of 18 Kiosks in Ofongbonga communities

Ohana

Pipe (HDPE) of 8.3km/180mm diameter) fromApiapum GLR to Ohana EWT

Pipe of (1.7km/160mm diameter) from Ohana EWT to Ohana community

Distribution wthin Ohana community via PVC pipe (3.5km) Construction of 9 Kiosks in Ohana community

IyamoyongPipe of (1.3km/200mm diameter) from Ohana EWT to Iyamoyong communityDistribution wthin Iyamoyong community via PVC pipe (5.6km)

Construction of 14 Kiosks in Iyamoyong community

The water supply system for Obubra and its surrounding communities is as follows:


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Surface water abstraction from River Cross by means of raw water intake pumping station located at Adun beach;

The raw water will be pumped to a new treatment plant situated at 500m away from the intake.

On the treatment plant site, a new pumping station will be erected, housing three outlets to convey the clear water from the clear water tank (CWT) to the reservoirs of the scheme.

o A low lift pumping station will provide water to a newly built elevated water tank (EWT) at Adun Beach. This concrete tank will provide water to the small community living in Adun Beach area.

o A High Lift Pumping Station (HLPS) will supply water to a new EWT in Ofat, and in turn provide water to Ofodua, Ofotura, Ofat, Abebene, and Onyedama.

o Another HLPS will allow conveying water to a Ground Level Reservoir (GLR) on the Apapium high point.

The GLR will be used as a transfer and storage reservoir and a LLPS will be constructed on the same site to allow the filling of the newly Elevated Water Tank (EWT) erected near by and supplying water to Apiapium, Ovonum and Ofukpa.

Two High Lift Pumping Station (HLPS) will be built on the Apapium Reservoir site those set will convey water coming from the Apiapum GLR to remote communities like Ohana and Mile I.

The Mile I EWT is designed to provide water to Obubra and its surrounding communities.

2.4.3 Okpoma Town Water Scheme ( Yala LGA Project Locations) The Yala LGA project area comprises of Okpoma town and 13 communities namely Abachor, Okpinya, Idigbo, Olachor, Adiero, Woleche, Utukpo, Utukpo Iponle, Iboko, Itega Udenyina, Okpodu and Igbekurekor. Figure 2.7 shows the locations of the proposed Water Supply Scheme facilities and the communities in which they would be located.


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Figure 2.7: Communities and water distribution network in Yala LGA


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Table 2.3 Project Components and Locations in Yala LGALocation Project Components

Raw water intake station via Ductile pipes of (1.7km/450mm diameter) to a new Water Treatment Plant at

Udenyina Supply of water via HDPE pipes of (0.05km/50mm diameter) from Water Treatment

Plant (TP) to Udenyina Elevasted Water Tank (EWT) Distribution within Udenyina community via secondary pipes of (0.2km)

Construction of 1 kiosk in Udenyina communityT Junction Supply of water via DI pipes of (2.8km/450mm diameter) from TP to T Junction Woleche HDPE pipes of (2.8km /110mm diameter) from T junction to Woleche EWT

Pipes of (1km/110mm diameter) from Woleche EWT to Woleche Distribution within Woleche community via secondary PVC pipes (0.6km)

Construction of 2 kiosks in Woleche communityIboko Pipes of (1.7km/75mm diameter) from Woleche community to Iboko community

Distribution within Iboko community via secondary PVC pipes (0.3km) Construction of 1 kiosk in Iboko community

Utukpo Pipes of (0.6km /160mm diameter) from Woleche EWT to Utukpo Distribution within Utukpo community via secondary PVC pipes (0.7km)

Construction of 2 kiosks in Utukpo communityUtukpo Iponle Distribution within Utukpo Iponle community via secondary PVC pipes (0.6km) Construction of 1 kiosk in Utukpo IponleItega Pipes of (3.2km/160mm diameter) from Utukpo community to Itega community

Distribution within Itega community via secondary PVC pipes (2.2km) Construction of 5 kiosks in Itega community Okpoma DI pipes of (4.6km 450mm diameter) from T junction to Okpoma EWT

Pipes of (0.5km/500mm diameter) from Okpoma EWT to Okpoma Distribution within Okpoma community via secondary PVC pipes (19.4km) Construction of 36 Kiosks in Okpoma community

HDPE pipes of (3.9km/160mm diameter) from Okpoma EWT to Local Government

EWTOlachor Pipes of (0.4km/250mm diameter) from Okpoma EWT to Olachor

Distribution within Olachor community via secondary PVC pipes (6km) Construction of 15 kiosks in Olachor community Adiero Pipes of (0.9km/180mm diameter) from Olachor to Adiero

Distrbution within Adiero community via secondary PVC pipes (0.5km) Construction of 1 kiosk at Adiero communityIdigbo Pipes of (0.6km/180mm diameter) from Adiero community to Idigbo community

Distribution within Idigbo community via secondary PVC pipes (1.7km) Construction of 4 kiosks in Idigbo community Pipes of (1km/140mm diameter) from Idigbo commuity to Okpinya community

Construction of 1 kiosk at Okpinya communityAbachor Pipes of (0.1km/140mm diameter) from Okpinya community to Abachor community

Distribution within Abachor community via secondary PVC pipes (1.8km) Construction of 4 kiosks in Abachor community Pipes of (2km/200mm diameter) from LG EWT to Okpodu community Distribution within Okpodu community via secondary PVC pipes (3.8km)

Construction of 9 kiosks in Okpodu community Igbekurekor Distribution within Igbekurekor community via secondary PVC pipes (2.1km) Construction of 5 kiosks in Igbekurekor community


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The water supply system for Yala LGA and its surrounding communities is as follows:

Surface water abstraction from Onwe River close to Udenyina by means of raw water intake pumping station;

A new water treatment plant will be built 1,700m inland from the water intake pumping station ;

From the new water treatment plant, a High Level Pumping Station (HLPS) will be designed to supply water to 3 new Elevated Water Tanks (EWT) in Woleche community (on the South West), Okpoma community (in the center) and close to the LGA. In the height of Okpoma through a main pipe along the road to Okpinya to a T- junction about 2km to these communities. From this junction, two pipes will be laid down:o The first will carry water to Woleche EWT straight south.

o The second pipe will convey water to Okpoma EWT through a HDPE pipe of Ǿ450 and also convey water to EWT in the height of Okpoma close to LGA.

At proposed treatment plant site, a small submersible pump will be installed in the clear water tank to allow the filling of a small overhead reservoir to supply water to Udenyina community.

2.5 Project Activity

2.5.1 Intake and Low Lift Pumping Station

There will be an intake structure for water admission into the low lift pumping station through a vertical opening of 1.0 m width and with height from 17.5 masl to the top of the intake structure, about 12.5m.The construction work shall include wooden stop logs of total width adequate to isolate the opening to the suction chamber, and a total height of 12,500 mm, in separate and exchangeable sections.There shall be the construction of Steel track rack, constructed of separate and exchangeable sections of a total width of 1200 mm with clearance openings of 30 mm. Each section shall have a seating and a top plates, with individual hooking arrangement for lifting/lowering. The supply and installation/fixing shall include


32


metal guides slots to be embedded in concrete including anchoring pieces.

There shall be a steel beam for lifting and lowering of any section of either stop log or trash rack. Also to be installed is a three vertical turbine pumps (2 in operations and 1 stand by) for outdoor installation.

2.5.2 Raw Water MainThe raw water main is to convey raw water from the LLPS to the aerator in the treatment plant.The pipeline shall be of Ductile Iron according to ISO std. 2531, pressure rating K9, with bell and spigot connections and will have a total length of about 1,475m.

Internal lining: Cement mortar (ISO 4179)

External coating: Zinc metal + Bitumen (ISO 8179)

The pipeline shall be provided with all necessary DI elbows, tees and other accessories for the installation of air valves and wash out valves. Each one of the the air valves and wash out valves shall be installed in a reinforced concrete covered 1.2 x 1.5 m chamber.Anchor blocks will be constructed against movements of line accessories (tees, elbows, reducers, etc.), at highest test pressure applied.

2.5.3 Access Road from Existing Roads to Intake and Treatment Plants

There will be road construction in Okpoma and Obubra project areas to enhance easy access to the intake and treatment plant sites. This shall entail earthwork activities including land clearing and stripping of top soils.Earthwork:Fill: The fill shall be compacted in layers of a compacted thickness of 150 mm or such other thickness as may be found necessary to achieve the required density.


33


Cut:The top 150 mm shall be watered and compacted to 100% B.S standard compaction at optimum moisture content (OMC)

2.5.4 Treatment PlantThe schematic drawing of the proposed treatment plants is presented in figure 2.8, while description of the work process follows.


34

Chlorine gas

Anionic polymer

Alum sulphate

Water supply Conveyance system

River

Sludge disposal

2. Lime Alum sulphate

chlorine

Settling Tank Sand FilterChlorination Tank

7. Clear water storage tank

3. FlocculationPre-oxidation

Low lift pumpingstation

10. Dewatering drying bed

8. Sludge pumping station

9. Sludge thickening

Fast mixing tank

Filtration waterReturn water pumping station

Slow mixing tank

Backw

ash

Extracted sludge

4. Sedimentation5. Sand Filtration

6. Disinfection by Chlorination Tank

11. Sludge disposal


Figure 2.8 Schematic Diagram of a General Treatment Plant


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Description of the proposed treatment work process

The water treatment works will be a conventional process made up of pre-oxidation, flocculation/coagulation, settling tank/sedimentation, filtration and disinfection.

Stage 1: Pre-oxidation and pH adjustment

Pre-oxidation

The removal of metallic species in raw waters is possible by a physiochemical process: coagulation, flocculation and sedimentation. However, a pre-oxidation by chlorine gas improves this phenomenon: this reagent, effective over a wide pH range, is useful to oxidize metals, especially Iron, and Manganese.

pH adjustment

Lime shall be added to get the optimal coagulation –flocculation pH (around 8.5).

Stage 2: CoagulationThe coagulation and flocculation processes facilitate the removal of total suspended solids (TSS), colloids and possibly precipitates of Iron and Manganese, which occurs in a final stage of solids-liquid separation (or sedimentation).

Coagulation corresponds to the destabilization of colloidal particles brought about by the addition of a chemical reagent (a coagulant). Alum Sulphate will be dosed for this coagulation purpose.

Stage 3: Flocculation Flocculation process corresponds to the agglomeration of destabilized particles into microfloc, and later into bulky floccules which can be settled, called floc. The introduction of flocculants aid may promote the formation of flocs. The chosen and commonly used reagent is an anionic polymer (sold in powder form).This step requires a slow mixing tank (50 to 200 rmp).

Stage 4: Sedimentation The main purpose of settling is the separation technique most often used for TSS colloid, collected in the form of flocs after the coagulation and flocculation processesSludge is composed of all the flocs settle on the bottom of the sedimentation tank. Sludge is extracted from this tank: 18h/day, and 7d/week; and will be sent to a special treatment for sludge, generated from water treatment.

Stage 5: Sand filtrationThe use of rapid sand filter is a technique widely used in drinking water


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The purpose of sand filtration is to clear water by a physical removal of suspended solids (sludge) by passing through a medium (or more). A two layers filter, using two different media characteristics, is preferred to avoid the screening effect of a heterogeneous layer and to promote the penetration of impurities throughout the entire dept of the filter.

The filter materials used have two layer and this are: anthracite and sand layer. The water flow is directed downwards, passing through the anthracite layer then the sand layer. The coarse particles are retained in the sand layer. A cleaning of the filter should be performed regularly to avoid clogging and bacteria growth. Backwashing is carried out with air and chlorinated waters.

Stage 6: Disinfection by chlorinationIn this stage, water flows from the sand filter to the chlorination tank. In this tank; chlorine is added to the water and allowed to settle for some time.

Chlorine is usually used in this stage because it is commonly applied to water for activation for most harmful micro-organisms.

Water Demand and Sludge treatment

Water demand in the project area is estimated based on year 2025 estimate. The present population (based on 2006 Population Census figures) and nature of agricultural water demand was major considerations. Table 2.4 presents the water demand estimate and actual land proposed for treatment plant in each of the three (3) project areas.

Table 2.4: Water Demand and Treatment Plant Land Take ITEM DESCRIPTION PROJECT AREA

ITIGIDI OBUBRA OKPOMA

Water Demand CuM/Day 5,102 10,280 4,893

Treatment Plant Land Area 275M x 200M 350M x 250M 275m x 200M

Sludge treatment must serve for the most to reduce these by-products in volume. The low organic load of raw waters induces a low fermenting capacity: a digestion process or a conditioning process is not required.

The chosen sludge treatment consists of: A thickening by settling: sedimentation and

homogenization of raw sludge which produces a sludge that is still fluid;

A dewatering on drying beds: natural drainage.

o Thickening


37


The thickening process corresponds to an increase in the concentration of total solids (sludge) collected in the settling

tanks. The sludge laden suspension is fed into a tank, where it remains for a lengthy retention time so that the sludge is compacted. The more concentrated sludge is extracted from the bottom, while the supernatant liquid is drawn off the top.

o Dewatering on drying beds

The use of drying beds requires no energy input and does not require much attention (maintenance). Only the natural phenomena of evaporation, drainage, perspiration can increase the dryness of the sludge.

Sludge should be made toxic free for plant growth, and used as fertilizer for agricultural purposes.


38


Outbuildings Within each plant area the following ancillary structures/equipments shall also be considered as part of the project.

A security post A headquarter building for offices and workshop. A chemical storage buildings (reagent building and chlorine

building), An electrical building. A technical building.

WaterTreatment Process

Abi Obubra Yala

Reagents

Year 20

25203

5202

5203

52025

2035

Water Intake

5102

11887

10280

24517

4893

11815

Primary Treatment Plant

Preoxidation

Lime (m3//day)

1.7 3.9 3.4 8.1 1.5 3.5

Chlorine (Kg/day)

67 157 136 324 59 139

Coagulation Alum Sulphate (kg/hr)

23.4

54.5 47.1 114.4

20.4

48.3

Flocculation Aniomic Polymer (Kg/hr)

0.7 1.1 1.5 2.2 0.6 1

Sedinmentation

Rising Velocity (m/hr)

0.6 1.4 0.6 1.5 0.6 1.4

Sand Filteration

Back Wash Water (m3)

376 752 - 342 -

Disinfection Chlorine (kg/day)

25 59 51 121 22 52

Sludge Treatme

nt

Thickening (Kg/day)

1004

1340

2,012

2717

904 1205

Dewatering on bed 36 - - 74 33 -

Total Dry Sludge (Kg/day)

637 1,291

573

The necessary ancillary works as internal roads, fence, drainage, telemetry, lighting etc

Table 2.5 describes the proposed treatment process, with particular emphasis on the activities on waste/sludge generation. The table indicates the daily water intake and sludge production for each of the three (3) LGAs of project influence. Water intake for the facility is approximated by the daily water production quantity. Similarly, quantities of reagents used for water treatment which generate waste are also given.

As seen table 2.5, when the proposed treatment plants are fully operational in 2035, Obubra LGA would generate the highest amount Earthguards Limited: Sustainable Development Consultants

39


of sludge (1,291kg per day), then Abi LGA , with (637kg per day) and finally Yala LGA (573 kg / day).

Table 2.5: Estimation of total Sludge generated during the project period


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3 BASELINE INFORMATION

This chapter gives an overview of the total project area of intervention and a visual imagery of the three (3) project sites in Cross River State. This imagery shows the various communities to be impacted by the project and various infrastructures of the proposed water scheme.

3.1 General overview Nigeria is situated in West Africa and bordered to the north by Niger republic; north east by Chad; west by Benin; east by Cameroon and south by the Atlantic Ocean. The land mass of Nigeria is 923,768 sq km, and lies between latitudes 40 00’ N and 140 00’ N, and longitudes 20 50’ E and 140 45’ E.

Cross River state is a coastal in nature and located in the South Eastern Nigeria. This state was created in May 1967 from the former Eastern Region. It occupies 20,156m2 and shares boundaries with Benue state to the north, Enugu and Abia states to the west, Cameroon Republic to the east and Akwa-Ibom state and the Atlantic Ocean to the south.Abi LGA

This project area comprises of Itigidi town and 12 communities (Table 2.1). Itigidi town serves as the headquarters of Abi L.G.A of Cross Rivers State. Itigidi town is located between latitude 050 53.083'N and longitude 80 8.25'E. The town is situated at upper course bank of the Cross River. Abi L.G.A had a population of 78,117 people (NPC, 2006). It has a clustered settlements pattern with scattering adjourning villages. The town accommodates a water pump station and treatment plant for the CRSWBL along the Old Park area and a reservoir along Hospital road.

Access to Itigidi town is through the Ugep-Ediba-Itigidi road that branches off the Calabar-Ikom highway at Ugep. Until recently, this road stopped at Ediba town, and Itigidi town could only be reached by ferry or speed boat: however the recently-commissioned bridge across the Cross River has made it possible to access Itigidi town by road.

Obubra LGA

Obubra town is about 175km north of Calabar with access through the Calabar – Ikom road from Apiapum. Obubra LGA has a population of 102, 294 people (NPC, 2006). Obubra Town, the headquarters of the Obubra L.G.A, is located about 175km North of Calabar, the State capital. Access to Obubra is through a branch off from the main Calabar-Ikom highway, at Apiapum.


41


Obubra people are predominantly farmers and produce food crops such as garri, yam, groundnut and maize.

Obubra can be classified as a semi-urban town and has a linear settlement pattern; with houses aligning along the main road. Obubra town has a record of being previously connected to the water board mains.


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Yala LGA

The project area in Yala LGA comprises of Okpoma town (LGA headquarters) and 11 other communities (see table 2.1). Okpoma town is situated along the major road from Ogoja to Abakaliki (capital of Eboinyi state), with a long stretch out of linear settlement along the road.

Yala Local Government Area is carved out of Ogoja province and is situated approximately 300km North of Calabar and 20km from Ogoja. It has a population of 79, 400 people.

Yala people are predominantly farmers and a little of small scale salt mining. It has many salt ponds which are of historic importance to the Yala people. The surrounding villages include Olachor, Itega, Okpodu, Alachor, Woleche etc.

Figure 3.1: Map of Nigeria showing the vegetation of Cross River State


43


3.2 Physical Environment

GeologyThe Coastal Plain of Cross River state is generally characterized by sandstones with lenses of clay and gravel. The major aquifers are mainly sandstone.

Cross River state is blessed with abundant surface water (natural lakes, artificial reservoirs ponds, small perennial streams, springs and rivers) and ground water. The vast majority of the rural people obtain water for domestic use from the rivers, streams and wells. Ground water resources may vary depending on the location. On the coastal plain, in Akpabuyo, Calabar Municipality and part of Odukpani, there are excellent aquifers.

Calabar and other major towns of Ogoja, Obudu, Ikom and Obubra are served by piped borne water from rivers and boreholes manned by the CRSWBL. Apparently, Cross River State occupies the catchments of River Cross which crosses down the Cameroon Mountain, across the flat-lying Cross River Basin, into vast estuary located along the Southern Nigeria- Cameroon boarder.

ClimateThe state is situated in the tropical rain forest belt, characterized by monsoon rains, with dry periods in the part and a periodically dry savannah climate in the northern part. The mean annual rainfall in Cross River is 3,300 mm, of which about 70% occur during the months of June to October.

The mean daily maximum and minimum temperature varies between 21.oC to 32oC in January and 25.05oC and 27.4oC in July and August respectively; the relative humidity ranges between a maximum of 98% throughout the year and a minimum of 60% in February; the average monthly evaporation ranges between 4.3 mm/day in February and 2.3 mm/day in July.

VegetationThe vegetation of Cross River State is made up of tropical forest and the mosaic forest vegetation for most part of the southern areas which also extends to Itigidi, Obubra and Okpoma, while Ogoja has a combination of savannah and forest vegetations.


44


AgricultureThe state has one of the most richly endowed agricultural lands in Nigeria. Natural rubber, pineapple and palm oil are already established plantation products and the main raw materials export in the state. Cocoa, soya beans, food crops such as cassava, yam, rice, plantain, banana and maize are produced in abundant quantities.

Transport Cross River State enjoys excellent road network with the rest of Nigeria. It has a direct road link with the middle belt and the north-eastern part of the country. Its location on the south-eastern extremity of the country, almost entirely isolated by rivers, warrants the maintenance of good road networks.

The two major road transportation arteries are the east-west Ikang-Calabar-Itu road and the north-south Calabar-Ikom-Yola road which are both currently in a state of disrepair. Cross river towns have good intra-city transportation, in addition to a good system of inter-city and inter-local government transportation. Sometimes canoes, tree trunks and ropes are the only means used by the local people to cross large rivers in remote settlement.

On the coastal plain, in Akpabuyo, Calabar Municipality and part of Odukpani, there are excellent aquifers. Calabar and the other towns of Ogoja, Obudu, Ikom and Obubra are served by piped water from rivers and boreholes manned by the Cross River State Water Board Limited.

Population Structure and DistributionCross River State has a total population of 2,888,966 people with 1,492,565 Males and 1,396,501 Females spread across the 18 LGAs of the state.


45


Table 3.1: Population distribution of Cross River State

S


S/n Local Government Area Population Male Female

1 Yala 210,843 107,310 103,533

2 Bakwara 105822 54585 512373 Ogoja 171901 89805 82096

4 Obanliku 110,324 53,710 56,614

5 Obudu 160106 83479 76,627

6 Boki 186141 97926 882157 Etung 80196 42636 37560

8 Ikom 162,383 83,009 79,374

9 Obubra 172444 89375 83069

10 Yakurr 196450 100399 9605111 Abi 144802 73976 70926

12 Biase 169183 89737 79446

13 Akamkpa 151125 79443 7168214 Odukpani 192444 103526 8891815 Calabar South 191630 95399 9623116 Calabar Municipal 179392 91208 88184

17 Akpabuyo 271395 140329 131066

18 Bakassi 32385 16713 15672

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Source: National population Census, 2006

Economy The Cross River State economy is predominantly agricultural based and is sub-divided into two sectors:

The public sector: run by the Cross River State Government and features large plantations and demonstration farms.

The private sector: dominated by local subsistence farmers

The main crops are cassava, rice, plantain, banana, yam maize and palm produce.. Major livestock in the state are goats and sheep while organized cattle ranching takes place at the Obanliku at the Obudu Cattle Ranch.

TourismThe outstanding tourist events and places in Cross River include:

the soaring plateaus of the mountain tops of Obudu; the rainforest of Afi, from the Waterfalls of Agbokim; the spiraling ox-bow Calabar River; the Tinapa Business Resort; Calabar Marina; the Ikom Monoliths; the Mary Slessor tomb; the Calabar drill Monkey Sanctuary, and the Kwa and Agbokim Waterfalls.

Environmental Issues in Cross River StateAs in most part of Southern Nigeria, the major environmental problems are soil degradation, urban air and water pollution, and rapid urbanization.

3.3 Baseline Data Analysis

In order to prepare the Environmental Social Impact Assessment of this project, baseline data of the project areas was collected. This was with a view to determining the ambient environmental and social conditions of the project communities. This serves the following purposes: Necessary for identifying critical environmental aspects that may

impair project sustainability Helps to measure/evaluate/compare the performance of the project

during project operation stage. It helps to determine the suitable mitigation measures that will be

applied to the environmental impacts of the project.


47


Therefore, the following baseline data aspects were collected: Air quality Physiochemical quality of surface and underground water Noise level Climatic data Socio-economic data Vegetation and endangered species.


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3.3.1 Analysis of Surface and Underground Water Samples.

Table 3.2: Obubra LGA Project Area: Water Quality ResultParameters

FEPA /WHOPermissible

limit for boreholes

FEPA/WHO

Permissible limit

for streams

Ofodua watersi

de

Obubra mainto

wn boreho

le

Owakande

obubra tream

Adun Beach

bore hole

Ogada obubra stream

Ofodua obubra boreho

le

Temperature

< 40 < 40 28.2 30.5 29.2 30.8 28.4 28.2

PH 6.5-8.5 6.0-9.0 6 6.5 5.5 6 5.5 6

Colour 15 TCU NA CLEAR CLEAR NA CLEAR NA CLEAR

Odour (NT)

ABSENT NA Absent Absent NA Absent NA Absent

Conductivity

50-125 50-125 511 122 58.2 745 35.8 511

Salanity %

0 0.1 0.2 0.4 0 0.4 0 0.2

Filtreable solid

30 30 0.0079 0.0067 0.0114 0.0069 0.0078 0.0079

Dissolved oxygen

7.5 6.8 3.6 4.5 4.3 2.1 5.3 3.6

Total dissolved solid

1 2000 244 58 27 358 17 244

Sulphate 500 500 0.015 400 51 0.022 14 0.015

Chloride 250 600 0.001 0.255 3.24 0.017 8.65 0.001

Nitrate 10 20 3.11 5.8 8.95 4.6 13.58 3.11

Total Hardness

200 200 64.2 65.8 60 40.15 17.12 64.2

Phosphate

< 1.0 5 0.019 0 0 0.012 0.1 0.019

Phosphorus

0.1 1 0.006 0 0 0.009 0.03 0.006

Aluminum

0.2 0 0.001 0.012 0.041 0.029 0 0.001

Mn 0.05 0.05 0.06 0.044 0.013 0.033 0.036 0.06

Pb 0.01 0.003 0.027 0.049 0.051 0.004 0.003

Source: Fieldwork 2009

Temperature: Temperatures were generally permissible across the sampled stations in Obubra LGA.

pH: The water samples were generally slightly acidic and not permissible for drinking :

Colour: The result shows that the sampled waters were clear.

Conductivity: All the stations except Ababene stream had permissible values for conductivity.

Salinity: Samples from Ababane stream, Obubra maintown borehole, Adun beach borehole and Ofodua borehole were above the permissible limit, while those within permissible limit are Ofodua water side borehole, Owakande stream and Ogada stream.Earthguards Limited: Sustainable Development Consultants

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Dissolved oxygen (DO): All the samples from this area were not permissible.

Chemical Oxygen Demand (COD): All the samples, except Adun-beach borehole were permissible.

Hardness: All the sampled water bodies in this area are permissible in terms of hardness.

Phosphate: All the sampled water bodies in this area are permissible in terms of phosphate content.

Ammonia: Ammonium was not detected in the samples.

Metals: All the heavy metals were within the permissible limits across the sampled locations, except cadmium, which values were not permissible in Adun-Beach borehole.

Coliforms: Salmonella was present in the water samples from Ababene stream, Adun-Beach borehole and Ofodua borehole, bur absent in the rest of the samples. Shigella sp was absent in all the samples, while E.Coli was absent in all but Ofodua stream.

Table 3.3. Abi LGA Project Area: Water Quality ResultParameters

FEPA /WHO

Permissible

limit for borehol

es

FEPA /WHO

Permissible limit for

streams

Ekureku

Bore hole

Adadama

Bore hole

Ebgoronyi

Ekureku Bore hole

Egboronyi

Ekureku pond

Imina

Spring

water

Abi Boreh

ole

Itigidi

Plant treat

ed wate

r

Ababene

Obubra

stream

Temperature

< 40 < 40 36 29.1 23 29 28.8 28.7 28.6 31

PH 6.5-8.5 6.0-9.0 6.5 5.5 5.5 4.5 4.5 5.5 5 7.5Colour 15 TCU NA CLEA

RCLEAR NA NA CLEA

RCLEA

RCLEA

RNA

Odour (NT)

ABSENT NA Absent Absent NA NA Absent

Absent Absent

NA

Conductivity

50-125 50-125 510 826 30 10 9.3 530 48.9 500

Salinity %

0 0.1 0.2 0.4 CLEAR 0 0 0.3 0 0.4

Filterable solid

30 30 0.007 0.0197 0.035 0.0335 0.0023

0.0089 0.0091

0.0243

Dissolved oxygen

7.5 6.8 3.6 3.6 4.5 4.2 5.3 4.5 6.7 4


1 2000 244 397 4 5 4 253 23 383

Sulphate 500 500 0.015 0.005 0.052 0.056 0.004 0.003 0.007 47Chloride 250 600 0.001 0 0.041 0.043 0.001 0.008 0.009 11.42Nitrate 10 20 3.1 5.11 5.15 8.19 0.058 2.98 3.05 10.52Total Hardness

200 200 64.2 34.24 15 20.45 17.12 56.36 36.12 56.36

Phosphate

< 1.0 5 0.01 0.008 0.029 0.023 0.042 0.05 0.034 0.017

Phosphorus

0.1 1 0.006 0.003 0.018 0 0.014 0.02 0.014 0.006


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Aluminum

0.2 0 0.001 0 0.032 0.031 0 0.001 0.004 0

Mn 0.05 0.05 0.06 0.012 0 0 0.02 0.057 0.048 0.044Pb 0.01 0.003 0.004 0.01 0.005 0.003 0.016 0.026 0.03


Temperature: Temperature was generally permissible across the sampled stations.

pH: pH were acidic for Adadama borehole, Egboronyi borehole, Egboronyi pond, Imina stream, Abi borehole and Ekureku borehole are normal/permissible for Itigidi treatment plant water.

Colour: The result shows that the sampled waters were clear.

Conductivity: Samples from Egboronyi, Imina and Itigidi Water Treatment plant are not permissible. Those permissible include: Ekureku borehole, Adadama borehole and Egboronyi borehole

Salinity: Samples from Ekureku borehole and Adadama borehole are above the permissible limits. Those within permissible limit include: Egboronyi pond, Imina stream and Itigidi treated water plant

Dissolved oxygen (DO): The DO values were high, hence permissible for aquatic life for samples from Imina spring and Itigidi treatment plant. All other samples were low, and not permissible.

Chemical Oxygen Demand (COD): All the samples, except Abi borehole and Itigidi treatment were within permissible limits.

Hardness: All the sampled water bodies in this area are permissible in terms of hardness.

Phosphate: All the sampled water bodies in this area are permissible in terms of phosphate content.

Ammonia: Ammonium was generally permissible for all the samples.

Metals: All the heavy metals were permissible across the sampled locations.

Coliforms: Salmonella sp. was present in the water sample from Egboronyi pond and absent in all other samples. Shigella sp. was absent across the samples, while E.Coli sp was only present in Adadama borehole water.


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Table 3.4 Yala LGA Project Area: Water Quality ResultParamet

esFEPA /WHO

Permissible limit

for borehole

s

FEPA/WHO

Permissibe

limit for streams

Idigbo Boreh

ole

Itetapond

Ipuole

stream

Iyamoyong

Itega stream

Ochohi

stream

Ochochi

borehole

Enimiri

stream

Temperature

< 40 < 40 28.7 28.5

28.2 27.5 28.7 20.5 28.1

PH 6.5-8.5 6.0-9.0 5.5 4 7.5 4.5 5.5 6 5Colour 15 TCU NA CLEAR NA NA NA NA CLEA

RNA

Odour (NT)

ABSENT NA Absent NA NA NA NA Absent

NA

Conductivity

50-125 50-125 1104 21.2

797 21.5 38 33 38.4

Salanity %

0 0.1 0.5 0 0.4 0.003 0.0022

0.45 0

Filtreable solid

30 30 0.0096 0.0248

0.0248 0.108 0.0022

0.006 0.0096

Dissolved oxygen

7.5 6.8 4 4.1 4 4.1 5.1 2.7 5


1 2000 535 10 383 100 17 58 18

Sulphate 500 500 0 0.036

47 0.75 65 0.025 49

Chloride 250 600 0.001 0.034

11.42 0.45 5 0.517 5.003

Nitrate 10 20 3.2 12.16

10.52 14.21 10 4 10.22

Total Hardness

200 200 40.2 40 56.36 50 4.5 140.11

40

Phosphate < 1.0 5 0 0.01

0.017 0.03 1.05 0.015 0.45

Phosphorus

0.1 1 0 0.003

0.006 0.01 0.15 0.01 0.15

Aluminum 0.2 0 0.015 0.029

0 0.2 0.04 0.02 0.041

Mn 0.05 0.05 0.032 0.025

0.044 0.025 0.003 0.035 0.033

pb 0.01 0.029 0.01

0.03 0.002 0.175 0.055 0.174


Temperature: The Temperature was relatively lower which is attributed to the wet and rainy season. The minimum and maximum temperature of 20.5 0 C and 36 0 C across the project areas are normal for tropical waters and falls within WHO permissible limits of 40 0C.

pH: The pH values along sampling stations in Idigbo borehole, Itega pond, Ochochi stream and Enimiri River are below WHO/FMEnv permissible limit of 6-9. These water samples are acidic while the water samples from Ipuole stream and Ochochi borehole are within permissible limit for drinking water. Earthguards Limited: Sustainable Development Consultants

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Colour: Colour of water from the boreholes in this area are generally clear (less than 16 TCU^ WHO/Canadian permissible limit) while those from streams and river are not clear. This can be attributed to the human activities around the water bodies.

Conductivity: The permissible limit for conductivity by FMEnv/WHO is 50 -125. Values recorded from the field in Yala showed high values for Idigbo borehole sample while the rest of the sampling stations where within permissible limits.

Salinity: Idigbo borehole is slightly above limit (not permissible). Similarly, samples from Ipuole stream and Ochochi borehole are above permissible limit. However, those within permissible limit are Itega pond, Itega stream, Ochochi stream and Enimiri River. This explains why the villagers have abandoned the use of water from those boreholes.

Dissolved oxygen (DO): The maximum limit for DO (WHO/FMEnv) is 7.5. Samples from Ochochi stream and Enimiri River are permissible, while the rest of the sample water bodies fall below permissible limit, hence not permissible.

Chemical Oxygen Demand (COD): WHO maximum permissible limit for COD in fresh/surface water is 250. COD is not permissible for Idigbo borehole and Ochochi borehole, while the rest of the sampling points are permissible for drinking.

Hardness: Permissible limit for Total Hardness is 75-150mg/L. All the sampled water bodies in this area are permissible in terms of hardness.

Phosphate: All the sampled water bodies in this area are permissible in terms of phosphate content..

Ammonia: Ammonium is generally within permissible limit across sampled water bodies in Yala LGA, but absent in Itega stream.

Metals: All the heavy metals were permissible across the sampled locations, except cadmium, which values were not permissible in Idigbo borehole and Enimiri River.

Coliforms: Under this compound are Salmonella sp, Shigelle sp and E.Coli. These bacteria are not permissible in domestic used water.

All the 3 bacteria species are absent in Idigbo borehole sample, Enimiri River, and Ipuole stream. Salmonella sp. was present in Itega pond, Itega stream, Ochochi stream and Ochochi borehole. Shigella sp was confirmed present in Itega stream.


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The outcome of the water analysis in the three project areas indicate that the water sources being depended at present for drinking are harmful. The results are summarized as follows:

For Okpoma project area, the waters are characterized by low inorganic/organic dissolved substances, considering chemical oxygen demand, dissolved oxygen, salinity acidity and presence of microbial coli forms,

Itigidi project area shows significant presence of microbial flora and acidity; as well as high concentrations in conductivity, salinity and dissolved oxygen,

Obubra project area shows significant presence of microbial flora and acidity; as well as high concentrations in salinity and dissolved oxygen.

As a conclusion of water analysis, a required treatment plant would be composed of the steps listed in section 2.5.


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Analysis of Soil Samples

Table 3.5: Yala LGA Project Area: Physio-Chemical Quality of SoilParameters FEPA

permissible limit

Soil from Ochochi borehole

Soil from Ochochi Okpoma stream

Soil from Enimiri river

Soil from Olugbuni Iega

Soil from Ipuole-Utukpo

Soil from Oregrigri-Idigbo

Temperatue (0C)

≤ 40 34.5 27.2 34.2 32 35.4 34.4

PH 6.0-9.0 4.5 6 4 10 5.5 10Salanity (%)

0.1 0 0.1 0 0 0 0

Conductiviy (μS/cm)

50-125 12.9 2.7 2.7 13 19 3

TDS 500-3500 6 1 1 5 9 1Organic Matter

5.21 5.6 5.6 5.5 10.12 9.3

Colour (Munsell)

dark reddish brown

Brown (4/4) Brown (4/4) Dark red (3/6) Reddish Brown (2.5/1)

Reddish Brown (4/4)

(3/3) Hue 7.5 YR

Hue 7.5 YR Hue 7.5 YR Hue 10 YR Hue 10 YR Hue 5YR

Sulphate 500 0.21 0.18 0.18 131 107.1 0.19Phosphate 5 5.2 4.9 4.9 8.3 6.8 0.06Phosphorus 1 1.73 1.55 1.56 2.8 2.26 0.02Chloride 200 3.46 2.62 2.62 12 10.4 2.95Nitrate 54 39.2 29.9 29.2 114 106.5 33.4Nitrite 1 0.24 0.21 0.21 0.6 0.52 0.21Calcium 1.96 2.36 2.36 4.2 1.01 3.3Magnesium 5 0.49 0.55 0.59 1.4 0.25 0.83Manganese 5 1.06 0.75 0.85 2.7 2.56 0.91Ammonia 0.079 0.02 0.07 0.1 0.1 0.07Aluminum 0.2 0.029 0.02 0.02 0.1 0.1 0.02Cadmium 0.01 0.329 0.13 0.13 1.9 1.74 0.2Potassium 5.2 4.4 4.4 12 9.9 0.45Silver < 0.1 0.53 0.45 0.45 1.2 0.97 0.45Lead < 0.1 1.16 0.93 0.93 2.5 2.27 1.02Iron 3 0.33 0.3 0.3 0.7 0.57 0.3Copper 0.05 0.42 0.39 0.39 1 0.74 0.33Zinc < 0.1 0.123 0.02 0.08 0.4 0.42 0.09Sulphide 0.2 0.2 0.2 0.18 0.4 0.34 0.17

Source: Field Work 2009

3.3.2 Soil Sample Analysis

Yala LGA Project Areas

Temperature: The ambient temperature in this area is within the permissible limit for a tropical environment.Hydrogen ion Concentration (pH): The result shows varying pH values, and can be attributed to certain human uses and chemical applications on the soils. The FEPA permissible limit is 6-9.


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Only the sample from Ochochi stream area fall within the permissible limit. Acidic soils included those of Ochochi borehole area, Enimiri River farm site and Ipuole site. The soils that have concentrations of alkalinity are from Olugbuni-Itega and Oregrigri-Idigbo village.

Phosphate: This is one of the major components of fertilizer and exceeds permissible limit of 1 for soils from Ochochi, Itega and Ipuole in Yala project areas.

Phosphorous: Soils from Ochochi borehole site, Ochochi stream site, Enimiri, Olugbuni-Itega stream site and Ipuole stream sites where above the permissible limit.

Sulphate: All the tested soil samples fall within permissible limit.

Nitrate: Higher nitrate concentration (above standard limit) was recorded for the samples Olugbuni-Itega and Ipuole. All other samples in Yala project area were within standard limit for nitrate.

Potassium: Highest potassium value of 11.7 was recorded from Olugbuni-Itega, and the lowest value of 4.4 was recorded for samples from Ochochi and Enimiri River sites. There was no limit available for this parameter from WHO/FMEnv.

Cadmium: Cadmium is a harmful metal, and FEPA sets the limit at 0.01. The entire soil samples except Ochochi borehole site and Ochochi stream site were within permissible limit.

Lead: The standard limit for this metal in soil is <0.1. However, all the soil samples exceeded the limit.

Copper: Copper content were high in all the sample sites.


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Table 3.6: Obubra Project Area: Soil Quality Result

Parameters FEPA permissi-ble limit

Obubra main town

Soil from Egboronyi Ekureku 2

Soil from Adun beach borehole

Soil from stream Ogada

Soil from Owakande

Soil from a farm near Ababane stream

Soil from Ofodua borehole

Soil from Iyamoyong

Temperature (0C) ≤ 40 34.4 34 34.9 32 35 31.4 35 30

PH 6.0-9.0 6 10 4 6.5 5.5 6.5 4 7.5

Salanity ( %) 0.1 0 0 2.8 0 0 0 0 0

Conductivity (μS/cm)

50-125 56.9 8 0 56 8.7 42 2.8 8.7

TDS 500-3500 27 4 1 104 4 12 1 54

Organic Matter 4.62 7.3 3.27 0 8.4 4 3.2 3.4

Colour (Munsell) Block (2.5/1)

Very dark grey (3/1)

Dark yellow Brown

Black (2.5/1)

Dark brown (3/4)

Reddish Brown (2.5/1)

Dark yellow brown

Dark Brown (3/4)

Hue 5 YR Hue 5 YR 93/6) Hue 10YR

Hue 5 YR Hue 7.5 YR Hue 10YR 993/6 )Hue 10 YR

Hue 7.5 YR

Sulphate 500 0.21 0.1 0.98 0.2 1.5 12.1 6 1.5

Phosphate 5 5.1 0 20.7 5.1 33 5.8 2.8 32.8

Phosphorus 1 1.7 0 6.9 1.7 11 2.2 2.9 1.75

Chloride 200 3.36 0.1 31 1.1 2.2 0.4 30 2.18

Nitrate 54 37.1 0.1 1.59 18 2.7 16.5 2.5 2.65

Nitrite 1 0.25 0.1 1.25 1.5 2 0.59 1 1.95

Calcium 1.22 2.4 1.68 0.8 1.6 1.05 1.7 0.83

Magnesium 5 0.31 0.6 0.42 0.3 0.4 0.85 0.4 2.4

Manganese 5 1.06 0.4 1.38 1 2.2 2.06 1.4 2.19

Ammonia 0.08 0.1 0.39 0.1 0.7 0.01 0.4 0.66

Aluminum 0.2 0.03 0 0.36 0.4 1.2 0.1 0.4 1.2

Cadmium 0.01 0.31 0.1 1.38 0 2.2 1.73 1.4 2.19

Potassium 5.4 1.7 25.4 0 46 9 0.4 5.5

Lead < 0.1 1.1 3 1.09 0.5 1.7 0.23 1.1 1.6

Lead < 0.1 1.1 3 1.09 0.5 1.7 0.23 1.1 1.6

Iron 3 0.33 1.3 1.28 0.6 1.9 0.5 1.3 1.85

Copper 0.05 0.45 2.3 2.16 0.4 3.2 0.74 1.8 3.15

Zinc < 0.1 0.12 1.3 0.97 0.1 1.5 0.22 1 1.9

Sulphide 0.2 0.21 0.1 1.07 0.2 2 0.07 0.1 0.86


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Obubra LGA Project Areas

Temperature: The ambient temperature in this area is within the permissible limit for a tropical environment.

Hydrogen ion Concentration (pH): The result shows varying pH values, and can be attributed to certain human uses and chemical applications on the soils. The FEPA permissible limit is 6-9.

The samples from Obubra main town area, Ogada stream site, Farm land near Ababene stream and Iyamoyong site fall within the permissible limit. Acidic soils included those of Adun Beach Borehole site, Owakande site and Ofodua borehole site. The soils that have concentrations of alkalinity are from a farm land in Egboronyi- Ekureku and Adadama stream site.

Phosphate: This is one of the major components of fertilizer and exceeds permissible limit of 1 for the soil sample from a farm near Ababane stream. Samples from Obubra main town and Ogaga stream sites were slightly above the standard limit.

Phosphorous: Soils from Obubra main town, Adun Beach site, Ogada farm site, Owakande Borehole site, Ababane stream site, Ofodua borehole site and Iyamoyong junction farm site are above standard limit.


Nitrate: All the tested soil samples fall within permissible limit.

Potassium: Highest potassium value of 45 was recorded from Owakande farm site while the lowest value of 0.002 was recorded from Ogada stream site.

Cadmium: All the soil samples except Ogada stream site were above standard limit for cadmium.

Lead: The standard limit for this metal in soil is <0.1. However, all the soil samples exceeded the limit.

Copper: Copper content were high in all the sample sites.


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Table 3.7: Abi Project Area: Soil Quality Result


Parameters

FEPA permis

si-ble limit

ITIGIDISoil from

Adadama Eteni spring

Soil from Akarafor

Soil from treatment

plant

Soil from

Egboronye

Soil from Imina hill

top

Temperature (0C)

≤ 40

PH 6.0-9.0 34 34.3 34 34 28.9Salanity ( %)

0.1 10 4.5 5.5 6 7.8

Conductivity (μS/cm)

50-125 0 0 0 0 0.01

TDS 500-3500

6.8 12.9 7.5 8 18.6

Organic Matter

3 6 3 3 60

Colour (Munsell)

23 5.21 1.1 1 23Yellowish Brown

(5/6)Dark

Reddish BROWN

Black (2.5/1) Black (2.5/1)

Dark reddish brown

Sulphate 500 Hue 10 YR (3/3) Hue 7.5YR

Hue 7.5 YR Hue 7.5 YR

(3/3) Hue 7.5 YR

Phosphate

5 0.9 0.21 79 79 200

Phosphorus

1 17 5.2 6.8 7 5.5

Chloride 200 5.7 1.73 2.3 2 3.4Nitrate 54 27 3.46 6.4 6 6.2Nitrite 1 1.6 39.2 69 69 40.1Calcium 1.1 0.24 0.4 0 0.54Magnesium

5 1.2 1.96 1.8 2 1

Manganese

5 0.1 0.49 0.5 0 0.78

Ammonia 4.9 1.06 1.8 2 2Aluminum

0.2 0.4 0.08 0.1 0 0.28

Cadmium 0.01 0.3 0.03 0 0 0.07Potassium

1.2 0.33 1 1 0.01

Silver < 0.1 23 5.2 8.3 8 2.2Lead < 0.1 0.2 0.53 0.8 1 0.12Iron 3 4.7 1.16 1.8 2 0Copper 0.05 1.2 0.33 0.5 0 0.12Zinc < 0.1 2 0.42 0.7 1 0.01Sulphide 0.2 0.9 0.12 0.3 1 0

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Abi LGA Project Areas

Temperature: The ambient temperature in this area is within the permissible limit for a tropical environment.

Hydrogen ion Concentration (pH): Only the sample from Imina hill top fall within the permissible limit. Acidic soils included those of Akarafor borehole site, Itigidi treatment plant area and Egboronye site. Only the soil from Adadama spring area was biased towards alkalinity.

Phosphate: This is one of the major components of fertilizer and exceeds permissible limit of 1 for the soil sample from a farm near Ababane stream. Samples from Obubra main town and Ogaga stream sites were slightly above the standard limit.

Phosphorous: Soils from Obubra main town, Adun Beach site, Ogada farm site, Owakande Borehole site, Ababane stream site, Ofodua borehole site and Iyamoyong junction farm site are above standard limit.


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Nitrate: All the tested soil samples fall within permissible limit.

Potassium: Highest potassium value of .3 was recorded from Itigidi treatment plant and Egboronye site samples, and the lowest limit (2.2) came from Imina hill top sample.

Cadmium: All the soils samples except that from Imina hilltop were above standard limit for cadmium.

Lead: The standard limit for this metal in soil is <0.1. However, all the soil samples except that of Imina hilltop (Adadama Community) exceeded the limit.

Copper: The concentration of copper was permissible for Imina hill soil sample and high in all other samples.

The fact that that many parameters were within standard limit in Imina hilltop site (Adadama community) relative to other sites of soil collection, may be attributed to low human activities within the area due to its altitude.


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3.3.3 Air Quality/Meteorological and Noise Measurement

General BackgroundThis is the report of air quality/Meteorological and Noise measurement for ESIA for CRSWBL proposed water project covering Yala, Obubra and Abi LGAs.

This exercise was conducted between September 29th to October 1st 2009 in accordance with FMEnv requirements using scientific and standard methods following regulatory requirements. A detail assessment is shown in Table 3.9

Regional Climatic / Meteorological CharacteristicsThe overview of climatic/meteorological features (rainfall, air temperature, relative humidity, wind direction/speed and sunshine) of the study area presented herein is based primarily on information from literature research and field study.

Climatic ConditionThe weather and climate of the entire Niger Delta area is closely tied to the general mesoscale trend in Nigeria. It follows that the weather regime experienced at any given location in Nigeria during the year is determined primarily by geographical location in relation to the fluctuating position of the Inter Tropical Convergence Zone (ITCZ) (Ayoade, 1983). In this regard the predominant weather regime in the study area is warm and humid.

The project area is within the humid tropical zone with defined dry (December – March) and wet (April – November) seasons. The wet season is brought about by the South – West (SW) trade wind blowing across the Atlantic Ocean. The dry, dusty and often cold North – East (NE) trade wind blowing across the Sahara desert dominates the dry season and brings a short spell of harmattan. Data on the climatic characteristics (rainfall, air temperature and relative humidity) of the area, collected over a 15 year period (1990 – 2005) from the Nigerian Meteorological Agency (NIMET) synoptic centre Calabar is presented below.

Relative HumidityThe mean monthly relative humidity of the study area is generally high and range between 71% and 88% (Figure 3.2) with a mean of 87.6%. Higher humidity values are recorded in July / August corresponding to the peak of the rainy season while lower values occur from December through February. The generally high mean relative humidity recorded within the study area could be attributed to the: nearness of the area to the coast; occurrence of cloud cover; influence of the moisture laden tropical maritime air mass; and influence of the south-west trade winds which dominate the area.


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0102030405060708090

Rel

ativ

e H

umid

ity (%

)

Jan. Feb. Mar. Apr. May Jun. Jul Aug. Sep. Oct. Nov. Dec.

Month

Relative Humidity (%)

Figure 3.2: Mean Monthly Relative Humidity in the Study AreaTemperatureThe mean monthly temperature recorded across the study area for a period of 15 years was between 28.50C and 33.30C. Daily air temperature does not vary significantly throughout the Niger Delta region and is moderately high all through the year. The highest values are usually recorded at the onset of the rainy season (late February and March) Figure 3.3.

26

27

28

29

30

31

32

33

34

Jan. Feb. Mar. Apr. May Jun. Jul Aug. Sep. Oct. Nov. Dec.

Month

Tem

pera

ture

(0 C)

Temperature (0C)

Figure 3.3: Mean Monthly Temperature Variations within the Study AreaRainy season commences in the study area around March and extends to November with July/August as the peak months, while the dry season occurs between December and February, reaching its peak in January when the harmattan wind sweeps across the entire area. More than 80% of the total annual rainfall is received between the months of May and October. A short dry period (August break) occurs between the last week of July and early August. The mean monthly rainfall over a 15 year period (1991–2005) ranged between 9.9mm in December and 377.9mm in July as shown in Figure 3.4. The total annual rainfall of the study area is in excess of 2,800mm.


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0 50 100 150 200 250 300 350 400

Mean Monthly Rainfall (mm)

Jan.

Feb.

Mar.

Apr.

May

Jun.

Jul

Aug.

Sep.

Oct.

Nov.

Dec.

Mon

th

Figure 3.4: Mean Monthly Rainfall in the Study Area

WindsThe predominant wind direction in the area is south-west (SW) (210o - 240o) and this prevails for 8 months. Generally, wind speeds are between 1.5m/s and 2.0m/s and rarely exceed 2.5m/s. Wind speeds were observed to be lower at nights compared to values recorded during daytime hours. The highest wind speeds in the project area are recorded at the beginning of the rainy season - late March to early April.

VisibilityThe weather in the project area on most days is cloudy owing to high relative humidity values recorded. Fogs are formed in the morning hours impairing visibility to less than 1000m. In June through September, being the most humid months, morning mist is usually prominent with visibility as low as 200m and remaining below 2000m for a number of days thus constituting a serious hazard to transportation. Generally, visibility, especially in the dry season is foggy in the early hours of the day and improves as the day progresses.

SunshineThe mean daily sunshine in the area is between 5 and 6 hours in the dry season and 3 to 5 hours in the wet season. The area experiences a mean annual sunshine of 1,406 hours, which represents 31% of maximum possible amount of sunshine in the environment. The lowest values of sunshine are recorded between July and September with about 2 hours of sunshine per day due to greater amount of cloudiness in the sky.


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Ambient Air Quality and Noise Level

Air QualityThe air quality assessment for the EBS of Cross River State Water Board (CRSWBL) proposed water project in Itigidi, Obubra and Okpoma is presented hereunder. The study areas are developed urban settlement with heavy transportation and industrial activities. Emissions from automobile and motor bike exhaust are the major sources of air pollution in the area.

Air quality measurement was carried out in ten stations (PT1 – PT10) within the study area and data presented in Table 3.8. The FMENV limits for air emissions have been included for reference purpose.

Table 3.8: Meteorological Measurement for CRSWBL proposed water Project in Sept/Oct 2009

Sampling points Ambient Temp.

oC

Rel. Humidity

%

Wind Directio

n

Wind Speed

m/s

Atmospheric Pressure(Pa)

ITIGIDI(Old Treatment Plant)

32.10 67.70 SW 0.40 1014.00

ITIGIDI Market 32.50 67.50 SW 0.50 1014.00

ITIGIDI Market( Entrance)

31.80 68.2 SW 0.50 1014.00

Adadama Reservoir Site

30.80 69.2 SW 0.90 1014.00

Proposed Treatment Plant Site(Adun)

30.40 70.80 SW 0.40 1014.00

Adun Waterside(Village)

28.70 79.90 SW 0.60 1014.00

Apiapum Village 29.80 80.40 SW 0.50 1014.00

Old Reservoir(okpoma) 26.50 87.10 SW 2.50 1014.00

Ochochi Village(Okpoma)

30.00 64.90 SW 0.60 1014.00

Enimiri River (Idigbo) 29.60 68.90 SW 1.10 1014.00

Source: Field Survey, 2009


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Table 3.9: Ambient Air Quality and Noise Characteristics in the Study AreaParameters

Sample Station

Coordinates

SPM (

g/m3)

CO (ppm)

SOx (ppm)

NOx (ppm

)

H2S (ppm)

CxHx (%)

Noise Level (dBA)

Itigidi, Old Tm Plt 05053.083’

008001.356’

33.2 <0.1 <0.1 <0.1 <0.1 <0.1 79.9

Itigidi Mkt 05053.232’

008001.405’

11.7 <0.1 <0.1 <0.1 <0.1 <0.1 53.9

Pt3Itigidi Mkt Entrance

05053.317’

008001.342’

17.2 <0.1 <0.1 <0.1 <0.1 <0.1 55.9

Adadama Reservoir Site

05055.122’

008004.993’

11.2 <0.1 <0.1 <0.1 <0.1 <0.1 55.6

Proposed Treatment Site (Adun)

05059.822’

008015.357’

11.5 <0.1 <0.1 <0.1 <0.1 <0.1 60.9

Adun Wtrside.(Village)

05059.694’

008015.564’

10.3 <0.1 <0.1 <0.1 <0.1 <0.1 65.7

Apiapum Village 05059.796’

008016.826’

11.7 <0.1 <0.1 <0.1 <0.1 <0.1 74.7

Old Reservoir 06041.650’

008045.236’

36.2 <0.1 <0.1 <0.1 <0.1 <0.1 95.8

Ochochi Village 06037.393’008040.452’

11.2 <0.1 <0.1 <0.1 <0.1 <0.1 62.1

Enimiri River Idigbo 06039.533’

008035.802’

11.5 <0.1 <0.1 <0.1 <0.1 <0.1 57.0

FMENVGuideline Concentration

- 150 - 230

10 0.04 – 0.06

0.1 - - 90

Suspended Particulate MatterSuspended particulate matter (SPM) is finely divided particles which can originate naturally or be anthropogenic. It is present in ambient air in the form of dust, smoke and other aerosols. The most significant of these are less than 10µm in diameter and thus in the respirable size range (Canter and Hill 1977,


66


SIEP 1995). High concentrations of suspended particulate matter (SPM) are known to irritate the mucous membranes and may initiate a variety of respiratory diseases. Fine particulates may cause cancer and aggravate morbidity and mortality from respiratory dysfunctions (CCDI, 2001).

Also, it is known that dust coatings on leaf of plants reduces rate of photosynthesis and thereby reduces plants growth. It is also known that animals or humans that eat plants coated with SPM containing fluorides, arsenic, or lead may suffer some ill effects. SPM can also cause damage to materials by soiling clothing and textiles, corroding metals (at relative humidity above 75%), eroding building surfaces, and discoloring/destroying painted surfaces.

The SPM levels recorded within the project area ranged from 10.3µg/m3 to 36.2µg/m3. The low SPM recorded in the area might be attributed to the time of sampling, low dust hays is usually recorded during the wet season due to wash down. The recorded levels are well below the FMENV recommended limit and thus do not pose any significant health effect.

However, the proposed project implementation would result in dust generation and air emissions from the construction and operational phase of the water treatment plant. These may further lead to increases in SPM level of the areas.


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Carbon MonoxideCarbon monoxide (CO) is a colorless odorless and tasteless gas produced by the incomplete combustion of carbonaceous materials or fossil fuels – gas, oil, coal and wood. Adverse health effect has been observed with carbon monoxide concentrations of 12 – 17ppm for 8 hours while prolonged (45 minutes to 3 hours) exposure to concentrations of CO between 200ppm and 800ppm often results in severe headache, dizziness, nausea and convulsions. However, the levels of CO recorded in the sampled areas were below equipment detection limit (0.1ppm), indicating an area free from CO pollution.

Sulphur OxidesSulphur dioxide (SOx) is a colourless gas produced from biological decay and forest fire releases. It is also produced from the combustion of sulphur-containing fuels, smelting, manufacture of sulphuric acid, incineration of refuse and production of elemental sulphur. The gas is known to be a causative agent of acid rain, it is harsh irritant and also capable of aggravating asthma, bronchitis and emphysema. It can also cause coughing and promote impaired functions in the human system (CCDI, 2001). Also, sulphuric acid aerosols (formed from dissolved sulphur dioxide) will readily attack building materials, especially those containing carbonates such as marble, limestone, and mortar. Sulphuric acid mists can also damage cotton, linen, rayon and nylon fabrics as well as paper. Excess exposure to sulphur dioxide accelerate corrosion rates for many metals such as iron, steel, zinc, and copper, especially at relative humidity over 70% (Peavy, et al, 1985). The colourless gas was not detected by the air pollutant equipment (detection limit 0.1ppm) during the field sampling exercise.

Nitrogen oxidesNOx are reactive gases called nitrogen oxides or oxides of nitrogen, which are formed during combustion processes. NOx results when fuel is combusted at high temperatures and occurs mainly from motor exhaust and stationary sources such as electric utilities and industrial boilers (Canter and Hill 1977). Nitrogen oxide is the only oxide of nitrogen that has been shown to have significant human health effects. Exposure to concentrations higher than 0.5ppm (1mg/m3) can trigger changes in pulmonary function in healthy people.

At the time of survey, the NOx levels in the ambient air of the study area were below the equipment detection limit of 1.0ppm.

Hydrogen Sulphide Hydrogen sulphide (H2S) is a toxic, odorous and corrosive gas, which is rapidly oxidized to SO2 in the atmospheres. Its presence in the atmosphere could result from storage tank and process vents. Exposure to concentrations in excess of 500ppm can be fatal (SIEP, 1995). H2S non-detection by the instrument used suggests that no activity leading to significant emission of the gas was going on in the vicinity of the study area at the time of survey. H2S level was below the equipment detection limit at the time of sampling.

Hydrocarbons


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These include methane (CH4), ethane (C2H6), propane (C3H8) and other derivatives of aliphatic and aromatic organic compounds and are emitted from both man made and natural sources. Hydrocarbon vapour in the atmosphere arise from fugitive emissions, vents and incomplete combustion of fuels, particularly where fuel to air ratios are too high. Most members of this group are significantly toxic and exposure to high concentrations in the atmosphere (about 1000ppm or more) could result in interference with oxygen intake and acute leukemia.

Members of the hydrocarbon family were not detected by the instrument used, indicating that no activity leading to significant hydrocarbon emission was taking place in the vicinity of the study area at the time of this survey. The proposed project implementation will in no foreseeable way alter the ambient level of this gas in the area.

Noise LevelNoise is a periodic fluctuation of air pressure and noise pollution is defined as “unwanted sound”. The rate at which these fluctuations occur is the frequency, expressed in hertz (cycles per second). The range of sound pressures encountered is very large and to keep numbers in manageable proportions, noise levels are measured in decibels (dB) A, which have a logarithmic scale. In addition to causing a disturbance, excessive noise can damage health and have physiological effects.

Environmental noise concerns focus on local communities and wildlife. Effects on local residents generally relate to the annoyance / nuisance caused by both short-and long-term high sound levels. Also, disturbance of wildlife is of significance particularly during breeding seasons.

Noise measurement was carried out in ten (10) locations. These include all the air quality sample locations within the study area. The result of measurements is also presented in Table 3.9.

The results of measurements showed that noise within the study area ranged from 53.9(dB) A to 95.8(dB) A. This result revealed that the noise levels were within the FMENV recommended limit all the sampled locations except at PT8 (old reservoir along Okpoma road) due to vehicular traffic and followed by PT1 (Itigidi Treatment Plant). The use of ear protective equipment is recommended for people working within this area as well as optimal maintenance of machines used in the area.

However, the level of noise in the project area will be amplified during construction activities of the proposed project. This increase will however be short term and localized except around the treatment plant area during the operational period.


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3.3.4 Environmental Impacts from the Water Treatment Process

Table 3.10: Environmental Impacts and Mitigation Measures Environmental Issues/Impact

Compositions/types Treatment Process resulting in Impact

Mitigation Measures

Solid Waste/sludge: Settled suspended solids Used filtration membrane Spent media

This varies with the composition of water source and treatment process and may include: Radio nuclides, Lime Polymers, microorganisms

Raw /surface water extraction

Sedimentation/ flocculation Filtration &

Disposal

CRSWBL will minimize the quantity of solids generated through optimizing coagulation processes;

Sludge should be re-used/recycled if possible. Where re-use/recycle cannot be applicable, sludge

should be treated and disposed by land application.

Waste water: Filter backwash Reject streams from

membrane filtration processes

Brine streams from ion exchange or demineralization

Suspended solids and organics

High levels of dissolved solids

High or low pH Heavy metals


Sedimentation/ flocculation

Recycle filter backwash into the process, if possible Treat and dispose of reject stream, including brine in

line with national and local laws. CRSWBL will not discharge waste to surface water

subjects

Hazardous chemicals Risk of explosion Risk of fire Single acute exposure

to toxic, corrosive or oxidative substances

Chlorination, Sedimentation Flocculation Storage of

chemicals

Store chlorine away from all sources of organic chemicals, and protect from sunlight, moisture and high temperatures

Minimize the amount of chlorination chemicals stored on site while maintaining a sufficient inventory to cover intermittent disruptions in supply

Develop and implement a plan for responding to accidental releases

Install alarm and safety systems, including automatic


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shutoff valves, that are automatically activated when a chlorine release is directed

Install containment and scrubber systems to capture and neutralize chlorine should a leak occur.

Environmental Issues/Impact Compositions/types Treatment Process resulting in Impact

Mitigation Measures

Air emissions Ozone and gaseous or volatile chemicals used for disinfection processes such as chlorine and ammonia

Chlorination, Sedimentation Flocculation

Risk of chlorine and ammonia releases can be mitigated via the measures under hazardous chemicals

Install ozone destroying device (such as catalytic oxidation, thermal oxidation) at the exhaust o of the ozone reactor

Ecological impacts Land/Soil pollution Waste/Sludge disposal

Storage and operation of machines /generator (causing Chemical or diesel leakage)

Sludge should be disposed only on the appropriate place provided by the regulatory authority

Sludge must be treated before disposal to land

Equipment/generator must be properly maintained to avoid leakage.

3). Expired and left over chemicals should be carefully handled/ disposed.


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Water Pollution causing extinct of aquatic lives


Sludge disposal into the river

Sludge should not be disposed into the river

Table 3.10 describes the activities and various environmental impacts associated with a water treatment plant and their mitigation measures.


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3.4 Socio-Economics

3.4.1 Socio-Demographic Attributes of RespondentsA random sampling survey was carried out in the communities within the three (3) project local government areas. Semi Structured Instrument (SSI) was administered to a total of 578 respondents. This comprised of 195 for Abi, 201 for Obubra and 182 for Yala. Details of the analysis are contained in Table 3.12.

Table 3.11: Project Areas, their LGAs and Demographic DistributionSource:

National Population Census, 2006


LOCATION POPULATION

LOCATION

POPULATION

LOCATION

POPULATION

OBUBRA LGA YALA LGA ABI LGA1 Ogada 6,574 Okpoma 64779 Itigidi 123972 Apiapu

m 1,461 Abachor 1522 Adadama 28924

3 Ofatura 5,549 Okpina 411 Agbara 90554 Ovonu

m 8,039 Idigbo 1448 Emin 1392

5 Ofodua 16,482 Adiero 1138 Egboroni 17526 Ogada

1 9,124 Woleche 706 Ekpon 1892

7 Iyamoyong

6,701 Udeyina 2722 Ekureku 8340

8 Ohana 5,163 Itega 2522 Anong 32599 Ofukap

a 291 Iboko 232 Akarefor 3691

10

Ofat 7,619 Okpodu 1729 Akpoha 2755

11

Ababene

8,810 Utukpo Gabu

1730 Ngarebe 2973

12

Obubra Station

5,490 Ipole 461 Akarefor Esegeh

693

13

Oyedama

4,696 Likpoma 994

14

Adum Beach

1,461

15

Ofunbonga 1

1,041

16

Ofunbonga 2

292

17

Ofunbonga 3

1,162

18

Ofunbonga 4

6,360

19

Obubra

5,979

Total 102,294

79,400

78,117

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Table 3.12: Socio-Economic Attributes of Respondent

Item Category

Percentage (%)

Item Category

Percentage (%)

Abi

Obu

bra

Yala

Overall mean Abi

Obu

bra

Yala

Overall mean

Sample population 33.7 34.8 31.5 33.3

Main Occupation

Farming 67.7 66.7 86.3 73.6

Sex Male 86.7 88 85.7 86.8 Trading 7.5 15.4 7.2 10Female 13.3 12 14.3 13.2 Civil Service 12.8 17.9 9.3 13.3

Religion

Christianity 92.8 93.5 100 95.4 Self Employed 6.2 5.6 9.3 7Islam 0.5 0.5 0 0.3

Annual Income

0-50,000 51.8 48.8 79.3 60Traditional 4.1 6 0 3.4 51,000-100,000 10.8 20.4 10 13.7Others 3.05 0 0 1 101,000-500,000 14.4 16.9 8 13.1

Marital Status

Single 10.8 13.9 14.3 13 above 500,000 2 3 1.7 2.2Married 80.5 79.6 77.5 79.2

Source of energyPHCN 20.5 37.3 10 22.6

Divorced 1 0.09 3.3 1.46 Private generator 3.1 14 12 9.7Widow 4.6 4 3.3 3.97 Hurricane lamp 76.4 48.7 78 67.7

Av. No of wives 1 68 65 60 64.3 Cooking fuel Kerosene 20 28 14 20.72 or more 32 35 40 35.7 Firewood 80 70 86 78.7

Size of household3 and below 7 15 8 10

Type of toiletpit 25 68 12 35

4 to 6 42.6 37 45 41.5 Bush 65 20 80 557 and above 50.4 47 48 48.5 Water closet 10 12 8 10

Highest education

None 20.5 25.3 28.6 24.8

Waste disposal

Bush 78 30 92 66.7FSLC 28.7 28.4 25.3 28.4 Organized collection 0 0 0 0WASC 16.4 20.4 24.1 20.3 Open dump 12 40 8 20TCH/OND 8.2 12.9 7.1 9.4 Burning 10 30 0 13.3HND/Degree 5.6 5 3.8 4.8

Willingness to payYes 98 95 100 97.7

Amenities rating

Road Poor FairPoo

r No 2 5 0 2.3

School Fair FairPoo

r

Maximum amount

N300 22 25 56 34.3

Public Health Fair FairPoo

r N500 68 72 44 61.3

Portable water Poor PoorPoo

r N1000 10 3 0 4.3

Communication Fair Poor Poor

Common Water borne diseases

Malaria HighHigh High

Typhoid HighHigh High

River blindness Low Low Absent

Public recreation Poor PoorPoo

r Guinea worm Absent Low Absent Source of water River 22.6 78.1 50 50.2 Diarrhoea Low Low Low

Borehole (commercial 21.5 7.5 13 14 Cholera Low Low Low Pond/Stream 45.6 9 10.4 21.6


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Borehole (private) 0 1 2.1 1 Source: Field work 2009


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SexTable 3.12 shows that about 86.8% of the respondents in the 3 LGAs of project influence are males while 13.2% are females. About 86.7% of respondents in Abi are males as against 13.3% for females. About 88% of the respondents in Obubra are males as against 12% for females. In Yala, 85.7% of the respondents are males while 14.3% are females.

The general disproportionate in female representation is traced to: The survey technique in which head of household receives priority,

while any other member of household responds if the household head is absent.

Cultural practices in which females especially married women are not permitted to grant interview.

AgeThe field survey was administered to mostly household heads or to their adult relations, for those not present at the time of the survey. This informs that the field survey was biased towards adults from 30 years and above and this implies that the respondents come from an age category responsive enough to give detailed and valid data of their households and community.

ReligionThe overall mean result shows that Christianity is the dominant religion in the 3 LGAs. The practices of other religions are done by a few, and the overall mean representation is as follows:

Christianity 95.4% Traditional worshipping: 3.4%, Islam: 0.3% Others (not identified): 1%

Table 3.12 gives other religious statistics of the three project areas as follows:

Christians are dominant across board, but 100% of Christian worshippers is found in Yala

Obubra has more percentage (6%) of traditional worshippers, while Other private religions are prevailant in Abi (3%).

Marital StatusTable 3.12 shows that the married persons are predominant among the respondents in all the project communities (79.2%). The percentages of divorce persons and widows are low ((1.46 and 3.97 respectively). The statistic is approximately even in the 3 LGAs of project areas.

Years Lived in the CommunityThe field survey was administered to adults from 18 years and above. All the respondents are indigenes of their respective communities. This shows that the respondents are well acquainted with the socio-economic condition of the project areas, hence capable of given valid data.


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Household Size Table 3.12 shows a homogenous pattern of household sizes in the 3 project areas. The statistics shows that: There are predominantly large household size (7 and above) across

the project communities. Households with 1-3 persons are highest in Obubra (15%) and

lowest in Abi (7%) Large household size is highest in Abi (50.4%) and lowest in Obubra

(47%).

The above implies high consumption of goods, and particularly, high need for water consumption in the project towns. It can also explain the reason for poverty in the area.

Highest Educational QualificationThe survey (Table 3.12) shows that: About 25% of the people of the 3 project areas are illiterates (did not

attend primary school); The percentage of people that attempted/finished primary school is

highest in Abi (28.7%); The percentage of those that attempted/finished secondary school is

highest in Yala, while People that went to tertiary institutions are highest in Abi (5.6%) and

lowest in Yala (3.4%)

OccupationFarming is the predominant occupation in the 3 local government areas of project influence. Other occupations practiced in the area are trading, civil/public service and self employment. The survey shows that: Yala has the highest percentage of people whose primary occupation is

farming (86.3), while Obubra is least (66.7%) Obubra has the highest number of people in trading (15.4%), while Yala

has the least number (7.2%). The population of civil servants is highest in Obubra (17.9%) and lowest

in Yala (9.3%). The percentage of people in self employment is highest in Yala (9.3%)

and lowest in Obubra (5.6%).

Annual IncomeThe overall mean outcome of the survey shows that the proportion of people on income of N0 –N50,000 is predominant in the 3 project areas (60%), while those on income of N500,000 and above is lowest (2.2%). This indicates that the project area is dominated by people of low purchasing power.

However, being a rural and agrarian area, the low income has less influence on their ability to feed their households and on their ability to respond to the proposed water utility bills.


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Specifically the outcome of annual incomes in the 3 project areas is as follows: Yala is the most impoverished with 79.3% of the people living on

income of N0 - N50,000. People on middle income of between N101,000 and N500,000 are

highest in Obubra (16.9%); the total frequency of 13.7% for the 3 project areas shows that the proportion is small.

The result shows that very little proportion (2.2%) of the population in the project area lives on annual income of about N1,000,000 naira and above. In terms of the 3 project areas; Obubra has the highest proportion (3%), while Yala has the least (1.7%).

Source of EnergyThe survey shows that the entire project area is connected to the national grid, although power supply is sparingly across the project area. As a result of the unreliability of the public electricity, the study shows that: Hurricane lamp is used by majority, while the highest frequency of this

occurs inYala (78.7%), and lowest in Obubra (48.7%) The use of private generator as main source of energy is highest in

Obubra (14%), and lowest in Abi (3.1%).

In terms of energy used for cooking; Fire wood is predominant in the 3 project areas; and its use is highest in

Yala (86%) and lowest in Obubra (70%) The use of kerosene occurs mostly in Obubra (28%) and lowest in.Yala

(14%).

The predominant use of firewood has no significant effect on the project environment because: The area is a rainforest zone with tall trees, The woods in use are from farm sites, and Shifting cultivation is practiced over the project area, in a 4-year

rotation basis, which helps for natural re-vegetation.

Source of Drinking WaterThe predominant source of water to the people of the project area is River, and serves about 50% of the population. Other available sources are: Borehole (commercial and private); Stream; and Rain water.

The survey gives the following details of sources of water in the 3 project areas: Dependence on River water is highest in Obubra (78.1%) and lowest in

Abi (22.6%); Commercial borehole service is highest in Abi (21.5%) and lowest in

Obubra (7.5%);Earthguards Limited: Sustainable Development Consultants

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Dependence on stream or pond is most in Abi (45.6%) and lowest in Obubra ((9%), and

Private borehole is owned by very few people in Obubra (1%) and Yala (2.1%).

It was found that households spend between N200 and N300 per day on the purchase of water during dry season.

The underlying outcome of this section is that the project is feasible in terms of recovery of its investment because water has an effective demand in the project area.

Willingness to PayThe people of the 3 project areas are generally willing to pay for water supply (Table 3.12). The highest amounts proposed to pay by the proposed consumers ranged from N200 to N1000. The average statistic shows that:

56% of the household consumers from Yala want to pay N300 per month and makes up the highest number in favor of that sum in the 3 project areas.

the highest in favor of N300 and this proportion is from Yala; 72% of the proposed household consumers from Obubra are willing

to pay N500 per month. The percentage of households willing to pay N1000 and more per

month is relatively small occurring highest in Abi (10%) and lowest in Yala (0%).

The underlying outcome of this section is that the project investment outlay will be recovered according to plan.


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Waste Disposal PracticeWaste generated in the area is mainly domestic but lacks good waste management practices. Waste is disposed in the bush via open dump. This includes both degradable and non-degradable by-products.

Similarly, the predominant method of defecation is in the bush. This is common for the 3 local government areas.

This finding is relevant for tracing the cause of some of the reported communicable disease, and particularly important for identifying the relevance of training and awareness on sanitation and hygiene during project implementation stage.

3.5 Health Impart Assessment

The outcome of the survey on health issues is shown on table 3.13 and shows the following:

3.5.1 Obubra LGA Project areas

The occurrences of Malaria and typhoid are high in this area and have led to several deaths of people, and have also been a drain on the household’s income.

There are incidences of River blindness in this area, but the occurrence of River blindness is presently reduced following intervention from the .National Onchocerciasis Control Programme (NOCP).

Guinea worm was a common health challenge in this area but the occurrence has been drastically reduced via the federal ministry of health’s intervention.

Vibrio- cholera is said to occur in children under 5 years old. This is a form of diarrhoea in which patients experience frequent watery stool.

3.5.2 Abi LGA Project areas

The occurrences of Malaria and typhoid are high in this area; leading loss of lives and incomes

The incidences of River blindness in this area are low. Guinea worm was a common health challenge in this area but the

occurrence has been drastically reduced via the federal ministry of health’s intervention.

Vibrio- cholera is said to occur in children under 5 years old. E.Coli sp related Dysentery occurs but with low frequency of incidences.


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3.5.3 Yala LGA Project areas

The occurrences of Malaria and typhoid are high in this area; leading loss of lives and incomes

The incidences of River blindness are absent. There is no current history of Guinea Worm in this area. Vibrio- cholera is said to occur in children under 5 years old. Poor

hygienic condition including drinking of bad water could be a major

cause of Vibrio- choleric. E.Coli sp related Dysentery occurs but with low frequency of incidences.

Unhygienic human activities and waste disposal within sources of drinking water or edible items could cause E.Coli sp Dysentery.

Table 3.13: Pattern of Health Impact Assessment

Key:High/ Major occurrenceLow/rare

Absent


Abi Obubra YalaIndicators

High

Low Absent

High

Low Absent

High

Low Absent

Malaria - Typhoid - Guinea worm

Cholera Dysentery

River blindness

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4 POLICY, LEGAL AND REGULATORY FRAMEWORK

The following policy and regulatory frameworks guided the preparation of this ESIA:

4.1 World Bank Safeguard PoliciesThe World Bank has ten (10) Safeguard Policies to reduce or eliminate the adverse negative effects of development projects, and improve decision making. Details on the World Bank Safeguard Policies are presented in Appendix 1.With respect to this report, the following World Bank safeguard policy applies:

Environmental Assessment (OP/BP4.01)The above-mentioned policy is reviewed below with regards to its applicability and implication.

OP/BP4.01: Environmental Assessment

This is a process whose breath, depth, and type of analysis depend on the nature, scale and potential environmental impact of the proposed project. It evaluates a project’s potential environmental risks and impacts in its area of influence; examines project alternatives; identifies ways of improving projects selection, siting, planning, design, and implementation by preventing, minimizing, mitigating, or compensating for adverse environmental impacts and enhancing positive impacts; and includes the process of mitigating and managing adverse environmental impacts throughout project implementation. The World Bank favours preventive measures over mitigatory or compensatory measures, whenever feasible.

Environmental Assessment takes into account the following: natural environment; human health and safety; social aspects, and trans - boundary and global environmental aspects.

4.2 Nigeria’ Regulatory Framework

With regards to management of the bio-physical environment throughout Nigeria, the overall responsibility was held by the now defunct Federal Environmental Protection Agency (FEPA), which was absorbed into the Federal Ministry of Environment (FME) in 1999. The State Environmental Protection Agencies or, as the case may be, State Ministries of Environment performs this function at state and local levels.


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4.2.1 The Federal Ministry of Environment. (FMEnv)The FMEnv’s mandate includes the establishment of federal water quality standards and effluent limitations, protection of air and atmospheric quality; protection of the ozone layer; control the discharge of hazardous substances; inter alia and ensures that all major development projects in Nigeria are subject to mandatory Environmental Impact Assessment (EIA) pursuant to EIA Act. No. 86 (Decree No. 86) of 1992.

In the FMEnv, there is an Environmental Impact Assessment (EIA) Division, headed by a Director, to take all responsibility for EIA related issues. Also the EIA division in the FMEnv is the Impact Mitigation Monitoring (IMM) branch, with a special responsibility for monitoring the implementation of Environmental Management Plans (EMP) contained in the approved EIAs.

As contained in FEPA Acts 58 of 1988 and 59 of 1992. FME has put in place statutory documents to aid the monitoring, control and abatement of industrial waste. The statutory documents currently in place include:

National Policy on the Environment 1999 National Environmental Protection (Effluent Limitations) Regulations (S.1.8) 1991 ; National Environmental Protection (Pollution Abatement in Industries and Facilities Generating Wastes) (S.1.9) 2004; National Environmental Protection (Management of Solid and Hazardous

Wastes) Regulations (S.1.15) 1991; Guidelines and Standards for Environmental Pollution Control in Nigeria

1991; Sectoral Guidelines for EIA 1995 Harmful Wastes (Criminal Provisions) Decree No. 42, 1988; National Policy on the Environment, 1989; Environmental Impact Assessment Procedural Guidelines 1995; Environmental Impact Assessment (EIA) Act No. 86 of 1992; and Environmental Impact Assessment (Amendments) Act 1999. National Guidelines and Standards for Water Quality 1999 National Guidelines on Environmental Management Systems (EMS) 1999 National Guidelines on Environmental Audit in Nigeria 1999

These statutory documents clearly state the restrictions imposed on the release of toxic substances into the environment and the responsibilities of all industries whose operations are likely to pollute the environment. Such responsibilities include provision of anti-pollution equipment and adequate treatment of effluent before being discharged into the environment.

The FMEnv has put in place procedural and Sectoral guidelines detailing the EIA process including a categorization of environmental projects into Categories I, II and III (referred to by the World Bank as categories A, B and C respectively). This project has been categorized as FMEnv -Category II or World Bank Category B. Earthguards Limited: Sustainable Development Consultants

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These guidelines require that a complete EIA be performed for Category I projects. Category II projects may not require an EIA depending on the screening criteria, while Category III projects do not require an EIA.

The Sectoral guidelines on infrastructural development apply to this project. This water pipeline rehabilitation and installation project is classified as a category II project.

ESIA’s are then submitted to the EIA Division of the FMEnv for approval and monitoring of the project during implementation and operation based on an Environmental Management Plan (EMP) in the ESIA.

4.2.2 International Guidelines and Conventions on Environment which Nigeria is signatory

The United Nations Environmental Guidance Principles: This was adopted during Stockholm Convention on 16 June 1972. The principal objective of this convention was to provide guidelines (27 in number) for protecting the integrity of the global environment and the developmental system.

Montreal Protocol on Substances that Deplete the Ozone Layer: The protocol was adopted in 1987 as an international treaty to eliminate ozone depleting chemical production and consumption. The protocol also called on industrialized countries to provide technical and financial assistance to developing countries and hence led to the Multilateral Fund for the Implementation of Montreal Protocol (MFMP).

United Nations Convention on Biological Diversity: This convention was signed into law during the Rio Earth Summit in 1992. The convention places general obligations on countries to observe sustainable use and equitably share the plants and animals of the earth.

United Nations Convention on Climate Change: The convention was signed in 1992 during the Rio Earth summit but put into force in 1994. The convention calls on developed countries and economies in transition to limit her emissions of the green house gases which cause global warming, although it does not impose mandatory emissions on developing countries.

Convention to Regulate International Trade in Endangered Species of Fauna and Flora: This convention was signed into law in 1973 during the Washington summit and restricts the trade of fauna and flora species termed as endangered organisms.

Convention on Conservation of Migratory species of Wild Animals: This convention also known as the Bonn Convention of 1979 stipulates actions for


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the conversation and management of migratory species including habitat conservation.

Vienna Convention for the Protection of the Ozone Layer: This convention was instituted in 1985 and places general obligation on the countries to make appropriate measures to protect human health and the environment against adverse effects resulting from human activities which tend to modify the ozone layer.


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Impact Assessment Source References

National EIA Procedural Guidelines (FMENV 1995)

World Bank EnvironmentalAssessmentSourcebook (1991)

ISO 14000 EMSGuidelines

Reversible or IrreversibleIncidentsPast Events

Direct and Indirect Impacts

Impact High Medium Low

Yes/No

Legal/ RegulatoryRequirements

Risk

Frequency

Importance

Public Perception

Baseline data and Project Activity Description

Yes/No

Yes/No

Yes/No

Yes/No

Prevention strategy for significant impact

Reduction strategy for significant impacts that cannot be prevented

Control strategy for residual impact


5 POTENTIAL ENVIRONMENTAL AND SOCIAL IMPACTS

5.1 Introduction

This chapter presents an analysis of the potential impacts assessment methodology, an analysis of the potential positive and negative impacts and risk prediction associated with the proposed Water Distribution and Supply Schemes Project in Itigidi (Abu LGA), Obubra (Obubra LGA) and Okpoma (Yala.LGA).

5.2 Assessment Methodology

The proposed Construction of Water Distribution and Supply Schemes Project impacts identification / assessment were carried out based on the National, World Bank and ISO 14001 (Environmental Management System) framework, knowledge of the project environment, project activities and professional judgments. The approach adopted is schematically articulated in Figure 5.1 while details were given in section 1.5.

Figure 5.1: Impact Assessment Approach


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5.2.1 Impact Identification

This involves characterizing the existing baseline environment and components of the development project which are likely to impact the environment. A checklist of the associated and potential negative impacts from the water distribution project is presented in Table 5.1. The impacts identified have also been characterized as reversible or irreversible, direct or indirect, short or long term, permanent or temporary and cumulative as well as categorized as those under CRSWBL control and those which they have, influence over.

Reversible Impacts: the ability of the environmental components to recover their value after a disturbance.

Irreversible Impact: impacts that permanently impair on the environmental component of the area.

Direct Impacts: these are impacts which follow as a direct cause-effect consequence of a project activity.

Indirect Impacts: Are environmental effects that are at least one step removed from project activity in terms of cause-effect linkages.

Residual Impacts: These are impacts that remain even after mitigation measures have been applied.

Cumulative Impacts: Impacts arising from the interaction of project components or activities with other activities of the past or those occurring simultaneously, or sequentially.

Beneficial Impacts: These are positive impacts.

Adverse Impacts: These are negative impacts.

Long Term: Those predicted adverse impacts which remain after mitigating measures have been applied.

Short Term: Impacts that are removed after mitigating measures have been applied.

Impacts under CRSWBL Control: impacts the organization has sole responsibility for.

Impacts under CRSWBL Influence: Impacts related to items provided by third party (contractor or supplier)


88


Group of Activity: Intake and Weir

Project Phase and activities

Environmental Aspect Associated & Potential Impact

Dir

ect

Indi

rect

Rev

ersi

ble

Irre

vers

ible

Long

ter

m

Shor

t te

rm

Ben

efici

al

Adv

erse

Res

idua

l

Und

er

CR

SWB

O

utsi

de

CR

SWB

1. Pre-Construction

Social Risks of communal clashes during payment of compensation

X X X X X

Land Acquisition

Land depletion Depletion of land available for farming X X X X X

Mobilization of men and Equipment to site

Social Increased risks of road traffic X X X X XSocial Increased heavy duty traffic on, and damage to

local roadsX X X X X

Pollution Release of SOx, COx, NOx, SPM into the atmosphere thereby leading to pollution

X X X X X

Land degradation Destruction of soil structure from heavy duty equipment

X X X X X

2. Construction Pollution Release of SOx, COx, NOx, SPM into the atmosphere/water course, thereby leading to pollution

X X X X X

Fauna Disturbance of aquatic habitats/wildlife due to noise of heavy duty machines at construction site

X X X X X

Socio-economic Temporal obstruction to fish farming within the immediate river bank

X X X X X

Noise Impairment Noise nuisance to human and wildlife from machines and equipment movements

X X X X X

Health Workplace accidents X X X X X

Socio-economic Employment of local labour X X X X X X

3. Operation Water Pressure on water resources/quantity due to increased withdrawal

X X X X X X

Access to treated portable water X X X X X X

Table 5.1: Impact CharacterizationEarthguards Limited: Sustainable Development Consultants

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90


Impact Characterization Group of Activity: Treatment Plant



Dir

ect

Indi

rect

Rev

ersi

ble

Irre

vers

ible

Long

ter

m

Shor

t te

rm

Ben

efici

al

Adv

erse

Res

idua

l

Und

er

CR

SWB

O

utsi

de

CR

SWB

1. Pre-Construction


X X X X X

Land Acquisition






X X X X X


X X X X X


X X X X X


X X X X X

Socio-economic Temporal obstruction to fish farming within the immediate river bank

X X X X X


X X X X X



3. Operation Sludge Risk of Pollution of toxic stock from sludge to the environment

X X X X X X

Air/water Pollution

Risk related to release of COx, NOx, via leakage of oil/diesel from generator and/or from poor storage of diesel.

X X X X X X


91



92


Impact Characterization Group of Activity: Water Storage Tank



Dir

ect

Indi

rect

Rev

ersi

ble

Irre

vers

ible

Long

ter

m

Shor

t te

rm

Ben

efici

al

Adv

erse

Res

idua

l

Und

er

CR

SWB

O

utsi

de

CR

SWB

1. Pre-Construction


X X X X X

Land Acquisition






X X X X X


X X X X X


X X X X X


X X X X X




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Impact Characterization Group of Activity: Pipeline Works



Dir

ect

Indi

rect

Rev

ersi

ble

Irre

vers

ible

Long

ter

m

Shor

t te

rm

Ben

efici

al

Adv

erse

Res

idua

l

Und

er

CR

SWB

O

utsi

de

CR

SWB

1. Pre-Construction


X X X X X





X X X X X


X X X X X


X X X X X


X X X X X

Socio-economic increase income via sale of food and water

X X X X X X


X X X X X



3. Operation Social Increase road traffic during maintenance work

X X X X X X

Social Possibility of new development such as shops and houses along the right of way of pipeline, causing disturbance during rehabilitation work

X X X X X


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ProbabilityCategory

B Possibility of Isolated Incidents

Possibility of Repeated IncidentsA

Definition

C

E

D

Possibility of Occurring Sometime

Not likely to occur

Practically Impossibleiv

iii

i

ii


5.2.1 Determination of Impact Significance

An impact is said to be significant if it results in a change that is measurable in a statistically sound sampling program and if it persist, or expected to persist, more than several years at the population, community or ecosystem level (Buffington, 1976).

The determination of the significant associated and potential impacts of the proposed project was based on the ISO 140001 (EMS) framework using the criteria below:

5.2.2.1 Legal / Regulatory Requirements (L) – Is there a legal / regulatory requirements or a permit required?

0 = There is no legal/regulatory requirement3 = There is a legal/regulatory requirement5 = There is a permit required

The legal/regulatory requirements were identified based on the World Bank Safeguards Policy, IFC performance standards and the Official Gazette of the Federal Ministry of Environment.

5.2.2.2 Risk (R) – What are risk / hazard rating based on risk assessment matrix (RAM)?

1 = Low risk3 = Medium/intermediate risk5 = High riskThe risks were ranked based on three criteria namely, consequence, probability of occurrence and severity. These were determined using the RAM shown in Figure 5.2.

Probability

A B C D E


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ConsequenceCategory

Considerations

Safety /Health Public Disruption Environmental Aspects Financial Aspects

i

ii

iii

iv

Fatalities / Serious Impact on Public

LargeCommunity

Major/Extended Duration/Full ScaleResponse

High

Serious Injury to Personnel /Limited Impact on Public

SmallCommunity

Serious / Significant Resources Commitment

Medium

Medical Treatment forPersonnel / NoImpact on Public

Minor Moderate / Limited Response of Short Duration

Low

Minor Impact on Personnel

Minimal to None Minor / Little or No Response Needed

None

Figure 5.2: Risk Assessment Matrix

5.2.2.3 Environmental Impact Frequency (F) – What is frequency rating of impact based on historical data and expert judgment?

1 = Low frequency3 = Medium/Intermediate frequency5 = High frequency

The frequency of impact occurrence was determined using historical records of accidents/incidents, fatalities, etc, and consultation with experts.

Importance of Affected Environmental Component and Impact (I) – what is rating of importance based on consensus of opinions?

1 = Low importance3 = Medium/Intermediate importance5 = High importance

The importance of target environmental components on the potential impacts was determined through consensus among the project stakeholders.

5.2.2.4 Public Perception (P) – What is the rating of public perception and interest in proposed project and impacts based on consultation with stakeholders?

1 = Low perception and interest2 = Medium/intermediate perception and interest5 = High perception and interest

Consensus of opinions among the project stakeholders was used to determine the public perception/opinion on the potential impacts.Earthguards Limited: Sustainable Development Consultants

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The significant potential impacts of the proposed project (Table 5.2) were identified as those impacts to which the following conditions apply.

(L + R + F +I + P) > 15 Sum of weight of legal requirements, risk factor, frequency of occurrence, importance and public perception greater than or equal to the benchmark (15)

(F + I) is > 6: Sum of weights of frequency of occurrence and importance of affected environmental component exceeds the

Benchmark (6).

P = 5: The weight of the public perception/interest in the potential impact exceeds the benchmark (5)


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Table 5.2: Checklist for Ranking of Associated and Potential ImpactsProject Activity Associated & Potential Impact L R F I P F+I Total Impact categoryLand Acquisition Risks of communal clashes during payment of compensation 3 3 3 3 1 4 17 Significant

Depletion of land available for farming 3 1 1 1 1 2 9 InsignificantLand Clearing Destruction of the natural vegetation 0 1 1 3 1 4 10 InsignificantMobilization of men and Equipment to site

Increased risks of road traffic 0 3 1 3 3 4 14 InsignificantIncreased heavy duty traffic on, and damage to local roads 0 3 3 3 3 6 16 SignificantRelease of SOx, COx, NOx, SPM into the atmosphere thereby leading to pollution

3 3 3 5 3 8 25 Significant

Construction of Intake plant Destruction of soil structure from heavy duty equipment and civil construction activities

0 3 1 1 1 2 8 Insignificant

Laying of primary Mains (inlet/outlet pipes)

Disturbance of aquatic habitats/wildlife due to noise of heavy duty machines at construction site


Installation of lift pumping machines Temporal obstruction to fish farming within the immediate river bank


Withdrawal of raw waterRisk of water reduction and disturbance to alternative water uses 0 1 3 1 1 4 10 InsignificantDisturbance to occupational use of water such as fishing 0 1 3 1 1 4 10 InsignificantDisturbance to aquatic habitation 3 1 1 1 1 2 9 Insignificant

Installation of generator and other equipment

Noise nuisance to human and wildlife from machines and equipment movements


Risk of Workplace accidents 0 3 3 3 1 6 16 SignificantConstruction of Water treatment Plant and storage tanks

Risk of work place hazards/accidents 0 3 3 3 1 6 16 Significant

Construction of administration office, security post and chemical storage houses

Risk of safety of the public 0 1 1 1 1 2 6 InsignificantAir pollution resulting from emission of particulate matters, 3 3 3 3 3 6 21 SignificantWater pollution resulting from the release of CO2, and from leakages of oil and gases into the underground and surface water courses.


Noise impairment for civil construction workers using heavy duty equipment


Land/water pollution resulting from poor disposal practices of waste water and sludge during operation


Risk of HIV/STD as a result of interaction of civil workers and the community



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5.3 Impact NetworkThe associated and potential impacts of the proposed water distribution and supply schemes project in Itigidi, Obubra and Okpoma have been identified and evaluated / assessed in the previous sections. These impacts have also been networked / linked (as articulated in Table 5.3) to determine the magnitude of effects / severity.Associated and potential Impact

Impact Projection

1st Degree Impact 2nd Degree Impact 3rd Degree Impact

4th Degree Impact

Risks of communal clashes during payment of compensation

Disruption of project activity

Bad public Image -

Depletion on land available for farming

Reduction in Agricultural produce

Risk of increase in price of foodstuff

-

Loss of Asset / financial losses

Injury and death / damage to asset

- Increased risks of road traffic accidents on local roads

Increased heavy duty traffic on, and damage to local roads

Risks of accidents from damaged roads

Injury /death and damage to assets

Loss of manpower / financial losses

Release of SOx, COx, NOx, SPM into the atmosphere thereby leading to pollution

Increased risk or respiratory disorder

Death Increased mortality rate

Risk of acid rains Destruction of plants and corrosion of structures

Reduction in farm produce

Destruction of soil structure from heavy duty equipment

Reduction of soil aeration

Reduced plant / crop yield

-

Alteration of hydrological regimes

Risks of flooding Removal of top nutrients

Reduced crop yield

Exposure of soil to erosion resulting from de-vegetation and soil movement

Washing away ot top soil nutrients

Reduced plant / crop yield

-

Employment of local labour

Income generation to the people

Improved standards of living

-

Contamination of soils from accidental fuel spills

Reduction in soil productivity

Reduced crop / plant yield

-

Public and wildlife disturbance due to

Risks of public agitation / crisis

Disruption of operation

Bad public image


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noise Reduction in wildlife reserves

Reduced wildlife catch to the local hunters

Low income generation

Loss of medicinal herbs and rare / endangered plant species

Increased rate of ill-health

Increased mortality rate

Population decreases

Income generation to the villagers from sale of food and other consumable items

Improved standard of living

- -

Table 5.3: Impact Projection

5.4 Mitigation Measures

Mitigation measures (Table 5.4) for the significant associated and potential impacts of the proposed project in Itigidi, Obubra and Okpoma were proffered based on professional judgment and described in the context of the following:

5.4.1 Prevention: avoid the potential impact

5.4.2 Minimization: decrease the spatial / temporal scale of the impact through design, training of physical barriers

5.4.3 Remediation: apply rehabilitation techniques after the impact has occurred

5.4.4 Compensation: accept the impact and compensate (monetarily or in other forms e.g. training, offsite restoration, community development programs for natural resource management etc) as appropriate

Table 5.4: con’td: Mitigation MeasureEnvironmental Aspect

Associated and Potential Impact

Mitigation Measures

Land Acquisition

Risks of communal clashes during payment of compensation

CRSWBL shall pay adequate compensation to land owners

Restriction on land available for farming

CRSWBL shall limit acquisition of land to the minimum specified for project

Mobilization of men and materials to site

Increased risks of road traffic accidents on local roads

CRSWBL shall develop and maintain an effective journey management planCRSWBL shall limit movement of heavy equipment to night hoursCRSWBL shall use competent and well trained driversCRSWBL shall ensure vehicles are


100


periodically maintained and records kept

Increased heavy duty traffic on, and damage to local roads

CRSWBL shall develop an effective journey management planCRSWBL shall use competent and well trained drivers certified in defensive drivingCRSWBL shall ensure all vehicles are periodically maintained and records kept

Land Clearing / stripping

Ecosystem fragmentation and exposure if wildlife is to increased exploitation

CRSWBL shall limit acquisition of land to the minimum required for work

Destruction of soil structure from heavy duty equipment

CRSWBL shall limit clearing activities to the minimum required for work

Reduction in oxygen available in the atmosphere due to deforestation

CRSWBL shall limit cutting / clearing of trees to the minimum required for work


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Table 5.4 cont’d: Mitigation MeasuresEnvironmental Aspect


Mitigation Measures

Land clearing / Stripping

Release of gaseous pollutants (CO, SOx, NO, SPM, etc) from earth moving equipment into the atmosphere

CRSWBL shall maintain all vehicles at optimal working conditionsCRSWBL shall ensure vehicles are periodically maintained and records kept

Contamination of soils from accidental fuel spills during vehicle / equipment refueling

CRSWBL shall develop effective fuel storage and handling procedures

Public and wildlife disturbance due to noise from earthmoving equipment

CRSWBL shall use low noise generating equipment for operationCRSWBL shall maintain all vehicles at optimal working conditionsCRSWBL shall ensure vehicles are periodically maintained and records kept

Loss of medicinal herbs and rare / endangered plant species

CRSWBL shall limit land clearance to the minimum required for work

Littering / pollution of the soil from disposal of overburden / top soil

CRSWBL shall activate waste management planCRSWBL shall store stripped overburden materials to be used for pit reclamation

Installation of equipment and Structures (offices, workshop, etc)

Provision of electricity to the community through installation of generators

Electricity supply from the quarry shall be extended to the nearest community where possible

Employment of local labour Unskilled local hands shall be retained by CRSWBL where the need arises in order to encourage them in acquiring basic skills on self sustenance on disengagement

Inhalation of cement dust and toxic fumes during building and welding of structures

CRSWBL shall ensure that all personnel at such work area wear nose mask

Workplace accidents

CRSWBL shall ensure all personnel wear appropriate PPECRSWBL shall ensure that contractors undertaking work on its behalf comply with safety and health plansCRSWBL shall ensure safety awareness meetings are held prior to work each dayCRSWBL shall ensure all incidents are documented and corrective actions takenCRSWBL shall ensure all gang ways are cleared of obstruction during work

Risks of personnel falling from heights during installation

CRSWBL shall ensure all scaffolds are fit for intended use


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CRSWBL shall employ the use of competent and well trained workersAll gang ways shall be cleared of obstruction

Waste water treatment

Generation of toxic residuals and pathogens

CRSWBL shall ensure that full compliance of the waste management plan.Disposal of sludge in land fill shall be prohibited; and treated sludge shall be useful as manure for agricultural usesSludge shall be sedimented and dewatered to get rid of pathogens and toxics

Environmental Aspect


Mitigation Measures

Installation of equipment and Structures (offices, workshop, etc)

Risks of personnel electrocution during welding operations

CRSWBL shall employ competent and well trained weldersCRSWBL shall ensure all electrical wires are insulated

Atmospheric pollutants emission (SOx, COx, NOx, etc) into the atmosphere from exhaust of construction equipment

CRSWBL shall maintain all vehicles and internal combustion engines at optimal working conditionsCRSWBL shall ensure vehicles are periodically maintained and records are kept

Plant growth deficiency resulting from reduced transpiration / photosynthesis enhanced by coating of leaves with dust particles during the dry season

CRSWBL shall adopt the use of water spraying around work area to reduce of dust into the atmosphere

Destruction of natural landforms and aesthetic beauty of the area

CRSWBL shall restrict ensure that land form is restored/revegetated

Storage of chemicals and fuel/oil/diesel

Risks of fire outbreak and explosion from accidental ignition of detonators

CRSWBL shall locate fire extinguishers in strategic areas and train personal in its use

Soil and groundwater contamination from diesel

CRSWBL shall ensure fuel storage are enclosed within a bund wallCRSWBL shall ensure periodic inspections of tanks are carried out


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Itigidi, Obubra & Okpoma Water Distribution & Supply Scheme Environmental and Social Impact Assessment

5.5 Positive Environmental Impacts in the Locations

This sections looks at the main impacts identified, specifying these as much as possible according to the various infrastructural developments anticipated. The positive impacts for each phase are shown below.

Construction Phase

Increase in Business Opportunities and Employment: Local subcontracts from the contractor during the project. Demand for labour for digging the trenches where pipes

will be laid, Increased demand for food, drinks, and manufactured

consumer products especially telephone card from the construction workers.

Operation and Maintenance Phase

Social and Health Benefits: Water would become available for the people in the areas thus

distance to source of water will be shortened It will prevent or minimize time wastage by households in

fetching water. Reducing workload of households members, especially women,

involved in fetching water. In addition, The incidence of water borne diseases especially diarrhea

among children would be reduced. This will help reduce child mortality.

General improvement in sanitation will also lead to a healthy environment.

National Development: The project will alleviate poverty, It will enhance revenue generation of CRSG. Improve economic well-being and health conditions of the

people and will Contribute to the attainment of the Millennium Development

Goals (MDGs).

5.6 Potential Negative Impacts

An identification of potential impacts during the respective project phases is presented in tabular format in Table 5.8. Furthermore a rating of potential impacts is presented. It is noted that this rating is based on information that was gotten from the field survey.

Impact significance has been categorized into three classes; Low Medium



HighThe criteria applied for the three classes are largely based on the expected magnitude of change caused by the project in combination with value/sensitivity of the receptor/resource.

5.7 Waste Water and Sludge Disposal

Sludge is to be treated and dried and be disposed in Local Authority registered landfill site for this purpose.Sledges are classified according to the type of water treatment process adopted which may include: Non-Chemical Sludge: derived from treatment plant using

biological method such as micro strainers,, pre-settlement unaided by chemicals, membrane backwash and sand washings from slow sand filters

Coagulant sludge: arising from treatment plants using coagulation process.

The treatment works for this water schemes project in Itigidi, Obubra and Okpoma employ coagulation, flocculation, clarification and filtration. In view of this, the projection of the quantities of dry solids in sludge produced area function of raw water quality and the chemical treatment being used.

Generally, the sludge composition for this project consists of: Coagulant hydroxide Suspended solids Precipitated colour Algae Iron Manganese Powdered activated carbon Impurities in lime and polyelectrolyte

Details of the types and sources of waste/sludge and applicable best treatment/disposal recommendations are contained as follows:

Table 5.5: Sludge Treatment ProcessSource of Waste Type of Waste Treatment/DisposalOperation StageClarification sludge Regular batch

discharges (0.1 -3% w/v dry solids

The extracted sludge from the setting tanks will be thickened and dewatered by spreading on drying beds to reach 50% of dryness and disposed in the EPAD designated landfill and/or can be used as manure for agricultural purpose.

Sludge Treatment Plant Dross Flushing drainage

washings,

Chemical wastesSuspended solids

Discharge to water course subject EPAD consentIf necessary, dechlorinate and/or discharge to neutralize



SpillagesProcess tank drainage

Settled sludge Dewater and send sludge to sludge treatment plant

Main process overflows

Could contain low residual chlorine and/or typically pH in the range of 5-7

Recycle to the systemNo harm if discharged to water course

Membrane plant or chemically enhanced backwash water

AcidsChlorine, andAlkali

Neutralize and send to the sludge treatment plant

Media filter or membrane filter wash water

Dry solids Recycle with/without settlementSend settled solids to the sludge treatment plant

Workshop waste Oil and grease Collect for off site disposalChemical tank leakage and spillage on delivery

Concentrated chemicals Contain in bunds and remove for off-site disposal, using 3-way diversion valves

Gas leakage from storage or generation plants

Chlorine, ozone, hydrogen, carbondioxide, sulphate, methane

Apply Scrubbers (Cl2), Destructors (O3), dilution and venting



Source of Waste Type of Waste Treatment/DisposalOperation StageCommissioning StageHydraulic testing water Free of contaminants Discharge to a water courseTreated water Chlorinated and may not be

compliant with treated water quality standards

Discharge to water course after dechlorination if necessary.Re-use if feasible

Water used for disinfecting water retaining structures

High chlorine residual Discharge to water course after dechlorination if necessaryRe-use if feasible

Filter backwash water Media fines Settlement and discharge to a water course.

Source: Twort’s Water Supply, 6th Edition (Don D. Ratnayaka, J. Brandit and Michael Johnson)

5.7.1 Estimation of the quantities of sludge

Estimation of the quantity of sludge for this project was made possible by estimating the quantity of raw water collection which is approximated by the quantity (m3/D) of water production. Water production on the other, is determined by any of the following:

a. Treatment plant capacityb. Daily water production (which is a function of water

demand and water losses).

Daily water production estimate was applied in this study to approximate the amount of raw water intake, and shown as follows:

Table 5.6: Daily Water Production RateYear Project Area Water

demand (m3/d)

Internal losses (m3/d)

Total Water Production

(m3/d)2009 Obubra 5,463 1,366 6,829

Abi 2,747 687 3,434Yala 2,581 645 3,227

2025 Obubra 8,224 2,056 10,280Abi 4,082 1,020 5,102Yala 3,914 979 4,893

2035 Obubra 19,613 4,903 24,517Abi 9,510 2,377 11,887Yala 9,452 2,363 11,815

Key (m3/d) = Cubic metric per daySource: The Project Feasibility Report, 2009

5.7.2 Sludge Production Estimation5.7.3

The quantity of sludge production for the proposed water schemes project in the three (3) Local Government Areas of Obubra, Abi and Yala is as follows:



Sludge Production ( estimate: 2010-2025)Items Unit Obubra Abi YalaDaily operating h/d 18 18 18

l/s 262 130 114m3/h 942 468 409m3/d 16,962 8,418 7,356

Production of sludge per m3 g/ m3 30 30 30Kg/ m3 0.03 0.03 0.03

Production of sludge per day Kg/d 509 253 221Concentration of extracted sludge g/l 10 10 10Flow of extracted sludge m3/d 51 25 22

m3/h 3 1 1Water flow used for backwashing per litre

m3/d/filter

752 376 342

Number of filter backwash per day u/d 2 2 2Backwash waters m3/d 1,503 752 683

m3/h 84 42 38Concentration of backwash waters g/l 1 1 1Quantity of Total solid in backwash waters

Kg/d 1,503 752 683

Total sludge Production (Before treatment)

Kg/day 2,012 1,004 904m3/hour 86 43 39

Table 5.7: Estimation of Total Quantity of Sludge

Source: The Project Feasibility Report, 2009



5.7.3 Sludge TreatmentThe sludge treatment process design and variables output are

quantified as presented below:


STAGE DESIGN CRITERIA UNIT OBUBRA

ABI YALA

Thickening Permissible load - maximum Kg/ m3/d 50 50 50Rising velocity - maximum m/h 2 2 2Retention time - maximum h 48 48 48Injection sludge - input d/w 7 7 7

h/d 18 18 18Extraction of sludge - output d/w 7 7 7

h/d 8 8 8Inlet sludge concentration g/l 1.7 1.7 1.6Total sludge - inlet Kg/d 2,717 1,340 1,205Volume – Sludge inlet m3/d 1,625 811 736

m3/h 90.3 45 40.9Dewatering on drying beds

Volume – sludge inlet m3/d 74 36 33Drying time - min week 3 3 3Frequency of filling d/w 7 7 7

h/d 8 8 8Depth of a drying bed m 0.4 0.4 0.4Number of weeks before full discharge

week 3 3 3

Required area for 1 week m2/week

1,291 637 573

Total area required - theoretical

m2 3,872 1,910 1,718

Dryness after drying % 50 50 50Total Sludge output (dry sludge)

Kg/day 1,291 637 573Kg/year

471,049 232,335 209,002


Source: The Project Feasibility Report, 2009



5.8 Potential impacts related to the Water Distribution and Supply Scheme in Abi, Obubra and Yala LGAs

Project activity group: Intake and Weir Phase: Pre-construction

TYPE OF IMPACT DESCRIPTION IMPACT RATING

1. SOCIAL(a) Land take This will deplete the quantity of land available for other uses in the project affected

area. The impact may not be much as land required for permanent construction will not be significant as

Low

2. ENVIRONMENTAL(a). Erosion The clearing of the natural vegetation may exposure the surface soil to erosion, and

may adversely affect the aesthetics of the project area. However, the impact is going to be site specific and area requirement small.

Moderate

(b) Eco-system The eco-system may be adversely affected by the human activities such as clearing of vegetation, land compartment and felling of trees.

Moderate

Flora and Fauna Moderate

Solid Waste Moderate



Project activity group: Intake and Weir Phase: Construction

TYPE OF IMPACT

DESCRIPTION IMPACT RATING

1. POLLUTION(a) Air pollution Air pollution will result from automobiles, light and heavy machines such as

generators , and also from dusts being raised during clearing of bushes and felling of trees Burning of demolition and uprooted trees and grasses will also contribute to pollution.

Moderate

(b) Water pollution

Accidental spillage of fuel, lubricants and other chemicals may flow into surface waters leading to water pollution. Also project activities may lead to turbidity in surface watercourses due to run off of sediments resulting from increased erosion. Leaching of the fuels from the machines and automobiles into the underground water will result into water pollution.

Moderate

(c) Soil pollution Soil pollution may occur as a result of accidental spillage of fuels such as diesel. In addition, there may be fuel, lubricants and other chemical leakages from improper storage facilities.

Moderate

(d) Noise pollution

Loud noise and vibrations may result from the use of equipment such as generators, vehicles, drilling machines (in the case of burrowing) etc.

Moderate

2. SOCIAL

(a) Safety of the public

Constructions sites, in particular, excavations as well as transportation, movement of heavy equipment and obstruction of roads may cause safety problems to the general public. The use of heavy equipment is expected to be limited. On the other hand, manually executed works will last longer, resulting in prolonged safety risks.

Furthermore, exposed trenches pose landslide hazards to humans and animals alike. The risk of such is common in the case of clearing works near frequented public buildings such as schools and religious centers.

Moderate

Moderate

(b) AestheticsThe aesthetics of the surroundings around the construction sites may be affected if not well managed. However, constructions in this project will take place in semi-urban and rural areas with moderate viewpoint sensitivity. Moreover, the impact is location specific and temporal.

Low

(c) Land take

The proposed construction of water intake tanks may result in the occupation of land used for other purposes (residential, agriculture, business etc), and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures). The impact would be negligible, since most of the pipes will be laid along existing ROWs and all persons that could be affected by the project have been appropriately settled by the Cross River Sate Government.

Moderate



Project activity group: Intake and Weir Phase: Construction

TYPE OF IMPACT DESCRIPTION IMPACT RATING3. HEALTH

(a) Public health Given the tropical climate of Cross River State, stagnant water which may form in pits, holes, excavated ditches etc, at construction sites may create a habitat for insect disease vectors such as malaria, which poses a health concern to residents.

Moderate

(b) Health problems from construction camps and sites, and imported labour

In the case of badly managed construction camps and work sites public health problems may occur, although in this case it is not expected that large construction camps will be established, or that work sites will be large enough to cause important hazards to the general populace. Also, in view of the magnitude of works, the number of imported labourers may be quite low.

Low

(c) Occupational health and safety

Construction works such as: excavations; working with heavy equipment; working in confined spaces; working on and along the traffic roads; heavy lifting, storage, handling and use of dangerous substances and wastes, working under noisy conditions will expose the workers to occupational health and safety risks

Moderate

4. EROSION(a) Soil erosion Water pipeline construction for the network extension and rehabilitation of water

will entail clearance of the vegetation from site and the usage of heavy equipment for the work. The compaction of soil and loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff. Nevertheless most of the pipeline construction activities will take place along existing roads and not undulating landforms thereby reducing erosion impact to a minimum.

Moderate

5. FLORA AND FAUNA(a) Impacts on flora and fauna

As the construction will require removal of natural vegetation for the proposed new pipeline extension which may lead to habitat destruction of natural existing fauna. Although most of the new pipeline extension work will occur along existing roads or ROWs with less bushes and shrubs removal making vegetation impact to be low due to low ecological value. Some economical tree will be affected

Moderate

(b) Access due to construction of pipeline ROW’s through bush and forest land

In certain areas where the pipeline extensions require the creation of new ROW’s through forest land. This might result in improved access to natural sites previously less accessible.

Low

6. SOLID WASTE GENERATION(a) Waste generation

Waste will be produced by the removal of structures and vegetation in the right of ways of the pipelines.

Old, ruptured pipes will be removed from the pipelines for replacement. This will

Moderate

Moderate



constitute massive solid waste which will deface the landscape of the areas if not well managed.



Project activity group: Intake and Weir Phase: Operation and

MaintenanceTYPE OF IMPACT DESCRIPTION Impact Rating

1. SOCIAL(a) Livelihoods Given that water is constantly taken from the river/dams, resulting in

reduction in the water level especially during dry season, fishing and irrigation will be drastically affected.

M

(b) Conflicting demands for water

Since water intake depends on river which reduce during dry seasons, there will be shortage of water for distribution during this period, also water for irrigation and fish farming, etc. may be depleted.

M

2. FLORA AND FAUNA(c) Eco-system The indigenous flora and fauna are negatively affected by the

reduction in the water level.M



Project activity group: Water Treatment Plant Phase: Pre-construction

TYPE OF IMPACT



generators , and also from dust being raised during clearing of bushes and felling of treesBurning of uprooted trees and grasses will also contribute to air pollution

ModerateModerate

(b) Water pollution

Leaching of the fuels from the machines and automobiles into the underground water will result in underground water pollution.

Low

(c) Soil pollution Soil pollution may occur as a result of accidental spillage of fuels such as diesel. In addition, there may be fuel, lubricants and other chemical leakages from improper handling.

Moderate

(d) Noise pollution


Moderate

2. SOCIAL(a) Safety of the public

Constructions sites, in particular, excavations as well as transportation, movement of heavy equipment and obstruction of roads may cause safety problems to the general public. On the other hand, manually executed works will last longer, resulting in prolonged safety risks.

Moderate

(b) AestheticsThe aesthetics of the surroundings around the construction sites may be affected if not well managed. However, treatment plant constructions in this project will take place in secluded areas within semi-urban and rural areas with moderate viewpoint sensitivity. Moreover, the impact is location specific and temporal.

Low

© Land take The proposed construction of Treatment Plants may result in the occupation of land used for other purposes (residential, agriculture, business etc), which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures). Details would be seen in the Abbreviated Resettlement Action Plan (ARAP)

Low

(d) Occupational health


Moderate



(e) Soil erosion The clearing of vegetation, felling of tree and grading of the soil might expose the soil to erosion. However, since the land coverage is small,, the impact will not be much.

L



Project activity group: Water Treatment Plant Phase: Pre-construction

TYPE OF IMPACT DESCRIPTION IMPACT RATING3. HEALTH

(a) Public health Given the tropical climate of Cross River State, stagnant water which may form in pits, holes, excavated ditches etc, at construction sites may create a habitat for insect disease vectors such as mosquitoes which causes Malaria.

Moderate



Moderate

4. EROSION(a) Soil erosion Construction of the treatment plant will entail clearance of the vegetation from site

and the usage of heavy equipment for the work. The compaction of soil and loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff.

Low

FLORA AND FAUNA(a) Impacts on flora and fauna

Construction will require removal of natural vegetation for the proposed treatment plant, which may lead to habitat destruction of natural existing fauna.

Moderate



Project Activity Group: Water Treatment Plant Phase: constructionTYPE OF IMPACT


1. POLLUTION(a) Air pollution Air pollution will result from automobiles, light and heavy machineries such as

generators etc.

Burning of wastes such as trees, paper, etc. will also contribute to pollution.

Moderate

(b) Water pollution

Accidental spillage of fuel, lubricants and other chemicals may flow into surface waters leading to water pollution. Also project activities may lead to turbidity in surface watercourses due to run off of sediments resulting from increased erosion.

Low

(c) Soil pollution Soil pollution may occur as a result of accidental spillage of fuels such as diesel. In addition, there may be fuel, lubricants and other chemical leakages from improper storage facilities.

Moderate

(d) Noise pollution


Low

2. SOCIAL


Constructions sites, in particular, excavations as well as transportation, movement of heavy equipment and obstruction of roads may cause safety problems to the general public. Furthermore, exposed trenches pose landslide hazards to humans and animals alike. The risk of such is common in the case of construction works near frequented public buildings such as schools and religious centers.

Moderate

Moderate

(b) Aesthetic The aesthetics of the surroundings around the construction sites may be affected if not well managed.

Low

(c) Land take

The proposed Treatment Plants may result in the occupation of land used for other purposes (residential, agriculture, business etc), and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures).

Moderate



Project Activity Group: Water Treatment Plant Phase: ConstructionTYPE OF IMPACT DESCRIPTION IMPACT RATING

3. HEALTH(a) Public health Given the tropical climate of Cross River State, stagnant water which may form in

pits, holes, excavated ditches etc, at construction sites may create a habitat for insect disease vectors such as mosquitoes which cause malaria.

Moderate


Construction works such as: excavations; working with heavy equipment; working in confined spaces; heavy lifting, storage, handling of wastes, working under noisy conditions will expose the workers to occupational health and safety risks

Moderate

4. EROSION(a) Soil erosion Water Treatment Plant construction will entail clearance of the vegetation from

site and the usage of heavy equipment for the work. The compaction of soil and loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff.

Low


As the construction will require removal of natural vegetation for the proposed new treatment plant which may lead to habitat destruction of natural existing fauna.

Low

(b) Access due to construction of Water Treatment Plants ROW’s through bush and forest land

In certain areas where the Water Treatment Plant require the creation of new ROW’s through forest land, this might result in improved access to natural sites previously less accessible.

Low

6. SOLID WASTE GENERATION(a) Waste generation

Waste will be generated from the left over concrete and iron rods used during the construction of the water treatment plants.

Moderate



Project Activity Group: Water Treatment Plant Phase: Operation and Maintenance TYPE OF IMPACT DESCRIPTION IMPACT

RATING1. POLLUTION

(a) Air pollution Same as in construction phase number (ii) Low

(b) Water pollutionThe water treatment plant will lead to increased water consumption and therewith wastewater production. Due to storage and use of diesels and other lubricants, fuels and lubricants can mistakenly spill into the underground water resulting in water pollution.

Moderate

(c) Soil pollution

The chances of soil pollution during this phase are possible with leakages of fuels and lubricants.

Disposal of waste/sludge into the adjacent forest will result in soil pollution thereby, affecting the use of the land.

Moderate

Moderate

2. HEALTH(a) Public health risks as a result Disposal of waste/sludge into the river will result in pollution of the soil and water,

thereby, resulting in health problems. Moderate

(b) Occupational health safety

During this face of the project, maintenance staff may have to run different shifts including night ones. This may result in accidents and dangers.

Low


3. WASTE GENERATION(a) Solid waste generation

Waste will be produced by human maintenance activities such as retune clearance of grasses, solid waste from empty and /or obsolete chemicals containers. The amounts of waste produced will be much more limited than during the construction phase.

Low

(b) Sludge As a result of the extended distribution system, it may be expected that water consumption will increase, and therewith also the amount of sludge produced by treatment plants. It is not anticipated that the increase in sludge production will be substantial.

Moderate

(c) Waste water Waste water will be generated at the various stages of water treatment, such as flocculation, aeration and sedimentation, which use chemicals such as chlorine, alum and limes.

Moderate

7. ENERGY CONSUMPTION(a) Energy consumption The use of energy for the distribution of water will be required. The relative

increase in energy consumption as a result of the extensions to the pipeline distribution system is, however, not expected to be substantial.

Low


Project Activity Group: Water Storage Tank Phase: Pre-ConstructionTYPE OF IMPACT



generators , and also from dust being raised during clearing of bushes and felling of treesBurning of uprooted trees and grasses will also contribute to air pollution

Moderate

(b) Water pollution

Leaching of the fuels from the machines and automobiles into the underground water will result in underground water pollution.

Low


Low

(d) Noise pollution


Moderate

2. SOCIAL



Low

Low

(b) AestheticsThe aesthetics of the surroundings around the construction sites may be affected if not well managed. However, treatment plant constructions in this project will take place in secluded areas within semi-urban and rural areas with moderate viewpoint sensitivity. Moreover, the impact is location specific and temporal.

Low

(c) Land take The proposed construction of Treatment Plants may result in the occupation of land used for other purposes (residential, agriculture, business etc), and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures).

Low

3. HEALTH(a) Public health Given the tropical climate of Cross River State, stagnant water which may form in

pits, holes, excavated ditches etc, at construction sites may create a habitat for insect disease vectors such as malaria, which poses a health concern to residents.

Moderate


Construction works such as: excavations; working with heavy equipment; working in confined spaces; working on and along the traffic roads; heavy lifting, storage, handling and use of dangerous substances and wastes, working under noisy

Moderate



conditions will expose the workers to occupational health and safety risks



Project Activity Group: Water Storage Tank Phase: Pre-ConstructionTYPE OF IMPACT


4. EROSION(a) Soil erosion Water pipeline construction for the network extension and rehabilitation of water will

entail clearance of the vegetation from site and the usage of heavy equipment for the work. The compaction of soil and loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff. Nevertheless most of the construction activities will take place along existing roads and not undulating landforms thereby reducing erosion impact to a barest minimum.

Low



Moderate



Project Activity Group: Water Storage Tank Phase: ConstructionTYPE OF IMPACT


1. POLLUTION(a) Air pollution Air pollution may result from EXCAVATION equipments (vessels, pumps) as well as

road transportation. It is expected that such impacts will be limited and transient. Moreover, human receptors in the vicinity of the reservoir are generally distant.

Moderate

(b) Water pollution

Underground water pollution may result from the spillage of fuels from heavy automobiles conveying equipments to the site and machines used for excavation

Moderate

(c) Soil pollution There will be soil pollution from the spillage of diesels from automobiles conveying equipments to the site and generators used on the site

Low

(d) Noise pollution

Noise pollution may result from the dredging works. In the surroundings of the storage tanks, human receptors in the vicinity of the storage tanks are generally distant. The impacts would therefore be mainly on wildlife in the area, since the shore lines of the storage tanks are not habitable.

Moderate

CONSTRUCTION PHASETYPE OF IMPACT


2. SOCIAL


Construction sites, in particular excavation, as well as transportation, movement of heavy equipment and obstructions of roads may cause safety problems to the general public. The use of heavy equipments is expected to be limited. However, on the other hand, manually executed works will last longer, resulting in prolonged safety risks. Furthermore, exposed trenches pose fall hazards to humans and animals alike. The risk of such is particularly important in the case of construction works near frequented public buildings.

Moderate

(b) Visual amenities

Construction sites, if mot well managed, have impacts on the aesthetics of the surroundings. In the case of the project, all pipelines constructions takes place in the rural and semi-urban areas with moderate viewpoint sensitivity. Furthermore, the impact is temporary and location-specific.

Low

(c) Land take The proposed Treatment Plants may result in the occupation of land used for other purposes (residential, agriculture, business etc), and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures).

Low



Project Activity Group: Pipeline Phase: Pre-ConstructionTYPE OF IMPACT DESCRIPTION IMPACT

RATING1. POLLUTION

(a) Air pollution Air pollution will result from automobiles, light and heavy machines such as generators , and also from dust being raised during clearing of bushes and felling of treesBurning of uprooted trees and grasses will also contribute to air pollution

ModerateModerate

(b) Water pollution Leaching of the fuels from the machines and automobiles into the underground water will result in underground water pollution.

Accidental spillage of fuel, lubricants and other chemicals may flow into surface waters leading to water pollution. Also project activities may lead to turbidity in surface watercourses due to run off of sediments resulting from increased erosion. Although this will be minimal since most of the project sites are not close to water bodies or water courses

Low

Low


Moderate

(d) Noise pollution Loud noise and vibrations may result from the use of equipment such as generators, vehicles, drilling machines (in the case of burrowing) etc.

Moderate

2. SOCIAL



Low

(b) Visual amenitiesThe aesthetics of the surroundings around the construction sites may be affected if not well managed. However, treatment plant constructions in this project will take place in secluded areas within semi-urban and rural areas with moderate viewpoint sensitivity. Moreover, the impact is location specific and temporal.

Low

(c) Land take The proposed construction of Treatment Plants would result in the occupation of land used for other purposes (residential, agriculture, business etc), and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be cleared of structures). Details of this would be found in the

Moderate



Abbreviated resettlement Action Plan (ARAP).



Project Activity Group: Pipeline Phase: Pre-ConstructionTYPE OF IMPACT DESCRIPTION IMPACT

RATING3. HEALTH

(a) Public health Given the tropical climate of Cross River State, stagnant water which may form in pits, holes, excavated ditches etc, at construction sites may create a habitat for insect disease vectors such as malaria, which poses a health concern to residents.

Moderate



Low

4. EROSION(a) Soil erosion Water pipeline construction for the network extension and rehabilitation of

water will entail clearance of the vegetation from site and the usage of heavy equipment for the work. The compaction of soil and loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff. Nevertheless most of the pipeline construction activities will take place along existing roads and not undulating landforms thereby reducing erosion impact to a minimum.

Moderate



Moderate



Project Activity Group: Pipeline Phase: ConstructionTYPE OF IMPACT DESCRIPTION IMPACT

RATING1. POLLUTION

(a) Air pollution Air pollution may result from construction activities, in particular in the form of emissions from vehicles and construction equipment. It is expected that such impacts will be limited, relatively short-term, transient and relatively low in magnitude

Moderate

(b) Water pollution Water pollution may result from wastewater produced by construction camps and by accidental spillage of fuel, lubricants and other chemicals used in the process. Furthermore, runoff of sediments resulting from increased soil erosion and from dust an sand at construction sites may lead to increased turbidity in surface watercourses. In cases, excavated trenches may need to be kept dry through pumping out of (ground) water. The ground water will need to be disposed off, but may be contaminated or high in suspended solids.

(d) Noise pollution Noise pollution may result from construction activities, in particular from heavy vehicles and construction equipments. In particular in the semi-urban and rural environment in which most activities will take place, such noise pollution may constitute a nuisance to the population. It is, however, expected that works will progress relatively fast, and generally not last for too long.

2. SOCIAL


Construction sites, in particular excavation, as well as transportation, movement of heavy equipment and obstructions of roads may cause safety problems to the general public. The use of heavy equipments is expected to be limited. However, on the other hand, manually executed works will last longer, resulting in prolonged safety risks. Furthermore, exposed trenches pose fall hazards to humans and animals alike. The risk of such is particularly important in the case of construction works near frequented public buildings.

Moderate

(b) AestheticsConstruction sites, if not well managed, have impact on the aesthetics of the surroundings. In the case of the project, all pipelines construction takes place in rural and semi-urban areas with moderate viewpoint sensitivity. Furthermore, the impact is temporary and location-specific

Low

© Land take Although the majority of proposed pipelines will be along existing roads and in existing ROW’s, the proposed pipelines extension may result in the occupation of land used for other purposes (residential, agriculture, businesses, etc,) and which can possibly not be used as such after implementation of the works (e.g. because the ROW needs to be clear of structures). Details of this would be seen in the Abbreviated Resettlement Action Plan (ARAP)

Moderate



(d) Social conflict Social conflict may result due to diverse interest and fera of change. It may also arise due to disruption of social and economic lives during civil works.

Moderate



Project Activity Group: Pipeline Phase: ConstructionTYPE OF IMPACT


3. HEALTH(a) Public health

Public health problems may occur in the case of badly managed construction camps and work sites. In the case of the proposed works, it is not expected that large

Moderate



Low

4. EROSION(a) Soil erosion and Contamination

The construction of the water distribution network (pipelines) requires the clearance of sites from vegetation, as well as the execution of excavation works using heavy equipments. Inappropriate construction practices and soil protection measures may induce or accelerate erosion, leading to soil instability and landslides in hilly areas, with possible water pollution due run-off to surface waters. Fortunately, the majority of construction which is related to pipe laying takes place along existing roads, and not on hill slopes. Nevertheless, it may be anticipated that the clearing of vegetation in the ROW will lead to temporary increase in soil erosion, until re-vegetation has occurred.

Furthermore, contamination may occur as a result of accidental or structural spillage of fuels, lubricants chemicals, sanitary waste water, etc, as well as from leakages from inadequate protected solids waste storage facilities and sites. Good construction practices would however, largely avoid any such risks.

Moderate

Disturbance and interruption of commercial and social activities

Construction activities for the water distribution network may only be temporary, but construction activities may be spread over a long period of time. Without adequate planning and communication of activities, construction activities may cause traffic disruptions and congestion, resulting in temporary disturbance and interruption of commercial and social activities. This is particularly the case in the high density semi-urban environments.

Construction activities may furthermore cause damage to other infrastructure (roads, sewerage pipes, drains, buildings etc.), and therewith lead to short-term disruption of certain public services.

Moderate

5. FLORA AND FAUNA



(a) Impacts on flora and fauna

Certain stretches of the proposed pipeline extensions may require the removal of natural vegetation, leading to potential habitat loss of its associated fauna. However, the majority of proposed construction works will be along roads and in existing ROWs. Although clearances of bushes and shrubs will therefore not be fully unavoidable, the actual impacts’ on vegetation are expected to be low.

Moderate



Project Activity Group: Pipeline Phase: Operation and MaintenanceTYPE OF IMPACT DESCRIPTION IMPACT

RATING1. Air Pollution

Air pollution Same as construction phase.

Noise Pollution Same as in the construction phase

Water pollution Water pollution may result from the accidental spillage of fuel, lubricants and other chemicals used in the process. Furthermore, runoff of sediment resulting from increased soil erosion and from dust and sand at construction sites may lead to increased turbidity in surface watercourses. In cases, excavated trenches may need to be kept dry through pumping out of ground water. The pumped water will need to be disposed off, but may be contaminated or high in suspended solids.

Another issue related to water pollution is related to the fact that the extended distribution system will lead to increased water consumption and therewith wastewater production. This may, in turn, increase water pollution, since wastewater treatment facilities are in most cases absent. The impact is largely restricted to pipeline extensions.



Project Activity Group: Pipeline Phase: Operation and MaintenanceTYPE OF IMPACT DESCRIPTION IMPACT

RATING2. SOCIAL

Nuisance and public health risks as a result of incidental and structural (institutional) operational failures of the distribution network

Piped water distribution systems are particularly sensitive to operational failures. Since drinking water is treated before entering the network and not at the actual distribution point in the houses, anything happening to the water in between will directly pose public health risks. Accidental ruptures of pipelines and structural degradation of pipelines as a result of ageing and poor maintenance, accompanied by low pressure in the pipes will allow the intrusion of potentially polluted groundwater into the drinking water distribution system. Another issue may be the realization of branched connections (e.g. for new areas or to households),if not done in a proper manner. Parts of such connections may be illegal. Particularly sensitive may be the impact in the case of or other areas of high level pollution such as landfills and industrial zones.Furthermore, accidents and leaks due to ruptures of pipelines may cause flooding with consequential effects, in particular in terms of disturbance of socio-economic activities. Flooding may also have its impact on insects and waterborne disease vectors, as well as public health risk due to overflowing of drainage systems and open sewers and is particularly hazardous in the vicinity of concentrated pollution sources such as landfills and industrial zones

A third source of nuisance and public health risk is related to the fact that it may be expected that water consumption will increase as a result of the extended distribution system. Therewith, the production of wastewater will also increase. Since sanitary facilities in most areas are very basic, and centralized collection and treatment facilities do not exist, this may result in increased public health risks. In relative terms the increase in water production is not expected to be substantial, but local effects may be observed.

Moderate

Loss of wild lands, forests and wildlife habitat.

The area of project activities is largely in the rural and semi-urban areas, and has consequently been greatly affected by human habitation. None of the project areas is of exceptional ecological value.

-

Soil erosion and contamination

Inspection and maintenance works for the water distribution network (pipelines) requires the clearance of sites from vegetation, as well and the excavation works, possibly using heavy equipments. Inappropriate construction practices and soil protection measures may induce or accelerate erosion, leading to soil instability and landslides in hilly areas, with possible water pollution due to run-off to surface waters. Fortunately, the majority of the proposed pipelines is along existing roads. Nevertheless, it may be anticipated that clearing of vegetation on the ROW will lead to temporary increase in soil erosion, until revegetation has occurred.

Moderate



Project Activity Group: Pipeline Phase: Operation and MaintenanceTYPE OF IMPACT


3. HEALTH(a) Public health problems from construction camps and sites, and imported labour

Same as in construction phase but lower scale Moderate


Construction works such as excavations; working with heavy equipment; working in confined spaces; working on and along the traffic roads; heavy lifting, storage, handling and use of dangerous substances and wastes, working under noisy conditions will expose the workers to occupational health and safety risks

Low

Disturbance and interruption of commercial and social activities

Maintenance activities for the water distribution network may only be temporary, but without adequate planning of activities, construction activities may cause traffic disruptions and congestion, resulting in disturbance and interruption of commercial and social activities. The impact will be highest in areas of higher population density, and less important in low density areas

Maintenance activities may furthermore cause damage to other infrastructure (roads, sewerage pipes, drains, buildings, etc), and therewith lead to short-term disruption of certain public services.

Moderate

4. EROSION(a) Soil erosion and Contamination

Inspection and maintenance works for the water distribution (pipelines) requires the clearance of sites from vegetation, as well as the execution of excavation works, possibly using heavy equipment. Inappropriate construction practices and soil protection measures may induce or accelerate erosion, leading to soil instability and landslides in hilly areas, with possible water pollution due to run-off to surface waters. Fortunately, the majority of the proposed pipelines is along existing roads. Nevertheless, it may be anticipated that clearing of vegetation on the ROW will lead to temporary increase in soil erosion, until re-vegetation has occurred.

Moderate

5. FLORA AND FAUNA



(a) Impacts on flora and fauna

Inspection and maintenance works may require the removal of the vegetation, leading to potential habitat loss of its associated fauna. However, the majority of proposed pipelines will be along roads and in existing ROW’s. Although clearance of bushes and shrubs will therefore not be fully unavoidable, the actual impact on the vegetation is expected to be low.

Moderate



6 MITIGATION PLAN

6.1 Introduction

Environmental mitigation consists of measures that can reduce the negative environmental impacts associated with implementation (construction, expansion) of the project. Mitigation measures have been identified that would reduce both existing and potential impacts associated with existing facilities and upgrading/new construction.

For each of the identified impacts specific mitigation measures may be defined. The general rule in designing such measures is:

Avoidance of major impacts: major impacts are generally considered unacceptable, certainly ones that would endure into the long-term or extend over a large area; and

Reduction of major and moderate impacts to as low as reasonably practicable by planning, designing and controlling mitigation measures. This Implies that mitigation measures will be applied up until the limitations of cost-effectiveness and practical application are reached. The limitations are established by best international practice.

Implementation of good contractor practices for impacts rated as minor, in order to ensure that impacts are management within good reason.

Table 6.1 Mitigation Hierarchy for Planned Project Activities

Avoid at Source; Reduce at SourceAvoiding or reducing at source is essentially ‘designing’ the project so that a feature causing impact is designed out (e.g. pipeline re-route) or altered (e.g. reduced working width). Often called minimization.

Abate on SiteThis involves adding something to the basic design to abate the impact- pollution

controls fall within this category. Often called end-of-pipe.

Abate at ReceptorIf an impact cannot be abated on-site then measures can be implemented off-site. An example of this would be to instruct authorities in affected schools to increase the level of supervision of their pupils during the period of civil works.

Repair or RemedySome impacts involve unavoidable damage to a resource, e.g. agricultural land during pipeline construction. Repair essentially involves restoration and reinstatement type measures.



Mitigation measures related to construction of water treatment plants and extension of the distribution network.



Table 6.2: Mitigation Measures of Impacts during Pre-Construction, Construction and Operation and Maintenance Phase

PRE-CONSTRUCTION, CONSTRUCTION AND OPERATION AND MAINTENANCE PHASE.POTENTIAL

IMPACTDESCRIPTION OF MITIGATION MEASURE

1. POLLUTION(a) Air pollution Periodic maintenance of vehicles and equipment according to repair revision programme.

Use of good quality lubricants and fuel. Sprinkling of water during dry periods to prevent dust. Burning of wastes at site should be avoided to reduce air pollution.

(b) Water pollution

Waste should be stored temporarily in storage containers and disposed off at sites approved by the authority.

Sludge can be re-used/recycled into the water treatment system. Solid wastes, fuels or oils should not be disposed off into water flows. Fuel storage tanks should be leak-proof and checked daily. The tanks should be installed in a bounded area

and should be replaced in cases of leakage. Parking areas for motor vehicles should be on paved concrete surfaces. Fuelling, maintenance and cleaning of motor vehicles should be done in workshop with necessary leakage

preventive methods. Where civil works take place adjacent to a watercourse, preventive methods must be put in place to avoid

silt from falling into the Watercourse.

(c) Soil pollution The Contractor should ensure implementation of measures to protect soils from both structural and accidental contamination.

Hazardous and cleaning waste should be stored temporarily in storage facilities and at sites approved by the authority.

Fuel storage tanks should be leak-proof and checked daily. The tanks should be installed in a bounded area and should be replaced

in cases of leakage. Procedures for storage, handling of hazardous wastes and raw materials (e.g. batteries, chemicals, fuels)

should be prepared as part of the Contractors Waste Management Plan. Implementation of such procedures should be adequately

enforced and monitored. Oils should be stored in their original drums and kept on top of an impermeable surface preferably in the

contractors store room.(d) Noise pollution

Minimization of the noise sources in accordance with EPAD standards (with the allowable noise emission limits of less than

- 90dBA).- Adequate attention should be given to the control of noise and vibration on site.- Adequate maintenance of equipment and vehicles according to periodical repair/revision programme.


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- Noise preventive measures, such as mufflers, should be installed on equipment and motor vehicles.


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PRE-CONSTRUCTION, CONSTRUCTION AND OPERATION AND MAINTENANCE PHASE.POTENTIAL

IMPACTDESCRIPTION OF MITIGATION MEASURE

2. SOCIAL(a) Safety of the public

Adequate protection and signaling of work sites in particular during the night, with clear marking of the safety border on the works perimeter.

Informing the local communities of the construction programme through for example, local FM radio stations. Prohibition of access to work sites by any person having no work permit in particular where it concerns areas

marked as ‘restricted’. The latter should include at least places occupied by operation mechanical and electrical equipment

Firefighting equipment should be installed at fuel storage tanks along with collecting trays and absorbent materials.

Civil work should be avoided at night except where necessary.(b)Visual amenities

Restriction (as much as possible) of the size of construction sites and camps. Conversion of vegetation around work sites in order to serve as visual shields. Adequate organization and maintenance of work site through good housekeeping. Restoration of work sites back to pre construction state upon completion of works.

(c) Disturbance and interruption of social activities

Establishment of traffic plans at locations of blockage roads, and implementation of appropriate traffic control at such locations.

3. HEALTH(a) Public health Stagnant water on construction sites should be avoided through proper maintenance of the site and through the

removal of water from ditches especially after rainfall or groundwater infiltration to avoid the breeding of mosquitoes.

(b) Health problems

Imported workers if used should have proper housing and sanitary conditions. The number of imported workers should be reduced to the minimum while the use of local workers should be

encouraged. HIV and AIDS awareness and lecture should be given to the workers so as to reduce the spread of the disease

among the locals.(c) Occupational health safety

Labourers should adhere to basic rules. Workers should be provided with safety gadgets Contractor should ensure that worker wear their safety gadget and also observe all safety percussion. Safety signs such as ‘MEN AT WORK’ should be mounted where and when workers are working so as to alert

motorist.4. EROSION

(a) Soil erosion When civil works involves working on slopes and human stream beddings, appropriate erosion protection measures should be taken.

Excavation works should not be undertaken under aggressive weather conditions such as under heavy rain fall which will accelerate erosion of the excavated earth.

Top soils when removed, should be stored until after the trenches have been filled only then should it be re- instated.


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Itigidi, Obubra & Okpoma Water Distribution & Supply Schemes Environmental and Social Impact Assessment .

PRE-CONSTRUCTION, CONSTRUCTION, OPERATIONAND MAINTENANCE PHASES.POTENTIAL IMPACT DESCRIPTION OF MITIGATION MEASURE


The Contractor should minimize the work site to the minimum possible size in an attempt to minimize the destruction on flora and fauna found and thus prevent ecological damages.

The appropriate authority’s consent should be sought before any tree is fell. Also fees and fines should be paid where necessary to the appropriate institution.

Ecological restoration through environmental engineering should be undertaken after any human intervention. This may include restoration of top soils and introduction of new species to restore the local ecology

6. WASTE MANAGEMENT

(a) Solid waste generation

Collection and temporary storage of cleaning and sanitary wastes, as well as garbage, in containers. The Contractor should prepare a Solid Waste Management Plan, which should include:

A detailed list of the types and quantities of waste to be produced, including their hazard classes. An assessment of any opportunities for reducing solid waste generation, in particular, hazardous and

undesirable (persistent and non-re-usable) types of wastes. The most appropriate waste management plan should be determined for each type of solid waste. This

should include details on (temporary) storage, transport and a final destination for the waste. With regards to the latter, the most appropriate way would be reuse, followed by recycling/ recovery and finally disposal or incineration.

Records of types, quantities, origins, (temporary) storage, transport and elimination/ reuse of solid waste must be kept by the Contractor, and He/ She should make these available to the works supervisor upon his request, as proof of proper waste management practices.

Waste disposals should occur at only site approved by the authorities. Recycling companies should be used in transferring and, recycling and disposing of waste except for sludge

that need to be recycled into the water treatment systems. Soils and underground waters should be taken into consideration when providing and constructing material

storages. (b) Sludge/ Waste water generation

Sludge should be treated, and disposed off appropriately according to EPAD standards or re-used/recycled where feasible. Treated sludge/waste can also be economically useful for plant growth.

7. ENERGY CONSUMPTION(c) Energy Consumption Since the increase in energy consumption will not be substantial it is therefore advised that as much as

possible the use of electrical power from PHCN be encouraged since it is more sustainable (cheaper and renewable) in place of diesel operated generators.


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7 MONITORING PLAN

7.1 Monitoring Plan

The objective of the monitoring plan is to establish appropriate criteria to verify the predicted impact of the project, and to ensure that any unforeseen impacts are detected and the mitigation adjusted where needed at an early stage. The plan will ensure that mitigating measures are implemented during works: Specific objectives of the monitoring plan are to:

check the effectiveness of recommended mitigation measures;

demonstrate that sub-project activities are carried out in accordance with the prescribed mitigation measures and existing regulatory procedures; and

Provide early warning signals whenever an impact indicator approaches a critical level.

The oversight for the environmental and social management process of the sub-projects will be assured by the supervisory consultants in collaboration with the CRS-NUWSRP2 Project Implementation Unit via the Environmental Officer will be conducted during all phases of the project: design, construction, execution, operation and maintenance.

7.2 Monitoring Procedure: A fundamental approach in monitoring and evaluation segment of this project will avoid the linear conceptual model, in which monitoring and evaluation come in the end of the implementation processes. However, it is recommended that monitoring will be a continuous process throughout the entire phases of the project.

Based on measurable indicators, the progress of the project will be assessed. The Environmental Officer will prepare a long term monitoring strategy that will encompass clear and definitive parameters to be monitored for each sub-project. The monitoring plan will take into consideration the scope of development, the environmental and social sensitivity and the financial and technical means available for monitoring. The plan will identify and describe the indicators to be used, the frequency of monitoring and the standard (baseline) against


145


which the indicators will be measured for compliance with the EMP.

A number of indicators would be used in order to determine the status of the affected environment as follows: Environmental Indicators:

o Loss of vegetation; o Land degradation; o Compliance with Legislations.

Social indicators: o Population,o Income


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8 ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN

8.1 Definition and Introduction

This involves environmental and social control and mitigation measures, monitoring programs, and responsibilities which must be developed based upon an assessment of environmental and social impacts and risks for the proposed project. This EMP is intended to ensure efficient environmental management of these activities. The EMP includes the following sections: the potential environmental and social impacts, the proposed mitigation measures, arrangement for EMP implementation, responsibilities for EMP and mitigation measures

implementation; capacity building needs; and EMP implementation budget.

Summary of Impacts: The predicted adverse environmental and social impacts for which mitigation is required are identified and briefly summarised in tables 5.1 to 5.11.

Mitigation Measures: Feasible and cost effective measures to reduce potentially significant adverse environmental and social impacts to acceptable levels are defined. Details of the proposed mitigation measures can be found in Chapter 6.

Monitoring Measures: Activities to monitor the effectiveness of the defined mitigation measures are defined. These monitoring activities will allow for any additional remedial measures to be undertaken if mitigation measures are inadequate or the impacts have been underestimated within the EIA report, in particular where the results are not in compliance with the obtained permits, national standards and World Bank Group requirements and guidelines. Details of the proposed monitoring measures can be found in Chapter 7.

Institutional Measures: Responsibilities for mitigation and monitoring will be clearly defined as well as arrangements for co-ordination between the various factors responsible for mitigation. Furthermore, training and capacity building requirement are presented.


147


Implementation Schedule: The timing, frequency, and duration of mitigation measures are specified in an implementation schedule.

Cost Estimates and Sources of Funds: For initial investment and recurring expenses for implementing of measures contained in the EMP, cost estimates are presented, in order to allow for integration into the total project costs.

Design Measures: The quantities, specifications and estimated costs of design measures to avoid or mitigate negative impacts will be assessed by the civil design contractor and incorporated into the bidding documents.

8.2 Implementation Arrangement

The resources required for implementing the EMP are basically personnel and finance. The key stakeholders in the EMP implementation are the project engineers, contractor/consultants, EPAD and the World Bank.

The project team shall ensure that implementation process complies with all relevant policies and procedures of both the World Bank and Nigeria.

The project will provide staff to achieve the following objectives: propose management rules and specific measures that are

compatible with sustainable development while implementing the project

promote awareness by its personnel and the general public regarding environmental protection,

propose concrete means of applying the EMP.The environmental/social specialist attached to the project, project engineers; monitoring and evaluation officer/environmental desk officer will be responsible for the implementation of the EMP in close collaboration with EPAD. The management plan will be executed by a group of professionals or consulting firm to be hired by the project. These professionals will be qualified in the following disciplines: Environmental Assessment & Monitoring Soil & Water Conservation Air and Noise Analysis Civil Engineering


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Public Health Sociology and Socio-EconomicsThe monitoring and evaluation (M& E) officer/project engineer at the PIU will be responsible for the implementation of the environmental monitoring and the EMP. He is also to ensure that the contractors adhere to the General Environmental Management Conditions for Construction contracts. His responsibilities shall include: Coordination, liaison with and monitoring of the contractors; Compilation and preparation of periodic environmental

reports for submission to the World Bank; Review of ESIA reports from consultants in collaboration

with EPAD and FME Data Management; and Sub-project Inspections

8.2.1. World Bank

The World Bank performs the following role; Ensure that its Safeguard Policies are complied with. Responsible for the final review and clearance of the EIAs, Ensures that environmental safeguards are taken care of

during World Bank supervision mission.

8.2.2. Cross River State Water Board Limited (CRSWBL)

Ensure that there are sufficient resources (time, money and people) to manage the implementation of the EMP,

Ensure bid documents include actions to address adverse impacts resulting from construction work,

Ensure that the EMP reflects any changes during the construction process that may have a significant environmental or social impact,

Organise seminars to disseminate EMP document to relevant stakeholders, communities, etc.

8.2.3. Environmental Officer

Ensure that there are sufficient resources (time, money and people) to supervise the environmental issues of the works.

Ensure that any changes during construction process that may have significant environmental or social impact are communicated


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to the EPAD in time and advice on actions to be taken and costs involved.

Ensure that the EPAD is sufficiently informed on monitoring results.

8.2.4. Contractor

Ensure that there are sufficient resources (time, money and people) to manage the environmental issues of the works.

Be responsible for ensuring that all site staff, including sub-contractors and sub-contracted activities will comply with the projects EMP.

Ensure that any changes during the construction process that may have a significant environmental and social impact are communicated to the Supervising Engineer in time and manage them accordingly.

Ensure that the Environmental Supervising Engineer is sufficiently informed on contractor’s monitoring results.

Organising weekly work meetings.

Appendix 6 gives detailed General Environmental Management conditions for contractors during civil works.

8.3 Recommended Capacity Building and Training

8.3.1 Training NeedsBased on the assessment of the institutional capacities of the different agencies involved in the implementation of the EMP, it is recommended that the Cross River State Water Board Limited contract technical and professional assistance to provide recommended training and operational support to the PIU and other agencies involved in the EMP implementation. The recommended courses and sub-courses are given in table 8.1.


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Table 8.1: Training Course Outline


DAY 1 ENVIRONMENTAL ASSESSMENT TRAGET GROUPS

COST (NAIRA)

COURSE 1: IntroductionCOURSE 2: Impact Prediction, Evaluation and MitigationCOURSE 3: Environmental Management PlanCOURSE 4: Environmental AuditCOURSE 5: Constraints Encountered on ESIA Process

Environmental officer (EPAD)PIU StaffHead of Engineering dept-CRSWBLEnvironmental officer

508,800

DAY 2 INVOLUNTARY RESETTLEMENT

COURSE 1: Involuntary Resettlement TechniquesCOURSE 2: Conflict Redress Management

PIU StaffConflict Redress Committee members

450,000

DAY 3 HEALTH, SAFETY AND ENVIRONMENT (HSE)COURSE 1: Emergency Response and Preparedness COURSE 2: Occupational Health and Safety MonitoringCOURSE 3: Basic Safety Equipment (BSE) and Personal Protection Equipment(PPE)

Environmental officer (EPAD)PIU StaffHead of Engineering dept-CRSWBLEnvironmental officerSafety Officer

928,000

WASTE MANAGEMENT PLAN

COURSE 1: Collection, Transportation and DisposalCOURSE 2: Sludge Management Plan COURSE 3: Monitoring and Evaluation

Environmental officer (EPAD)PIU StaffHead of Engineering dept-CRSWBLEnvironmental officerHeads of waste handler, transporter and disposal site operators

151


8.3.2 Training of Contractors Personnel:

The Contractor should provide sufficient training to his/her own personnel to ensure that they are fully aware of the relevant aspects of the EMP and are able to fulfil their roles and functions (contractor’s responsibility). Specific training should be provided to those employees that have specific tasks associated with the implementation of the EMP.

General topics should be: HSE in general (working procedures) Emergency procedures Social and cultural aspects (awareness rising on social issues).

This kind of training should be a requirement of contract for the Contractor of the works.

8.4 Environmental Management Plan Budget The total cost for the EMP in Itigidi Obubra and Okpoma water schemes is estimated

at Eleven Million Nine Hundred and Fifty Nine Thousand, Eight Hundred and Sixty naira only. The break down is given in Table 8.2.

Table 8.2: Budget and Responsibilities


ITEM RESPONSIBILITY COST BREAKDOWN COST ESTIMATEIN

NIGERIAN NAIRA(N)

COST ESTIMATE

INUS DOLLARS

(US$)Mitigation CRSWBL- /EPAD 1,572,000 10,480Management CRSWBL-- 5% of Mitigation

Cost78,600 524

Monitoring CRSWBL-- / EPAD 25% of Mitigation Cost

393,000 2620

Training/Capacity Building

CRSWBL/Consultant

1,886,800 12,579

Resettlement Cost

2,343,000 15,620

Sub- Total 6,273,400 41,823Contingency 10% of Sub- Total 1,707,340. 11,382Total per LGA 7,980,740 53,205Total for three (3) LGAs

3 * Total per Town 23,942,220 159,615

152


Table 8.3 on the next page shows the EMP table portraying impacts, mitigation measures, implementation schedule and responsibilities for mitigation and monitoring.


153


Table 8.3: EMP Table Portraying Impact, Mitigation Measures, Implementation Schedule and Responsibilities for Mitigation and Monitoring

POTENTIAL IMPACT MONITORING INDICATORS

MONITORINGPARAMETERS

MONITORINGFREQUENCY

IMPLEMENTA-TION SCHEDULE

MITIGATION MEASURES MITIGATIONCOST

ESTIMATE NAIRA (US$)

RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

1. POLLUTION(a) Air pollutionAir pollution will result from automobiles, light and heavy machineries such as generators. and bulldozers

Burning of wastes such as wood, paper etc. will also contribute to pollution. These pollution rates will also be minimal as construction would not be on a large scale and will be short term.

As laying of the extension pipes will require the removal of the top soil i.e. digging in other to lay the pipes, there will be a substantial release of fine sand particles especially during the dry season, although this will be a short-termed impact since the removed earth will be replaced.

CO2 and CO Monitor CO2 and CO(maximum limit 11μg/m3 or 10ppm) in the surrounding project area

Weekly During construction activities

(i) Periodic maintenance of vehicles and equipment according to repair revision programme. Also good quality lubricants and fuels must be used.(ii) Provision of nose masks to the workers on site that are exposed to these harmful gases.

N 400,000($2,500)

Contractor/ Supervising Consultant

Project Engineers of CRSWBLEPAD

M & E officer

NOx, SOx, THC and CO

Monitor NOx (maximum limit 0.04-0.06ppm), SOx (maximum limit 0.1 ppm), THC and CO in the surrounding air before the construction and thereafter weekly during the construction phase.

Weekly Before and during construction activities

(ii) Burning of wastes at sites should be avoided to reduce air pollution. All waste should be directed to a EPAD’s approved dumpsite.

N 60,000

($375))

Particulate Matter

(maximum limit 250 μg/m3)

Monitor Particulate Matter,

Daily (Morning and Evening)

During construction activities

(iii) Sprinkling of water during dry periods to prevent dust.

N 267,000($1,668.75)

(b) Water pollutionWater pollution will result from disposal of waste water/sludge into the river or by waste water spill off.

Accidental spillage of fuel. Lubricants and other chemicals may flow into surface waters leading to water pollution. Also project activities may lead to

Water QualityPhysical property of the watercourse

Daily During operation/water treatment

(i) Dispose sludge to the EPAD designated places or re-use/recycle where feasible

NilProject

Engineers of CRSWBL

M & E officer

Water QualityBOD, COD, , TDS, TSS, salinity, pH, E coli, Salmonella

Daily


(ii) Fuel storage tanks should be leak proof and checked daily. The tanks should be installed in a bounded area and should be replaced in cases of leakage.

Nil


154


turbidity in surface watercourses due to run off of sediments resulting from increased erosion. Although this will be minimal since most of the project sites are not close to water bodies or water courses

Heavy metal composition and Turbidity of water properties

Arsenic, Lead and Mercury Weekly During

construction, operation and maintenance activities

(iii) Where civil works take place adjacent to a watercourse, preventive methods must be put in place to avoid silt from falling into the watercourse. This should be done by providing an alternate drainage route.

Nil


155




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

The extended pipeline distribution system will lead to increased water consumption and therewith wastewater production. This may, in turn, increase water pollution, since waste water treatment facilities are absent

Water Quality

Monitor BOD, chemical property such as Nitrate, pH, Heavy metals and turbidity of the nearby water bodies before the construction and thereafter monthly during the construction activities

Monthly During operation and maintenance activities

(iv) Water from pressure testing should be tested prior to discharge to make sure it meets EPAD standards. If this standard is not met, advice should be sought from EPAD in regards to treatment and discharge.

N 130,000

($812.5)

Contractor/ supervising consultant

Project Engineers of CRSWBL/EPAD

M & E officer/ Environmental Officer

(c) Soil pollutionSoil pollution may occur as a result of accidental spillage of fuels such as diesel. In addition, there may be fuel, lubricants and other hazardous chemical leakages from improper storage facilities

Chemical and Heavy metal composition in soil

Monitor biological, chemical and

property such as Nitrate, pH, Heavy metals and before the construction and thereafter

monthly during the construction

activities

Daily


(i) Hazardous and cleaning waste should be stored temporarily in storage facilities and at sites approved by the authority.

N 10,000($62.5)


Project Engineers of

CRWSBL

M & E officer/ Environmental

Officer

Heavy metal composition in soil


(ii) Fuel storage tanks should be leak proof and checked daily. The tanks should be installed in a bounded area and should be replaced in cases of leakage.

Nil



(iii) Procedures for storage, handling of hazardous wastes and raw materials (e.g. batteries, chemicals, fuels) should be prepared as part of the Contractors Waste Management Plan. Implementation of such procedures should be adequately enforced and monitored.

Nil


(iv) Oils should be stored in their original drums and kept on top of an impermeable surface preferably in the contractors store room.

Nil


156




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

(d) Noise pollutionNoise pollution may result from construction activities, in particular from heavy vehicles and construction equipments. In particular in the semi-urban and rural environment in which most activities will take place, such noise pollution may constitute a nuisance to the population. It is, however, expected that works will progress relatively fast, and generally not last for too long.

Noise level: <55 dBA by

day <45dBA by

nightBut not higher than baseline result

Should be less than 90dBA. In accordance with EPAD standard

Daily During Pre-construction/Construction activities

(i) Minimization the noise sources in accordance with EPAD standards (with the allowable noise emission limits of less than 90dBA).

Nil



CRSWBLM & E officer/ Environmental

Officer

Noise level in the surrounding project site

Should be less than 90dBA.In accordance with EPAD standard

Daily During construction activities

(ii) Adequate attention should be given to the control of noise and vibration on site.

Nil




(iii) Adequate maintenance of equipment and vehicles according to periodical repair/revision programme.




(iv) Noise reduction measures, such as mufflers, should be installed on equipment and motor vehicles.

N 30,000($187.5)

(2) SOCIAL(a) Safety of the publicConstructions sites, in particular excavations, as well as transportation, movement of heavy equipment and obstructions of roads may cause safety problems to the general public. The use of heavy equipment is expected to be limited. However, on the other hand, manually executed works will last longer, resulting in prolonged safety risks.

Furthermore, exposed trenches pose fall hazards

Daily Before and during construction, activities

(i) Informing the local communities of the construction programme through, local FM radio stations, and public consultation.

N 80,000($500)


Project Engineers of CRSWBL


Complaints from the residents affected people

Daily

During construction, activities

(ii) Prohibition of access to work sites by any person having no work permit in particular were it concerns areas marked as ‘restricted’. The latter should include at least places occupied by operation mechanical and electrical equipment and chemicals

Daily During construction, activities

(iii) Firefighting equipment such as fire extinguishers should be installed at fuel storage tanks along with collecting trays and absorbent materials.

N 25,000($156.25)


157


to humans and animals alike especially at night. The risk of such is particularly important in the case of construction works near frequented public buildings such as the schools.

Complaints from the project site residents.

DailyDuring construction, operation and maintenance activities

(iv) Adequate protection and signaling of work sites in particular during the night, with clear marking of the safety border on the works perimeter. Civil works should be avoided at night except where necessary

N 30,000($187.5)


158




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN

TATION

SUPERVISION

(b) Visual AmenitiesThe aesthetics of the surroundings around the construction sites may be affected if not well management. In the case of the project, all pipeline constructions will take place in urban and semi- urban areas with moderate viewpoint sensitivity. Moreover, the impact is location specific and temporal

Complaints from the project site

residents.


(i) Restriction (as much as possible) of the size of civil work site.





(ii) Daily cleaning of work sites must be performed at the end of each working day

DailyAfter construction, and during operation and maintenance activities

(iii) Restoration of work sites back to pre construction state upon completion of works.

(iv) Each working site should be provided with a bucket or dustbin were such waste must be dropped and later taken to a dump site approved by EPAD


See 2(a)(i)During construction, operation and maintenance activities

(ii)Public consultations should be held with the Project Affected Persons (PAP’s).



(iii) The work site should be reduced as much as possible to ONLY the area designed to be worked on each day. In addition, obstruction of facilities such as roads should be minimized.


159




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

Maintenance activities may cause damage to other infrastructure (roads, sewerage, drains, etc), and therewith lead to (short- term) disruption of certain public services. Although these may be temporal, but without adequate planning of activities, construction activities may cause traffic disruptions and congestion, resulting in disturbance and interruption of commercial and social activities. The impact will be highest in areas of higher population density, and less important in low density (more rural) areas.

Complaints from the project site

residents.

Before construction begins

(v) Alternative route(s) or side of the road will be recommended by the consultant were feasible to avoid or minimize impacts.



CRSWBLEPAD

M & E officer/ Environmental

Officer

Daily During operation and maintenance phase

(vii) Establishment of traffic plans at locations of blockage roads, and implementation of appropriate traffic control at such locations.

Nil

During operation and maintenance phase

(viii) Informing the local communities of the construction and maintenance programme through for local FM radio stations should it be required that public services will be disrupted.

See 2(a)(i)

3. HEALTH(a) Public HealthIn the tropical climate of Nigeria, stagnant water which may form in pits, holes, excavated ditches etc, at construction sites creates a habitat for insect disease vectors such as malaria, which within the urban context of the project activities, is an issue of importance

Complaints from the project site residents and hospital record

Daily During construction, operation and maintenance phase

(i) Stagnant water on construction sites should be avoided through proper maintenance of the site and through the removal of water from ditches especially after rainfall or groundwater infiltration to avoid the breeding disease vectors such as mosquitoes. This should be done by the use of water pumps whenever necessary.

N 20,000($125)



EPAD

M & E officer/Environmental

officer


160




MONITORING FREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

Operational failures are peculiar with piped water distribution system. Since drinking water is treated before entering the network and not at the actual distribution point in the houses (the traditional way), anything happening to the water in between will directly pose public health risks. Ruptures of pipelines and structural degradation of pipelines as a result of ageing and poor maintenance, accompanied by low pressure in pipes will allow the intrusion of potentially polluted groundwater into the drinking water distribution system. Another issue may be the realization of branched connections (e.g. for new area or to households), if not done in a proper manner. Part of such connections may be illegal. The impact in the case of ruptures in the vicinity of open or damaged sewers, the drainage system (often operating as an open sewer) or other areas of high level pollution such as landfills and industrial zones is particularly sensitive will pose a serious health risk to those who are supplied water from such network.


Daily

During, operation and maintenance phase

(ii) During the operation and maintenance phase, care must be taken to make sure the pipeline ROW’s is kept in order to avoid indigenes building new structure on or within the pipeline ROW’s. This may course ruptures in the already laid pipes particularly in the laying of residential foundations. Contractor/

supervising consultant


EPAD


officer


161




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

Flooding with consequential effects, may occur due to rupture of pipelines as a result of leaks and accidents. Possible occurrence of overflow of the drainage systems and open sewers is particularly hazardous in the vicinity of concentrated pollutants such as landfills and industrial zones. This may also have its impacts on insects and waterborne disease vectors, which poses as public health risk.


During, operation and maintenance phase

(b) Health Problems From Construction Camps And Sites, And Imported Labour

In the case of badly managed construction camps and work sites public health problems may occur, although in this case it is not expected that large construction camps will be established, or that work sites will be large enough to cause important hazards to the general populate. In view of the magnitude of works, the number of imported labourers will not be substantial, not withstanding the issues of increase or introduction of HIV and AIDS and also social vices will not be under estimated.


During construction, phase

(i) Imported workers if used should have proper housing and sanitary.



M & E officer/



(ii) The number of imported workers should be reduced to the minimum while the use of local workers should be encouraged.


MonthlyDuring construction, phase

(iii) HIV and AIDS awareness and lecture should be given to the workers so as to reduce the spread of the disease among the locals.

N 60,000($375)

Weekly During construction, phase

(iv) Contraceptives should be distributed free among the workers

N 100,000($625)


162




MONITORINGFREQUENCY



ESTIMATE Naira (US$)

RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

(c) Occupational Health And SafetyConstruction works such as: excavations; working with heavy equipment; working in confined spaces; working on and along the traffic roads; heavy lifting, storage, handling and use of dangerous substances and wastes, working under noisy and harsh weather conditions will expose the workers to occupational health and safety risks

During maintenances phase of the project, maintenance staff may have to work close to the road and within the ROW’s. This may result in knock down hazards to the maintenance

Rate of casualty

Daily During construction, phase

(i) Labourers should adhere to basic rules.



EPAD


Officer

Daily During construction, operation and maintenance activities

(ii) Safety signs such as ‘MEN AT WORK’ should be mounted were and when workers are working so as to alert motorist In addition, work sites must be clearly demarcated with ropes and tapes

2(a)(iv)

Daily(iii) Safety gadgets such as boots, nose guards and helmets should be provided

N 200,000($1250)


(iv) Contractor should ensure that workers wear their safety gadget such as helmets, nose guards and boots. Also to observe all safety percussion.


.(vi) There should be a First Aid Box ALWAYS on each site incase of mishaps

N 40,000($250)

4. EROSION(a) Soil ErosionWater pipeline construction for the network distribution of water entails clearance of vegetation from site and the usage of heavy equipment for the work. The compaction of soil by heavy equipment and

Erosion and turbidity of surface water.

During construction phase

(i) Where civil works involves working on slopes and human stream beddings, appropriate erosion protection measures should be taken. An alternate drainage route should be provided.


Project Engineers of EPADEnvironmental officer of CRSWBLM & E officer/Environmental Officer


163




MONITORINGFREQUENCY




RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

loss of vegetation cover tends to accelerate erosion activity leading to secondary impacts such as soil instability, landslides in undulating landform and also surface water pollution due to runoff, Nevertheless most of the pipeline construction activities will take place along existing roads and not undulating landforms thereby reducing erosion impact to a minimum.

The clearance of sites of vegetation will be required for the inspection and maintenance of the water distribution network. Inappropriate practices and soil protection measures will induce or accelerate erosion, leading to soil instability

Erosion and turbidity of

surface water.

During construction, operation and maintenance activities

(ii) Excavation works should not be undertaken under aggressive weather conditions such as under heavy rain fall which will accelerate erosion of the excavated earth.



EPADEnvironmental

officer of CRSWBL

M & E Officer/Environmental

Officer

Daily

During construction, operation and maintenance activities

(iii) Top soils when removed, should be stored until after the trenches have been filled only then should it be re- instated

Daily

During, operation and maintenance activities

(iv) De-vegetation should be reduced to work areas, and top soil removed to access pipelines should be stored and after maintenance, replaced.

5. FLORA AND FAUNA(a) Impacts On Flora And FaunaAs the construction will require removal of natural vegetation for the proposed new pipeline extension which may lead to habitat destruction of natural existing fauna. Although most of the new pipeline extension work will

Daily During construction, operation and maintenance phase

(i) The Contractor and maintenance staff should minimize the work site to the minimum possible size in an attempt to minimize the destruction on flora were found and thus prevent ecological damages.


Project Engineers of CRSWBLEnvironmental officer of EPADM & E officer/Environmental Officer


164



MONITORING PARAMETERS

MONITORING

FREQUENCY


MITIGATION MEASURES MITIGATIONCOST ESTIMATE

NAIRA($)

RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

occur along existing roads or ROWs with less bushes and shrubs removal making vegetation impact to be low due to low ecological value


Project Engineers of CRSWBLEnvironmental officer of EPAD

M & E officer/

Environmental Officer

(b) Access Due To Construction Of Pipeline Row’s Through Bush And Forest Land

In areas were the pipelines extensions require the creation of new ROW’s through forest land. This might result in improved access to natural sites previously less accessible which will lead to alteration of the native ecosystem


(i) The appropriate authority’s consent should be sought before any tree is fell. Also fees and fines should be paid where necessary in accordance to EPAD regulations and standards.


Project Engineers of CRSWBLEnvironmental officer of EPAD

M & E officer/

Environmental Officer


(ii) Ecological restoration through environmental engineering should be undertaken after any human intervention. This may include restoration of top soils and introduction of new species to restore the local ecology


165




MONITORINGFREQUENCY

IMPLEMEN-TATION

SCHEDULE



RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

6. WASTE GENERATION(a) Solid Waste GenerationWaste will be produced by clearance of trees and bush on pipeline ROW’s. The amounts of waste produces will be much more than in the operation and maintenance phase.

Weekly(i) Collection and temporary storage of cleaning and sanitary wastes, as well as garbage, in containers.(ii) The Contractor should prepare a Solid Waste Management Plan, which should include

+A detailed list of the types and quantities of waste to be produced, including their hazard classes.+An assessment of any opportunities for reducing solid waste generation, in particular of hazardous and undesirable (persistent and non-re-usable) types of wastes.+The most appropriate waste management plan should be determined for each type of solid waste. This should include details on (temporary) storage, transport and a final destination for the waste. With regards to the latter, the most appropriate way would be reuse, followed by recycling/ recovery and finally disposal or incineration.+How and by whom the waste management measures would be implemented Contractor or third party- specifying any such third party involvement.

(iii) Records of types, quantities, origins, (temporary) storage, transport and elimination/ reuse of solid waste must be kept by the Contractor, and He/ She should make these available to the works supervisor upon his request, as proof of proper


Project Engineers of CRSWBLEPADM & E officer/Environmental Officer


166


waste management practices


167




MONITORING

FREQUENCY

IMPLEMENTA-TION

SCHEDULE

MITIGATION MEASURES MITIGATION COST ESTIMATE NAIRA

(US$)

RESPONSIBILITY

IMPLEMEN-TATION

SUPERVISION

Waste generated from construction workers such as used pure water sachets, waste, etc.

(iv) Waste disposals should occur at only site approved by the authorities.


EPAD

M & E officer/Environmental Officer

(v) Recycling companies should be used in transferring and, recycling and disposing of waste

Waste sludgeSand and suspended particulate matters will be generated during water treatment

WeeklyDuring operation and maintenance phase

1) Sludge produced should be treated and used as manure for agriculture

2) Stabilized sludge, freed from any excess water, with the dry substance content of no less than 20%, should be collected in separate closed tanks and transported to the EPAD designated disposal site for this category.

N 120,000($750)



EPAD


(b) Waste Water The aeration and sedimentation activities is expected to generate waste water

BODs COD Total nitrogen Total

Phosphorus Number of

faecal coliforms

mg O2/l 15 mg O2/l 10 mg N/l 0.6 mg N/l 5 x 10 5

TC/l 104 FC/l

Daily Once after water treatment operation

1) The sludge/Waste water generated shall be transported to a waste water treatment plant to be built in the facility

2). The waste materials from the screens and the sand trap shall be collected in closed tanks and transported daily to the designated disposal site in line with the EPAD standards.



EPAD


7.ENERGY CONSUMPTIONThe use of energy for the distribution of water will be required. The relative increase in energy consumption as a result of the extensions to the pipeline distribution

(i) Since the increase in energy consumption will not be substantial it is therefore advised that as much as possible the use of electrical power from PHCN should be used since it is more sustainable (cheaper and renewable) in place of diesel


Project Engineers of CRSWBLM & E officer/Environmental Officer


168


system is, however, not expected to be substantial.

operated generators.

Sub- Total (Mitigation Cost)


169


9 PUBLIC CONSULTATION

9.1 Introduction The consultation process and outcome was seen by the consultant as both an early and mandatory exercise in terms of the objective of project sustainability and as the best strategy to achieving the overall scope of the activities of the ESIA.Consultation Strategy

The Public Consultation process for the project began during the early stage of reconnaissance level-survey. The consultant, after familiarization meetings with the client (Cross River State Water Board Limited) requested for the contacts of all the area managers in the project areas. This was important not only to facilitate the reconnaissance survey of the project environment, but also to facilitate the process of meeting with other stakeholders.The consultant with the assistance of CRSWBL staff in the designated areas identified the stakeholders and they include:

Community leaders, Community associations; Women Associations Youths Local Government Authorities, Cross River State Water Board Limited.

A familiarization visitation was made to the various institutions and concerned stakeholders and the outcome were:

Scheduling of meeting dates which was to incorporate a larger audience from the various stakeholders.

Organization of locations for the public consultations.

Summary of the Public ConsultationsThe proceedings took the form of:

Introduction of the project to community members and stakeholders; Informing them of the locations for the proposed installations/plants and the

nature of the project; Entertaining comments and questions from stakeholders, and Addressing concerns raised by stakeholders.

The list of attendance at the public consultations is found in appendix 5, while Table 9.1 captures the summary of the proceedings and outcomes of the public consultations. It also provided comments/suggestions that may be suitable to the concerns raised and general observations made about the project areas.


170


Table 9.1: Summary of Public Consultations in Abi, Obubra and Yala DATE LGA LOCATION OF

MEETINGMAJOR CONCERNS COMMENTS

20/09/09 ABI ITIGIDI TOWN HALL

They express their deep concern about the inability to get constant flow of water supply, that, water is life and essential if it is denied, the community is also denied by the CRSWBL.

1). There was high level expression of happiness for the project.

2)The response to to pay water bill as and when due was high

3) Water distribution kiosk should be constructed in several places to make for proximity for the people.

4). To ensure the sustainability of the project, CRSWBL should lease with local middle men to site/construct several points of water distribution kiosks in the villages.

5). It may be necessary to extend water only to households that request by application.

6). Further to comment no 5 the public consultation was used to sensitize community members about this. The awareness needs to continue during project implementation.

EMINEKPON The people of the area experience high cost of water especially during dry season.

20/09/09

OBUBRA ADUN BEACH

The people of the community want the CRSWBL to engage their youths during project implementation for protection of facilities.

21/09/09 ABABENE 1). There has been several failed promises regarding infrastructural development in the area by past governments2). There are incidences of sicknesses such as arthritis and typhoid which may be due to sufferings imposed by proximity to and lack of portable water 3). There are cases of River blindness and guinea worm

18/09/09 YALA

CHIEF’S PALACE IDIGBO. OPKOMA.

1). The people of the area experience high cost of water especially during dry season.2).Available boreholes in the area have high levels of salinity3).There is poor access road to the streams and farms in the area


171


REFERENCES

SGI Ingenierie SA of Geneva, Consulting (2009), Inception Report of the Feasibility Studies & Detailed Engineering Design for the Rehabilitation/Construction of the Water Production & Distribution System for Itigidi, Obubra and Okpoma.

Earthguards Limited (2009), Environmental and Social Impact Assessment Report for the Water Production, Rehabilitation and Extension Scheme in Ikom, Obudu and Ogoja,

World Bank Financed National Urban Water Sector Reform Project (NUWSRP 1) Environmental and Social Management Framework Document (2008)

Environ Quest (2008), Final Report on Urban Works Rehabilitation – Environmental Management Plan no: E1425, Vol 3.

IFC (2007), Handbook on General Environmental Health and Safety Guidelines

IFC (2007), Handbook on Health, and Safety Guidelines for Water and Sanitation

IFC (2007), General Environmental Health and safety Guidelines for Cement and Lime Manufacturing.

Edgar Rojas (2005), Assessment of Environmental and Social Risks in Loan and Investment Projects

Water Sector Restructuring Project Ghana “Resettlement Training Plan (2004),” no: 9P2503, Ref: 9P2503/R/FG/Rott1

Peter Scheren/MartineLeman/Henk Blok – Royal Haskoning (2004), Water Sector Restructuring Project “Environmental Assessment and Management Plan” no: 9P2503, Ref: RH/Nijm/R02/PS/ML/HB

Philip Stapleton & Margaret Glover (2001) Environmental Management System: An Implementation Guide for Small and Medium-Sized Organizations

World Bank (1999), Safeguard Policies: Operational/Bank Policy 4.01

World Bank (1998), Pollution Prevention and Abatement Handbook

Cross River State Environmental Protection Edicts (1994)

National Air Quality Guidelines for maximum exposure (Daily average of hourly values) Table 111-3, Section 4.4.5(EGASPIN – revicesed2002)

GKW Consult (1994), Final Report on Rehabilitation/Expansion of Itigidi and Obubra Water Schemes.


172


Nigerian Ambient Air Quality Standard, Guidelines and Standards for environmental pollution control in Nigeria (FEPA)


173


APPENDICIES

Appendix 1: List of ESIA Preparers


NO NAMES POSITION

1 Mr. Joseph Akpokodje Environmental/Resettlement Specialist/ Team Leader

2 Mike Toko Chemical Specialist

3 Ovie Akpokodje Civil Engineering/Water Specialist

4 Mr Omezikam Onuoha Environmental Biology Specialist

5 Mr Oliver Nwuju Socio-Economist Specialist

6 Mr. Anthony Ekpenkhio Environmental Assistant

7 Mr. Sebastine Iyobhebhe

GIS Specialist

8 Max Uma Environmental Management Assistant

9 Tope Ajayi HSE /Waste Management Specialist

174


Appendix 2: Summary of World Bank Environmental and Social Safeguard Policies

Environmental Assessment (OP 4.01). Outlines Bank policy and procedure for the environmental assessment of Bank lending operations. The Bank undertakes environmental screening of each proposed project to determine the appropriate extent and type of EA process. This environmental process will apply to all CRS-NUWSRP 2 sub-projects.

Natural Habitats (OP 4.04). The conservation of natural habitats, like other measures that protect and enhance the environment, is essential for long-term sustainable development. The Bank does not support projects involving the significant conversion of natural habitats unless there are no feasible alternatives for the project and its siting, and comprehensive analysis demonstrates that overall benefits from the project substantially outweigh the environmental costs. If the environmental assessment indicates that a project would significantly convert or degrade natural habitats, the project includes mitigation measures acceptable to the Bank. Such mitigation measures include, as appropriate, minimizing habitat loss (e.g. strategic habitat retention and post-development restoration) and establishing and maintaining an ecologically similar protected area. The Bank accepts other forms of mitigation measures only when they are technically justified. Should the sub-project-specific EMPs indicate that natural habitats might be affected negatively by the proposed sub-project activities without suitable mitigation measures, such sub-projects will not be funded under the project.

Pest Management (OP 4.09). The policy supports safe, affective, and environmentally sound pest management. It promotes the use of biological and environmental control methods. An assessment is made of the capacity of the country’s regulatory framework and institutions to promote and support safe, effective, and environmentally sound pest management. This policy will most likely not apply to CRS-NUWSRP2 sub-projects.

Involuntary Resettlement (OP 4.12). This policy covers direct economic and social impacts that both result from Bank-assisted investment projects, and are caused by (a) the involuntary taking of land resulting in (i) relocation or loss of shelter; (ii) loss of assets or access to assets, or (iii) loss of income sources or means of livelihood, whether or not the affected persons must move to another location; or (b) the involuntary restriction of access to legally designated parks and protected areas resulting in adverse impacts on the livelihoods of the displaced persons. This policy will most likely not apply to the project, as it will not entail taking of land or restriction of access to sources of livelihood.

Indigenous Peoples (OD 4.20). This directive provides guidance to ensure that indigenous peoples benefit from development projects, and to avoid or mitigate adverse effects of Bank-financed development projects on indigenous peoples. Measures to address issues pertaining to indigenous peoples must be based on the informed participation of the indigenous people themselves. Sub-projects that would have negative impacts on indigenous people will not be funded under CRS-NUWSRP2.


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Forests (OP 4.36). This policy applies to the following types of Bank-financed investment projects: (a) projects that have or may have impacts on the health and quality of forests; (b) projects that affect the rights and welfare of people and their level of dependence upon or interaction with forests; and (c) projects that aim to bring about changes in the management, protection, or utilization of natural forests or plantations, whether they are publicly, privately, or communally owned. The Bank does not finance projects that, in its opinion, would involve significant conversion or degradation of critical forest areas or related critical habitats. If a project involves the significant conversion or degradation of natural forests or related natural habitats that the Bank determines are not critical, and the Bank determines that there are no feasible alternatives to the project and its siting, and comprehensive analysis demonstrates that overall benefits from the project substantially outweigh the environmental costs, the Bank may finance the project provided that it incorporates appropriate mitigation measures. Sub-projects that are likely to have negative impacts on forests will not be funded under the project

Cultural Property (OP 11.03). The term “cultural property” includes sites having archeological (prehistoric), paleontological, historical, religious, and unique natural values. The Bank’s general policy regarding cultural property is to assist in their preservation, and to seek to avoid their elimination. Specifically, the Bank (i) normally declines to finance projects that will significantly damage non-replicable cultural property, and will assist only those projects that are sited or designed so as to prevent such damage; and (ii) will assist in the protection and enhancement of cultural properties encountered in Bank-financed projects, rather than leaving that protection to chance. The management of cultural property of a country is the responsibility of the government. The government’s attention should be drawn specifically to what is known about the cultural property aspects of the proposed project site and appropriate agencies, NGOs, or university departments should be consulted; if there are any questions concerning cultural property in the area, a brief reconnaissance survey should be undertaken in the field by a specialist.

Safety of Dams (OP 4.37). For the life of any dam, the owner is responsible for ensuring that appropriate measures are taken and sufficient resources provided for the safety to the dam, irrespective of its funding sources or construction status. The Bank distinguishes between small and large dams. Small dams are normally less than 15 m in height; this category includes, for example, farm ponds, local silt retention dams, and low embankment tanks. For small dams, generic dam safety measures designed by qualified engineers are usually adequate. This policy does apply to the project and the mitigatory measures via the preparation of a dam safety status report have already been undertaken.

Projects on International Waterways (O 7.50). The Bank recognizes that the cooperation and good will of riparian is essential for the efficient utilization and protection of international waterways and attaches great importance to riparian making appropriate agreements or arrangement for the entire waterway or any part thereof. Projects that trigger this policy include hydroelectric, irrigation, flood control, navigation, drainage, water and sewerage, industrial, and similar


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projects that involve the use or potential pollution of international waterways. This policy will not apply to the project.

Disputed Areas (OP/BP/GP 7.60). Project in disputed areas may occur between the Bank and its member countries as well as between the borrower and one or more neighbouring countries. Any dispute over an area in which a proposed project is located requires formal procedures at the earliest possible stage. The Bank attempts to acquire assurance that it may proceed with a project in a disputed area if the governments concerned agree that, pending the settlement of the dispute, the project proposed can go forward without prejudice to the claims of the country having a dispute. This policy is not expected to be triggered by CRS-NUSRP2 sub-projects.


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Appendix 3:- Socio-Economic Data Questionnaire

SECTION A. IDENTIFICATION

1) Identification Number2) Questionnaire administration from point of entry (a) Left side…….(b)

Right side………3) Landmark(s) at point of entry …………………………………………………………….4) Town/Location of Interview:

………………………………………………………………….

5) Name and Signature of Interviewer: ……………………………………………………………

6) Name and Signature of Supervisor: …………………………………………………………….

7) Date: …………………………………………………………………………………………..8) Time Interview Started: ………………………… Time Ended:

………………………………..

SECTION B: SOCIOECONOMIC ATTRIBUTES

1) Name of Household Head ……………………………………………………2) Name of Respondent ………………………………………………………….3) Relationship of Respondent to Household Head …………………………………

a) Wife 1 of HH b) Son of HH c) Daughter of HH d) Father of HH

e) Mother of HH f) Brother of HH g) Sister of HH h) Others Specify:

4) House Address ………………………………………………………..5) Sex (M)…… (F)…….6) Age ………………………..7) Religion (Christian)…… (Moslem)…… (Traditional)…… (Others)…..

(Please Tick One ) 8) Marital Status (Single)…… (Married)…… (Divorced)……. (Widow/Widower)……. (Please Tick One) 9) Number of wives …………………………10) How long have you lived in this community …………………………..11) How many persons live in your Household (i.e. Eat from the same pot)…………


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12) How many persons in your house hold fall into the following age categories?Categories Male Female Total0-4yrs5-9yrs10-14yrs15-19yrs20-24yrs25-29yrs30-34yrs35-39yrs40-44yrs45-49yrs50-54yrs55-59yrs60-64yrs65-aboveTotal

13) What is your highest educational qualification? (i) None … (ii) FSLC … (iii) WASC/SSCE … (iv) TCII/OND ….(v) HND/Degree … (vi) MSc/PhD … (vii) Islamic studies…..

14) How many members of your household fall under the following educational categories?

Categories Male Female

Total

Primary School (attempted/still attending)Primary School-Completed (Living Certificate)Secondary School (attempted/still attending)Secondary School-Completed (O’Levels)Tertiary Institution (attempted/ still attending)Tertiary Institution (Completed)Islamic StudiesTotal

15) What is your Occupation (indicate the category you belong to and the level/profession):

Category

Public sector employee

Private sector employee

Self employed

Student

Senior Mgt Staff Middle level Staff Junior Staff Professional Artisan Businessman Part time Others


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16). How many employed members of your household are engaged in occupation listed below?

Categories Male Female TotalFarmingMiningHuntingCraft makingTradingCivil serviceCompany employmentSelf employment HousewifeTotal

17) What is your Annual Income? i) N0 –50,000……ii) N 51, 000- 100,000…….iii) N 100,101- 500,000……iv) N 500,000 and above……If Not Known, what is your Monthly income……………….OR Daily income……………..

18) Estimate the monthly/annual income of other members of your household.i) N 0 – 50,000……ii) N 51, 000- 100,000…… iii) N 100,101- 500,000…iv)N 500,000 and above…….

SECTION C: AVAILABILITY OF AMENITIES

19) How would you describe the condition of the following amenities in town you live/community?

Excellent

Very Good

Good Fair Poor

Roads to the communityRoads within the communitySchools in the communityPublic Health InstitutionsPotable WaterPublic ElectricityCommunication facilities (Postal Service, Telephone)Public recreation facilities

20). What is the major source of water available to your household? (Please Tick One)

i. River …………………… ii. Borehole_ (commercial)……………iii. Pond ……………………… iv. Borehole (private)………………v Public pipe-borne water ………… vi. Water Vendor ……………….vii. Well water…………..


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21) If a public pipe borne water, how regular does the tap flow in a week?(i) Regularly -------------------- (ii) Occasionally ……….. (iii) Rarely

………………………

22) How long does it take you in minutes/hours to get to your water source ………………….

23). How much do you spend/pay in a month for water bill? ………………………

24). Estimate the number of gallons of water you use in your household daily? _____

25). If you purchase water daily, how much do you spend ……………………………………

26a.) Are you willing to pay more for a better service? Yes……….No……. (Tick One)


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26b) State the minimum and maximum amount you are willing to pay monthly?Monthly

CostMinimum amount

Maximum

amount N 3000 N2000 N 1500 N 1000 N 500 N300 N200

27) If not, what are your reasons? (i)……………………………………………………………………………… (ii)…………………………………………………………………………………………(iii)……………………………………………………………………………….…………

28) . What is the primary source of electricity/ light to your community? (Please Tick One)i) Hurricane Lamp ……… ii) Private Generators………..iii) Community Generators……… iv) State Government Utilities Board………

v) Company Operating in your community…….vi) PHCN (National Grid)……

29) What is the secondary source of electricity? (Please Tick One)i) Hurricane Lamp …………… ii) Private Generators…………iii) Community Generators………iv) Company Operating in your community………

30) What is the main fuel you use for cooking? (Please Tick One)i) Firewood ……………. ..ii) Charcoal…………..

iii) Kerosene/ Oil ………. iv) Gas……………v) Electricity …………… .vi) Crop residue/ Saw dust……………vii)Animal Wastes ……… .viii) Others

31) What type of toilet facility do you use? (Please Tick One)i) Pit………… ……ii) Bush…………

iii) Prier Head………iv) Bucket…………v) Water Closet…… vi) Others (Specify)……

32) How do you dispose of your household refuse? (Please Tick one)i) Private Open Dump ii) Public Open Dumpiii Organized Collection iv) Burningv) Bush vi) Burying


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Appendix 4: Construction Contracts Environmental Management Conditions General1. In addition to these general conditions, the Contractor shall comply with any specific

Environmental Management Plan (EMP) or Environmental and Social Management Plan (ESMP) for the works he is responsible for. The Contractor shall inform himself about such an EMP, and prepare his work strategy and plan to fully take into account relevant provisions of that EMP. If the Contractor fails to implement the approved EMP after written instruction by the Supervising Engineer (SE) to fulfill his obligation within the requested time, the Owner reserves the right to arrange through the SE for execution of the missing action by a third party on account of the Contractor.

2. Notwithstanding the Contractor’s obligation under the above clause, the Contractor shall implement all measures necessary to avoid undesirable adverse environmental and social impacts wherever possible, restore work sites to acceptable standards, and abide by any environmental performance requirements specified in an EMP. In general these measures shall include but not be limited to:

(a) Minimize the effect of dust on the surrounding environment resulting from earth mixing sites, asphalt mixing sites, dispersing coal ashes, vibrating equipment, temporary access roads, etc. to ensure safety, health and the protection of workers and communities living in the vicinity of dust producing activities.

(b) Ensure that noise levels emanating from machinery, vehicles and noisy construction activities (e.g. excavation, blasting) are kept at a minimum for the safety, health and protection of workers within the vicinity of high noise levels and nearby communities.

(c) Ensure that existing water flow regimes in rivers, streams and other natural or irrigation channels is maintained and/or re-established where they are disrupted due to works being carried out.

(d) Prevent bitumen, oils, lubricants and waste water used or produced during the execution of works from entering into rivers, streams, irrigation channels and other natural water bodies/reservoirs, and also ensure that stagnant water in uncovered borrow pits is treated in the best way to avoid creating possible breeding grounds for mosquitoes.

(e) Prevent and minimize the impacts of quarrying, earth borrowing, piling and building of temporary construction camps and access roads on the biophysical environment including protected areas and arable lands; local communities and their settlements. In as much as possible restore/rehabilitate all sites to acceptable standards.


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(f) Upon discovery of ancient heritage, relics or anything that might or believed to be of archeological or historical importance during the execution of works, immediately report such findings to the SE so that the appropriate authorities may be expeditiously contacted for fulfillment of the measures aimed at protecting such historical or archaeological resources.

(g) Discourage construction workers from engaging in the exploitation of natural resources such as hunting, fishing, and collection of forest products or any other activity that might have a negative impact on the social and economic welfare of the local communities.

(h) Implement soil erosion control measures in order to avoid surface run off and prevents siltation, etc.

(i) Ensure that garbage, sanitation and drinking water facilities are provided in construction workers camps.

(j) Ensure that, in as much as possible, local materials are used to avoid importation of foreign material and long distance transportation.

(k) Ensure public safety, and meet traffic safety requirements for the operation of work to avoid accidents.

3. The Contractor shall indicate the period within which he/she shall maintain status on site after completion of civil works to ensure that significant adverse impacts arising from such works have been appropriately addressed.

4. The Contractor shall adhere to the proposed activity implementation schedule and the monitoring plan / strategy to ensure effective feedback of monitoring information to project management so that impact management can be implemented properly, and if necessary, adapt to changing and unforeseen conditions.

5. Besides the regular inspection of the sites by the Supervising Engineer for adherence to the contract conditions and specifications, the Owner may appoint an Inspector to oversee the compliance with these environmental conditions and any proposed mitigation measures. State environmental authorities may carry out similar inspection duties. In all cases, as directed by the SE, the Contractor shall comply with directives from such inspectors to implement measures required to ensure the adequacy rehabilitation measures carried out on the bio-physical environment and compensation for socio-economic disruption resulting from implementation of any works.

Worksite/Campsite Waste Management

6. All vessels (drums, containers, bags, etc.) containing oil/fuel/surfacing materials and other hazardous chemicals shall be bonded in order to contain spillage. All waste containers, litter and any other waste generated during the construction shall be collected and disposed off at designated disposal sites in line with applicable government waste management regulations.


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7. All drainage and effluent from storage areas, workshops and camp sites shall be captured and treated before being discharged into the drainage system in line with applicable government water pollution control regulations.

8. Used oil from maintenance shall be collected and disposed off appropriately at designated sites or be re-used or sold for re-use locally.

9. Entry of runoff to the site shall be restricted by constructing diversion channels or holding structures such as banks, drains, dams, etc. to reduce the potential of soil erosion and water pollution.

10. Construction waste shall not be left in stockpiles along the road, but removed and reused or disposed of on a daily basis.

11. If disposal sites for clean spoil are necessary, they shall be located in areas, approved by the SE, of low land use value and where they will not result in material being easily washed into drainage channels. Whenever possible, spoil materials should be placed in low-lying areas and should be compacted and planted with species indigenous to the locality.

Material Excavation and Deposit

12. The Contractor shall obtain appropriate licenses/permits from relevant authorities to operate quarries or borrow areas.

13. The location of quarries and borrow areas shall be subject to approval by relevant local and national authorities, including traditional authorities if the land on which the quarry or borrow areas fall in traditional land.

14. New extraction sites:

a) Shall not be located in the vicinity of settlement areas, cultural sites, wetlands or any other valued ecosystem component, or on high or steep ground or in areas of high scenic value, and shall not be located less than 1km from such areas.

b) Shall not be located adjacent to stream channels wherever possible to avoid siltation of river channels. Where they are located near water sources, borrow pits and perimeter drains shall surround quarry sites.

c) Shall not be located in archaeological areas. Excavations in the vicinity of such areas shall proceed with great care and shall be done in the presence of government authorities having a mandate for their protection.

d) Shall not be located in forest reserves. However, where there are no other alternatives, permission shall be obtained from the appropriate authorities and an environmental impact study shall be conducted.


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e) Shall be easily rehabilitated. Areas with minimal vegetation cover such as flat and bare ground, or areas covered with grass only or covered with shrubs less than 1.5m in height, are preferred.

f) Shall have clearly demarcated and marked boundaries to minimize vegetation clearing.

15. Vegetation clearing shall be restricted to the area required for safe operation of construction work. Vegetation clearing shall not be done more than two months in advance of operations.

16. Stockpile areas shall be located in areas where trees can act as buffers to prevent dust pollution. Perimeter drains shall be built around stockpile areas. Sediment and other pollutant traps shall be located at drainage exits from workings.

17. The Contractor shall deposit any excess material in accordance with the principles of these general conditions, and any applicable EMP, in areas approved by local authorities and/or the SE.

18. Areas for depositing hazardous materials such as contaminated liquid and solid materials shall be approved by the SE and appropriate local and/or national authorities before the commencement of work. Use of existing, approved sites shall be preferred over the establishment of new sites.

Rehabilitation and Soil Erosion Prevention

19. To the extent practicable, the Contractor shall rehabilitate the site progressively so that the rate of rehabilitation is similar to the rate of construction.

20. Always remove and retain topsoil for subsequent rehabilitation. Soils shall not be stripped when they are wet as this can lead to soil compaction and loss of structure.

21. Topsoil shall not be stored in large heaps. Low mounds of no more than 1 to 2m high are recommended.

22. Revegetate stockpiles to protect the soil from erosion, discourage weeds and maintain an active population of beneficial soil microbes.

23. Locate stockpiles where they will not be disturbed by future construction activities.

24. To the extent practicable, reinstate natural drainage patterns where they have been altered or impaired.

25. Remove toxic materials and dispose of them in designated sites. Backfill excavated areas with soils or overburden that is free of foreign material that could pollute groundwater and soil.

26. Identify potentially toxic overburden and screen with suitable material to prevent mobilization of toxins.


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27. Ensure reshaped land is formed so as to be inherently stable, adequately drained and suitable for the desired long-term land use, and allow natural regeneration of vegetation.

28. Minimize the long-term visual impact by creating landforms that are compatible with the adjacent landscape.

29. Minimize erosion by wind and water both during and after the process of reinstatement.

30. Compacted surfaces shall be deep ripped to relieve compaction unless subsurface conditions dictate otherwise.

31. Revegetate with plant species that will control erosion, provide vegetative diversity and, through succession, contribute to a resilient ecosystem. The choice of plant species for rehabilitation shall be done in consultation with local research institutions, forest department and the local people.

Water Resources Management

32. The Contractor shall at all costs avoid conflicting with water demands of local communities.

33. Abstraction of both surface and underground water shall only be done with the consultation of the local community and after obtaining a permit from the relevant Water Authority.

34. Abstraction of water from wetlands shall be avoided. Where necessary, authority has to be obtained from relevant authorities.

35. Temporary damming of streams and rivers shall be done in such a way avoids disrupting water supplies to communities down stream, and maintains the ecological balance of the river system.

36. No construction water containing spoils or site effluent, especially cement and oil, shall be allowed to flow into natural water drainage courses.

37. Wash water from washing out of equipment shall not be discharged into water courses or road drains.

38. Site spoils and temporary stockpiles shall be located away from the drainage system, and surface run off shall be directed away from stockpiles to prevent erosion.

Traffic Management39. Location of access roads/detours shall be done in consultation with the local

community especially in important or sensitive environments. Access roads shall not traverse wetland areas.

40. Upon the completion of civil works, all access roads shall be ripped and rehabilitated.


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41. Access roads shall be sprinkled with water at least five times a day in settled areas, and three times in unsettled areas, to suppress dust emissions.

Blasting42. Blasting activities shall not take place less than 2km from settlement areas, cultural

sites, or wetlands without the permission of the SE.

43. Blasting activities shall be done during working hours, and local communities shall be consulted on the proposed blasting times.

44. Noise levels reaching the communities from blasting activities shall not exceed 90 decibels.Disposal of Unusable Elements45. Unusable materials and construction elements such as electro-mechanical

equipment, pipes, accessories and demolished structures will be disposed of in a manner approved by the SE. The Contractor has to agree with the SE which elements are to be surrendered to the Client’s premises, which will be recycled or reused, and which will be disposed of at approved landfill sites.

46. As far as possible, abandoned pipelines shall remain in place. Where for any reason no alternative alignment for the new pipeline is possible, the old pipes shall be safely removed and stored at a safe place to be agreed upon with the SE and the local authorities concerned.

47. AC-pipes as well as broken parts thereof have to be treated as hazardous material and disposed of as specified above.

48. Unsuitable and demolished elements shall be dismantled to a size fitting on ordinary trucks for transport.

Health and Safety49. In advance of the construction work, the Contractor shall mount an awareness and

hygiene campaign. Workers and local residents shall be sensitized on health risks particularly of AIDS.

50. Adequate road signs to warn pedestrians and motorists of construction activities, diversions, etc. shall be provided at appropriate points.

51. Construction vehicles shall not exceed maximum speed limit of 40km per hour.

Repair of Private Property52. Should the Contractor, deliberately or accidentally, damage private property, he

shall repair the property to the owner’s satisfaction and at his own cost. For each repair, the Contractor shall obtain from the owner a certificate that the damage has been made good satisfactorily in order to indemnify the Client from subsequent claims.


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53. In cases where compensation for inconveniences, damage of crops etc. are claimed by the owner, the Client has to be informed by the Contractor through the SE. This compensation is in general settled under the responsibility of the Client before signing the Contract. In unforeseeable cases, the respective administrative entities of the Client will take care of compensation

Contractor’s Health, Safety and Environment Management Plan (HSE-MP)54. Within 6 weeks of signing the Contract, the Contractor shall prepare an EHS-MP to

ensure the adequate management of the health, safety, environmental and social aspects of the works, including implementation of the requirements of these general conditions and any specific requirements of an EMP for the works. The Contractor’s EHS-MP will serve two main purposes:

For the Contractor, for internal purposes, to ensure that all measures are in place for adequate HSE management, and as an operational manual for his staff.

For the Client, supported where necessary by a SE, to ensure that the Contractor is fully prepared for the adequate management of the HSE aspects of the project, and as a basis for monitoring of the Contractor’s HSE performance.

55. The Contractor’s EHS-MP shall provide at least: a description of procedures and methods for complying with these general

environmental management conditions, and any specific conditions specified in an EMP;

a description of specific mitigation measures that will be implemented in order to minimize adverse impacts;

a description of all planned monitoring activities (e.g. sediment discharges from borrow areas) and the reporting thereof; and

the internal organizational, management and reporting mechanisms put in place for such.

56. The Contractor’s EHS-MP will be reviewed and approved by the Client before start of the works. This review should demonstrate if the Contractor’s EHS-MP covers all of the identified impacts, and has defined appropriate measures to counteract any potential impacts.

HSE Reporting57. The Contractor shall prepare bi-weekly progress reports to the SE on compliance

with these general conditions, the project EMP if any, and his own EHS-MP. An example format for a Contractor HSE report is given below. It is expected that the Contractor’s reports will include information on: HSE management actions/measures taken, including approvals sought from local

or national authorities; Problems encountered in relation to HSE aspects (incidents, including delays, cost

consequences, etc. as a result thereof); Lack of compliance with contract requirements on the part of the Contractor; Changes of assumptions, conditions, measures, designs and actual works in

relation to HSE aspects; and

Observations, concerns raised and/or decisions taken with regard to HSE management during site meetings.


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58. It is advisable that reporting of significant HSE incidents be done “as soon as practicable”. Such incident reporting shall therefore be done individually. Also, it is advisable that the Contractor keeps his own records on health, safety and welfare of persons, and damage to property. It is advisable to include such records, as well as copies of incident reports, as appendices to the bi-weekly reports. Example formats for an incident notification and detailed report are given below. Details of HSE performance will be reported to the Client through the SE’s reports to the Client.Training of Contractor’s Personnel59. The Contractor shall provide sufficient training to his own personnel to ensure that

they are all aware of the relevant aspects of these general conditions, any project EMP, and his own EHS-MP, and are able to fulfill their expected roles and functions. Specific training should be provided to those employees that have particular responsibilities associated with the implementation of the EHS-MP. General topics should be: HSE in general (working procedures); emergency procedures; and social and cultural aspects (awareness raising on social issues).

Cost of Compliance60. It is expected that compliance with these conditions is already part of standard good

workmanship and state of the art as generally required under this Contract. The item “Compliance with Environmental Management Conditions” in the Bill of Quantities covers these costs. No other payments will be made to the Contractor for compliance with any request to avoid and/or mitigate an avoidable HSE impact.


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Appendix 5: Example Format: HSE ReportContract:Period of reporting:HSE management actions/measures:Summarize HSE management actions/measures taken during period of reporting, including planning and management activities (e.g. risk and impact assessments), HSE training, specific design and work measures taken, etc.

HSE incidents:Report on any problems encountered in relation to HSE aspects, including its consequences (delays, costs) and corrective measures taken. Include relevant incident reports.

HSE compliance:Report on compliance with Contract HSE conditions, including any cases of non-compliance.

Changes:Report on any changes of assumptions, conditions, measures, designs and actual works in relation to HSE aspects.

Concerns and observations:Report on any observations, concerns raised and/or decisions taken with regard to HSE management during site meetings and visits.

Signature (Name, Title Date):Contractor’s Representative

Example Format: HSE Incident Notification

Provide within 24 hrs to the Supervising Engineer

Originators Reference No:Date of Incident: Time:Location of incident:

Name of Person(s) involved:

Employing Company:

Type of Incident:

Description of Incident:Where, when, what, how, who, operation in progress at the time (only factual)

Immediate Action:Immediate remedial action and actions taken to prevent reoccurrence or escalation

Signature (Name, Title, Date):Earthguards Limited: Sustainable Development Consultants

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Contractor’s Representative


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Appendix 6: Attendance at Public Consultative Meetings and Proceedings of meetings

TOWN ABABE COMMUNITY, OBUBRA LGA: 20/09/2009S/No NAME SEX DESIGNATION1 CHIEF AFRO ENANG M COMMUNITY LEADER2 CHIEF EGBE EGOR M COMMUNITY MEMBER3 CHIEF S.A ANIM M COMMUNITY MEMBER4 CHIEF EDOM AFONGHA M COMMUNITY MEMBER9 CHIEF ATI ABOR M COMMUNITY MEMBER10 CHIEF OBAJI OYAMA M COMMUNITY MEMBER11 MR FRIDAY AJKE M COMMUNITY MEMBER12 ALICE OKADIM F WOMEN LEADERTOWN EMINEKPON COMMUNITY, ABI LGAS/NO NAME SEX DESIGNATION1 CHIEF JOSEPH I.A EZOKE M COMMUNITY LEADER2 CHIEF SIMON .E EDOKI M COMMUNITY MEMBER3 CHIEF GODWIN E. IDEBA M COMMUNITY MEMBER4 MR RICHARD EMORI ENYA M COMMUNITY MEMBER5 MR DAVID ELE BASSEY M COMMUNITY MEMBER6 CHIEF SIMON ELE IVU M COMMUNITY MEMBER7 MR JOHN IYORI ASOR M COMMUNITY MEMBER8 CHIEF MATHEW EKWAKILI

BASSEYM COMMUNITY MEMBER

9 MR DOMINIC EDOKI M COMMUNITY MEMBER10 MR ELIAS GODWIN IJEBA M COMMUNITY MEMBER11 MR DAVID ANUKWA EDOKI M COMMUNITY MEMBER12 JOHN AGULA EZOKE M COMMUNITY MEMBER13 MR MOSES EKWALILI BASSEY M COMMUNITY MEMBER14 MR EMMANUEL AGULA EZOKE M COMMUNITY MEMBER15 MR MICHAEL EKORI M COMMUNITY MEMBER16 MR MICHAEL NJOKWU M COMMUNITY MEMBER17 MASTER ABRAHAM BASSEY M COMMUNITY MEMBER18 MRS SUSAN EMMANUEL F COMMUNITY MEMBER19 MRS ALICE JAMES F COMMUNITY MEMBER20 MRS THERESA SANTUS F COMMUNITY MEMBER21 MRS LUCY RICHARD EMORI F COMMUNITY MEMBER22 MRS GRACE JOHN BASSEY F COMMUNITY MEMBER23 MRS VIRGINA ABRAHAM F COMMUNITY MEMBER24 MRS ANTHONIA AUGUSTINE F COMMUNITY MEMBER25 MRS MARY TIMOTHY F COMMUNITY MEMBER26 MRS ROSE MICHAEL IYORI F COMMUNITY MEMBER27 MRS CARTHERINE JOHN EKORI F COMMUNITY MEMBER28 MRS CORDELIA WILLIAM F COMMUNITY MEMBER29 MRS ADIA JOHN ECHI F COMMUNITY MEMBER30 MRS MARY EKPE ASOR F COMMUNITY MEMBER31 MRS ALICE JOHN WARA F COMMUNITY MEMBER32 MRS MARY JOHN WU F COMMUNITY MEMBERS/No NAME SEX DESIGNATION33 MRS MARY EGBE F COMMUNITY MEMBER34 MRS GRACE LAZAROUS F COMMUNITY MEMBER35 MRS VERONICA EMMANUEL

JOHNF COMMUNITY MEMBER

36 MRS AUGUSTINE GODWIN BASSEY

F COMMUNITY MEMBER

37 MRS ALICE JOHN BASSEY F COMMUNITY MEMBER38 MSR TITI PETER BASSEY F COMMUNITY MEMBER39 MRS PHILOMINA EGBE F COMMUNITY MEMBER40 EPKE GODWIN BASSEY M COMMUNITY MEMBER41 ABRAHAM EZOKE IVU M COMMUNITY MEMBER42 HELINA JOHN EKPE F COMMUNITY MEMBER43 SUNDAY NGWU M COMMUNITYMEMBER


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45 MERCY ELIAS F COMMUNITY MEMBER46 SIMON EKPE M COMMUNITY MEMBER47 BRIDGET JOHN F COMMUNITY MEMBER48 EMMANUEL IDETA M COMMUNITY MEMBER49 EMMANUEL EKPE M COMMUNITY MEMBER50 CAROLINE JOHN F COMMUNITY MEMBER51 HELINA FERDINAND F COMMUNITY MEMBER52 ESTHER BERNARD F WOMENCOMMUNITY LAEDERTOWN ITIGIDI TOWN HALL , ABI LGA: 23/09/20031 CHIEF GABRIEL IBINGHA M COMMUNITY MEMBER2 CHIEF GABRIEL OKPA M COMMUNITY MEMBER3 CHIEF IGUT ENAMA M COMMUNITY MEMBER4 CHIEF OKOYOR OVAT M COMMUNITY MEMBER5 CHIEF IREKI SUNDAY M COMMUNITY MEMBER6 VITALIS OKPA M COMMUNITY MEMBER7 OJEN EWONA M COMMUNITY MEMBER8 ODEY ITIMA M COMMUNITY MEMBER9 EKEM OKPETA M COMMUNITY MEMBER10 JAMES ABENG M COMMUNITY MEMBER11 MR ODEY ANEYI M COMMUNITY MEMBER12 MR IBINGHAAJOGBOR M COMMUNITY MEMBER13 SUNDAY IGUT M COMMUNITY MEMBER14 AREMBANG IREK M COMMUNITY MEMBER15 JAMES AREMBONG M COMMUNITY MEMBER16 EKO EKPONG M COMMUNITY MEMBER17 PHILIP OKPA M COMMUNITY MEMBER19 GEORGE IGWE M COMMUNITY MEMBER20 ROBERT IGUT ENAMA M COMMUNITY MEMBER21 OJE HENREY M COMMUNITY MEMBER22 AJOGBOR AJOGBOR M COMMUNITY MEMBER23 JACOB EKOM M COMMUNITY MEMBER24 MR ODEY IREK M COMMUNITY MEMBER25 MR IREK OKPA M COMMUNITY MEMBER26 MR UKA OKEBU M COMMUNITY MEMBERS/No NAME SEX DESIGNATION27 MRS CHRISTIANA EKAM F COMMUNITY MEMBER28 EGEG OGAJI M COMMUNITY MEMBER29 MOKO AWUNA M COMMUNITY MEMBER30 ELDER OBATEM EKPA M COMMUNITY MEMBER31 MR IJIMAJIM EGBE M COMMUNITY MEMBER32 MR OKARA IJOMBO M COMMUNITY MEMBER33 MR CHRISTIAN OBINDIM M COMMUNITY MEMBER34 MR AGARA EGBARA M COMMUNITY MEMBER35 MR ENYAM IREK M COMMUNITY MEMBER36 JOHNSON OVAT M COMMUNITY MEMBER37 MR MOBE OVAT M COMMUNITY MEMBER38 MR OBAJI OMENKA M COMMUNITY MEMBER39 MR SUNDAY O. OKON M COMMUNITY MEMBER40 EMMANUEL OKON M COMMUNITY MEMBER41 MR OKON OKPATA M COMMUNITY MEMBER42 MR OJEH OCHECHE M COMMUNITY MEMBER43 IREK UJE M COMMUNITY MEMBER44 KEMPSON OFUTET M COMMUNITY MEMBER45 MR EGIM ODONG M COMMUNITY MEMBER46 MRS PATIENCE BASSSEY F WOMEN COMMUNITY LEADERTOWN EGBORONYI COMMUNITY, ABI LGA1 CHIEF WILFRED AKANI M COMMUNITY LEADER2 EVAL MICHAEL EGBONIYI M COMMUNITY MEMBER3 CHIEF EMMANUEL EGBONIYI M COMMUNITY MEMBER4 CHIEF CYPRIAN EGBONIYI M COMMUNITY MEMBER5 ANTHONY AZOGO M COMMUNITY MEMBER6 CHIEF ELOKO EGBONIYI M COMMUNITY MEMBER7 DAVID IGHLE INOTO M COMMUNITY MEMBER8 JOSEPH EPKE ARUKWU M COMMUNITY MEMBER


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9 CHIEF BENARD I. ANOR M COMMUNITY MEMBER10 CHRISTOPHER AGALI M COMMUNITY MEMBER11 CHRISTIANA WILFRED ECHI F COMMUNITY MEMBER12 LINUS AGBONG M COMMUNITY MEMBER13 ADIA ERNEST EGBE F COMMUNITY MEMBER14 SILAS EKWAKILI M COMMUNITY MEMBER15 EKPE SAMUEL BENARD M COMMUNITY MEMBER16 JENNY BASSEY ENYA F COMMUNITY MEMBER17 CHIEF CHRISTOPHER IGWE M COMMUNITY MEMBER19 MATHINA BASSEY ENYA F COMMUNITY MEMBER20 AGNESS JOSEPH ASOR F COMMUNITY MEMBER21 ABRAHAM EGBE BASSEY M COMMUNITY MEMBER22 PATIENCE EMMANUEL

EGBONIYIF COMMUNITY MEMBER

23 REBECA PETER ELE F COMMUNITY MEMBER24 WILFRED AGORBE ECHI M COMMUNITY MEMBER25 CARTHERINE AKANU F COMMUNITY MEMBERS/No NAME SEX DESIGNATION26 LILI DAVID ELE F COMMUNITY MEMBER27 MARIA ABEL F COMMUNITY MEMBER28 HELEN EZOKE F COMMUNITY MEMBER30 MARY ESE ELI F COMMUNITY MEMBER31 ALICE JOSEPH EWOKOR F COMMUNITY MEMBER32 JENNY PETER BASSEY F COMMUNITY MEMBER33 PRECILLIA BASSEY PETER F COMMUNITY WOMEN LEADERTOWN ADADAMA COMMUNTY, ABI LGAS/NO NAME SEX DESIGNATION1 CHIEF ENANG ELENU M COMMUNITY LEADER2 MR JOHN EMORI M COMMUNITY MEMBER3 CHIEF MBOTOR AZRYOR M COMMUNITY MEMBER4 MR JOSEPH ELEMI M COMMUNITY MEMBER5 CHIEF JOSHUA EKOM M COMMUNITY MEMBER6 CHIEF ENANG ELENU M COMMUNITY MEMBER7 HON. IKANA ITOMO M COMMUNITY MEMBER8 MR VICTOR EKORO M COMMUNITY MEMBER9 CHIEF EBILOEKE EGBE M COMMUNITY MEMBER10 CHIEF JAMSE I.ENYA M COMMUNITY MEMBER11 CHIEF JAMES EKOKO EDU M COMMUNITY MEMBER12 CHIEF FRANCES EKOM M COMMUNITY MEMBER13 CHIEF LAWRAWS EMORI M COMMUNITY MEMBER14 CHIEF BENSON E.EGBAW M COMMUNITY MEMBER15 CHIEF EDU LAWRAWS M COMMUNITY MEMBER16 CHIEF WILLI ETTI EWANG M COMMUNITY MEMBER17 CHIEF EDWARD EKONO M COMMUNITY MEMBER18 CHIEF EQUALI EKEPE M COMMUNITY MEMBER19 MR PETER IYEME M COMMUNITY MEMBER20 MR FELIX I.NTEH M COMMUNITY MEMBER21 MR GODWIN AGBOMI M COMMUNITY MEMBER22 MRS CAROLINE GODWIN F COMMUNITY MEMBER23 MRS ROSE JOSEPH AGBOR F COMMUNITY MEMBER24 MRS ROSE BENSON F COMMUNITY MEMBER25 MRS GRACE VINCENT ENANG F COMMUNITY MEMBER26 STELLA AGBON F COMMUNITY MEMBER27 THERISER J. EMORI F COMMUNITY MEMBER28 MR SUNNY AJA F COMMUNITY MEMBER29 CHIEF RICHARD IMAU M COMMUNITY MEMBER30 IKOI DANIEL AUGUSTINE M COMMUNITY MEMBER31 BEATRICE TOBI M COMMUNITY MEMBER32 CHIEF JAMES ENYA M COMMUNITY MEMBER

33 MR GODWIN E. EGWA M COMMUNITY MEMBER34 CHIEF FEDELIS E. EGRI M COMMUNITY MEMBER35 CHIEF ITUNU FRANCES M COMMUNITY MEMBER36 CHIEF DICKSON ESONG M COMMUNITY MEMBER


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S/No NAME SEX DESIGNATION37 MR ENANG IKWA M COMMUNITY MEMBER38 CHIEF DENIS E. ENI M COMMUNITY MEMBER39 MR EMMANUEL ENI M COMMUNITY MEMBER40 MR ENANG BENSON M COMMUNITY MEMBER41 MR NELSON EKON M COMMUNITY MEMBER42 EVAL NELSON AGBORI M COMMUNITY MEMBER43 MR EDU ENYA M COMMUNITY MEMBER44 MR ENYA AGBORI M COMMUNITY MEMBER45 MR POLICARP IWOM M COMMUNITY MEMBER46 MRS ALICE NWOSU F WOMEN COMMUNITY LEADER

TOWN IDIGBO,OKPOMA IYALA LGAS/NO NAME SEX DESIGNATION1 HRH EJE IPOULE M COMMUNITY LEADER2 OGAH OGBO BENJAMIN M COMMUNITY MEMBER3 OFONGOR ATHOLLY M COMMUNITY MEMBER4 HON DOMINIC OGWELI M COMMUNITY MEMBER5 BLACK EBIALA M COMMUNITY MEMBER 6 CHIEF OGAR ODEY M COMMUNITY MEMBER7 WANAH OGAR M COMMUNITY MEMBER8 CHIEF MBOM E.ODEY M COMMUNITY MEMBER9 DAVID OGAR M COMMUNITY MEMBER10 MR TOM IDAGU M COMMUNITY MEMBER 11 OLOUHU ODEY M COMMUNITY MEMBER12 CYRIL OBELE M COMMUNITY MEMBER13 OGAR OMACHI M COMMUNITY MEMBER 14 ODEY DOMINIC M COMMUNITY MEMBER 15 WANAH OGAR ABE M COMMUNITY MEMBER 16 OGAR OKO M COMMUNITY MEMBER17 OKO MONDAY M COMMUNITY MEMBER 18 EVERADY ADAJI M COMMUNITY MEMBER 19 OLUAMA UDENYI F COMMUNITY MEMBER 20 MARY ADUMA F COMMUNITY MEMBER 21 OGAMODE ADOGA IPOLE M COMMUNITY MEMBER 22 CHIEF AGBAKA ODAMA M COMMUNITY MEMBER 23 CHIEF ADIKPE IGWE M COMMUNITY MEMBER24 WILSON O.OLAWON F COMMUNITY MEMBER25 AKPATA ODEY F COMMUNITY MEMBER 26 ODOMA OGBU M COMMUNITY MEMBER27 ELIZETHE UBE F WOMEN COMMUNITY LEADER

TOWN ADUN BEACH,OBUBRA LGAS/NO NAME SEX DESIGNATION1 BENEDICT OKEY M COMMUNITY LEADER2 PHILOMENA BENEDICT F COMMUNITY MEMBER3 DINA ROBERT F COMMUNITY MEMBER 4 JANE AKORY F COMMUNITY MEMBER5 SUNDAY OYOM M COMMUNITY MEMBER 6 PATRICIA OYIP F COMMUNITY MEMBER 7 FAPULOR OYIP M COMMUNITY MEMBER8 OKUNE PETER F COMMUNITY MEMBER 9 CHRISTIANA BENEDICT F COMMUNITY MEMBER 10 JOSEPH CHUKWU M COMMUNITY MEMBER 11 OKEY EYAM M COMMUNITY MEMBER 12 ADIA OKEY F COMMUNITY MEMBER 13 JAMES ODEN M COMMUNITY MEMBER 14 ALICE OYOM F COMMUNITY MEMBER15 ADA AJALI F COMMUNITY MEMBER 16 MOSSES OMA M COMMUNITY MEMBER


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17 MAGRET JAMES F COMMUNITY MEMBER18 ODUMA JAMES M COMMUNITY MEMBER19 ALICE OYAMA F COMMUNITY MEMBER20 OKON ROBERT M COMMUNITY MEMBER21 MONDAY PIUS M COMMUNITY MEMBER22 FELIX JOSEPH M COMMUNITY MEMBER23 FABULOUS AKAM M COMMUNITY MEMBER24 MOSSES INOCENT M COMMUNITY MEMBER25 REGINA SOLOMON F COMMUNITY MEMBER 26 SOLOMON OSOGU M COMMUNITY MEMBER27 RAYMOND PHILIP M COMMUNITY MEMBER28 MBENG OYOM M COMMUNITY MEMBER 29 JOHN UTOBU M COMMUN ITY MEMBER 30 OYOM ETENG M COMMUNITY MEMBER 31 SUNDAY TOM M COMMUNITY MEMBER32 MONDAY JAMES M COMMUNITY MEMBER 33 AKOI ENANG M COMMUNITY MEMBER 34 MARY SUNDAY F COMMUNITY MEMBER35 CHIEF ROBERT OKUNE M COMMUNITY MEMBER 36 FRIDAY JAMES M COMMUNITY MEMBER37 RAYMOND ABRUS M COMMUNITY MEMBER 38 FLOURENCE JAMES F COMMUNITY MEMBER39 CHATHERINE ROBERT F COMMUNITY MEMBER40 CHIEF AKAM EGBA M COMMUNITY MEMBER41 MONICA OYAMA F COMMUNITY MEMBER 42 OYAMA AKMA M COMMUNITY MEMBER43 ROSE BENEDICT F COMMUNITY MEMBER44 MARY BENEDICT F COMMUNITY MEMBER45 GABRIEL OMORY M COMMUNITY MEMBER46 ADIA OKEY F COMMUNITY MEMBER 47 FELICIA OYAMA F COMMUNITY MEMBER48 JAMES AGUBE M COMMUNITY MEMBER49 EMMANUEL OSUGU M COMMUNITY MEMBER50 ALICE EMMANUEL F COMMUNITY MEMBER51 JOHN AGBE M COMMUNITY MEMBER52 OYAMA MGBE M COMMUNITY MEMBER 53 OYAMA ODEN M COMMUNITY MEMBER54 ADIA ODEN F COMMUNITY MEMBER55 ROSE JAMES F COMMUNITY MEMBER 56 CARTHERINE OKUME F COMMUNITY MEMBER57 ALICE FRANCES F COMMUNITY MEMBER58 TINA JAMES F COMMUNITY MEMBER59 DINA ROBERT F COMMUNITY MEMBER60 ADIA GABRIEL F COMMUNITY MEMBER61 ADIA OKEY F COMMUNITY MEMBER62 ADA GABRIEL F COMMUNITY MEMBER63 JENNY OSHINA F WOMEN COMMUNIY LEADER


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ITEMS DESCRIPTIONSDATE 23/09/2009VENUE Itigidi Town Hall, Abi, LGASTART TIME 11: 00 amCLOSE TIME 12.50pmOPENINGREMARKS:

Mr. Joseph Akpokodje , Environmental Consultant team leader gave

an introduction on what this project is all about, which is an HSBC

assisted project aimed at constructing new water treatment plants,

storage reservoirs, pipeline network, and water distribution kiosks in

various distribution points in the project communities. He emphasized on the importance of the people of the

community tothe project sustainability, which is why the public

consultation meeting is necessary. He requested for their inputs, concerns and

opinion with regard to the proposed project in their community.

REACTIONS ANDCONCERNS

Chief Gabriel Ibingha, . said he will be very happy to see this project start and also pledged their support during and after the commencement of the Project

Mrs Patience Bassey complained that they have been drinking stream water for years . and its causes different sickness to them. Mr. Oliver Nwuju , consultant for Earth guard assured that the recent development will help to eradicate water related diseases.

Mr. Ekem Okpeta, a community member, asked if he can be hired as a security for the project.

Mr Eko Ekpong, stated that, since they can pay for electricity bills, paying for water bill will not be a strange or difficult thing for the people of the community.

CONSULTANTS RECOMMENDATION

Involuntary resettlement plan should be prepared to ensure smooth implementation, in view of the houses that will be affected by the pipeline network in the area.

CRSWBL may consider engaging the local community youths in the temporal civil works.

Public consultation with the community should be a continuous step through the life cycle of the project.

Appendix 7: Proceedings of meetings

Abi LGA


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ITEMS DESCRIPTIONSDATE 24/09/2009VENUE Clan Head’s Compound, in Egboronye Community, Abi LGASTART TIME 10: 00 amCLOSE TIME 12.00pmOPENINGREMARKS:





various distribution points in the project communities.

He emphasized on the importance of the people of the community to

the project sustainability, which is why the public consultation meeting

is necessary. He requested for their inputs, concerns and opinion with

regard to the proposed project in their community.


Chief Benard Anor ,. Express gratitude with the project sponsors and said they have put a lot of struggles in the past without result, to bring public utilities including water project in the community; but none came through. He and their entire community will be very happy to see this project fly and also pledged their support during and after the commencement of the Project

Mr Silas Ekwakiti complained that they have been drinking stream water for years . and its causes different sickness to them.

Mrs Christiana Wilfred talked about the past proposed water project by the government which never saw the light of the day.

Mrs Agnes Agor, stated that, since they can pay for electricity bills, paying for water bill will not be a strange or difficult thing for the people of the community. Mr Adia Egbe Akani requested for a uniform payment of water bills when the running of the water commence.


The communities are in high spirit concerning the project and are ready through community leadership to give any assistant that will ensure project sustainability.




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ITEMS DESCRIPTIONSDATE 24/09/2009VENUE Secondary School Premises, Emin-Ekpon Community, Abi

LGASTART TIME 2: 00 pmCLOSE TIME 4.05pmOPENINGREMARKS:











Chief Joseph I. Ezoke ,. Express gratitude with the project sponsors and and hopes that the it shall be fully implemented as proposed. He and their entire community will be very happy to see this project fly and also pledged their support during and after the commencement of the Project

Mrs Mary Egbe complained that they have been drinking stream water for years . and its causes different sickness to them.

Mr John Iyori Asor talked about the past proposed water project by the government which never saw the light of the day.

Dominic Edoki, stated that, since they can pay for electricity bills, paying for water bill will not be a strange or difficult thing for the people of the community. Mrs Veronica Emmanuel John requested for a uniform payment of water bills when the running of the water commence.






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ITEMS DESCRIPTIONSDATE 24/09/2009VENUE Clan Head’s Compound, in Ababene, Obubra LGASTART TIME 10: 00 amCLOSE TIME 12.00pmOPENINGREMARKS:











Chief Afro Enong ,. Express gratitude with the project sponsors and said they have put a lot of struggles in the past without result, to bring public utilities including water project in the community; but none came through. He and their entire community will be very happy to see this project fly and also pledged their support during and after the commencement of the Project

Mr Egbe Egor complained that they have been drinking stream water for years . and its causes different sickness to them.

Ajakat Ovat Wilfred talked about the past proposed water project by the government which never saw the light of the day.

Mrs Alice Okadim stated that, since they can pay for electricity bills, paying for water bill will not be a strange or difficult thing for the people of the community. Mr Friday Ajake requested for a uniform payment of water bills when the running of the water commence.




There is need for waste management plan and compliance monitoring.

Obubra LGA


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ITEMS DESCRIPTIONSDATE 19/09/2009VENUE Chief’s Compound in Adun Beach, Obubra LGASTART TIME 10: 00 amCLOSE TIME 12.30pmOPENINGREMARKS:

Mr. Joseph Akpokodje , Environmental Consultant team leader, first

thanked the paramount ruler for his effort in ensuring that all the

communities in the area were fully represented in the meeting .

He gave an introduction on what this project is all about, which is an

HSBC assisted project to the state government aimed at constructing

new water treatment plants, storage reservoirs, pipeline network, and

water distribution kiosks in various distribution points in the project

Communities.






Chief Friday Okata . said he will be very happy to see this project start and also pledged their support during and after the commencement of the Project

Mr. Ernest Awara complained that they have been drinking stream water for years. He also stated that the available boreholes in the community are full of salinity.

Mr.Stephen Imoke complained that his farm and building under construction are located within the plot of land proposed for water intake plant. He sought to know if he would be resettled for the affected items.

Mrs Philomena Okey also raised concern about her farm which incidentally falls in the land proposed for treatment plant.Mrs Glory Ovat requested for a uniform payment of water bills when the running of the water commence.


Involuntary resettlement plan should be prepared to ensure smooth implementation, in view of the houses that will be affected by the pipeline network in the area.




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ITEMS DESCRIPTIONSDATE 18/09/2009VENUE Paramount Ruler’s Palace, Idigbo-Okpoma, Yala LGASTART TIME 10: 00 amCLOSE TIME 12.30pmOPENINGREMARKS:

Mr. Joseph Akpokodje , Environmental Consultant team leader, first

thanked the paramount ruler for his effort in ensuring that all the

communities in the area were fully represented in the meeting .

He gave an introduction on what this project is all about, which is an

HSBC assisted project to the state government aimed at constructing

new water treatment plants, storage reservoirs, pipeline network, and

water distribution kiosks in various distribution points in the project

communities.






Chief Olohuode , of Okpoma . said he will be very happy to see this project start and also pledged their support during and after the commencement of the Project

Mr. Enang Benson complained that they have been drinking stream water for years. He also stated that the available boreholes in the community are full of salinity.

Mr. Linus Agbong talked about the past proposed water project by the government which never saw the light of the day.

Mr. Joshua Oton, stated that, since they can pay for electricity bills, paying for water bill will not be a strange or difficult thing for the people of the community. Chief Wilfred Akani requested for a uniform payment of water bills when the running of the water commence.





Yala LGA


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Appendix 8: Development of a Waste Management Plan

1.0. Background

Liquid waste is normally discharged from base-exchange softening plants, which are regenerated with brine. On the other hand, sludge waste is a highly concentrated suspension of solids in liquid. Tens of thousands of tons of waste water & sludge waste are generated annually from water treatment plants. Best management practices are essential for sludge wastes since these materials could be hazardous to human and environment. These practices include careful considerations of conditions for storage and treatment of the wastes. Storage condition is especially important in situation when immediate treatment of the wastes is not feasible.

It is the goal of every waste water/sludge waste management plan to embark upon measures that re-use this waste whenever possible and embrace a disposal routes that shall minimize the adverse effects, on the environment.

Waste water/Sludge Wastes Management Plan, is condition specific and takes cognizance of the chemical, physical, and biological characteristics of the wastes and it should tell you the following:

Pollution potential of the sludge/wastes with respect to local environmental conditions

Options for recovery of water from sludge Appropriate methods for storage and required storage

conditions Competing options for stabilizing the sludge Types of bulking agent(s) to use How to prevent contamination of the environment by sludge

leachate Factors to consider with respect to future treatment method Transportation planning when necessary Appropriate treatments options Sludge recycling options

2.0 Plans for Waste Water/Sludge Management

This plan for waste water sludge management shall be guided by the following steps:

Collect baseline data on waste water/sludge waste properties


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Evaluate local regulations on sludge

Construction of sludge processing facilities Disposal

Training Needs

Interface with EMP in implementation

Recycle Options

2.1. Baseline Assessment of Waste Water/Sludge Properties

A proper baseline assessment would need to be undertaken to gather precise information on the sludge/wastes, generated by this water treatment plant with the purpose of analyzing the liquid wastes and Sludge.

The following baseline data will be collected and analyzed: Composition types (Contained in table.1.) chemical physical biological Physiochemical quality of surface and underground water

Liquid waste

Available data indicates Liquid waste is normally discharged from base-exchange softening plants, which are regenerated with brine. On the average about six percent (6%) of the total throughput of the plant is discharged to waste. The main pollutants are the chlorides and calcium and magnesium, in concentrations of about 20, 000mg L -1

Such effluents can generally be discharged into town sewers. They are difficult to treat and where they arise in inland sites, in arid countries, care should be taken to prevent polluting surface or underground sources.

Sludge

The basic composition of sludge at the Ikom, Ogoja and Obudu Water Supply Schemes project sites is contained in Table.5.10. of the EMP document, where the impact assessment and mitigation measures have been carefully undertaken to reveal that the sludge contains chemicals such as micro-organisms, arsenics and other metals, radio nuclides, lime and polymers, and this kind of sludge is consistent with the major portion of the effluent from a river abstraction. The total


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daily volume of sludge is normally in the range of 1.5 – 5.0% of the daily plant throughput.

2.2. Determine Local Regulations on Waste Water/Sludge Waste

To ensure sludge management practices are as in compliance with legislation, this plan would review relevant statutory documentation such as that of FEPA Acts 58 of 1988 and 59 of 1992, for conformity.

Also, the Federal Ministry of Environment has put in place statutory documents to aid the monitoring, control and abatement of industrial waste that clearly state the restrictions imposed on the release of toxic substances into the environment and the responsibilities of all industries whose operations are likely to pollute the environment. Mitigation measures and monitoring impact have given due and necessary considerations to these statutory regulations in Table.9.3 (EMP document).

Such responsibilities include adequate treatment of effluent before being discharged into the environment.

2.3. Construction of Sludge Storage/Processing Facility

The construction of a waste water/sludge storage processing plant (budget in appendix) will be discussed under the following:

Waste water Treatment Sludge water treatment Effluent outfalls Sewage Collection Disposal

Waste water Treatment

For the waste water/sludge treatment plant for IItigidi, Obubra & Okpoma Water Distribution & Supply Schemes, treatment methods to be considered would include:

Activated sludge Oxidation ditch Bio-disc Oxidation ponds

At this stage, from experience, no single particular method can be adopted. This is because factors such as the composition of sewage, climate, groundwater and rainfall intensity and pattern may well influence the type to be selected.


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Sludge Treatment

Surface and ground waters undergo water treatment procedures in order to make them suitable for human consumption. Currently in some parts of the Europe, aluminium sulphate salt (alum) is used in a number of the Water Treatment plants for the treatment of surface and ground waters for drinking purposes.

Treatment options used include sand filtration and or clarification with chemical coagulants and flocculants. The sludge generated from clarification procedures vary in type and quantity depending on the treatment methods used and the type and quality of the raw water abstracted. Water treatment sludge are classified as a waste and therefore must be managed and disposed of appropriately.


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2.4. Collection and Disposal

The handling and disposal of sludge is still a major challenge on several water treatment plants. Mitigation of impact with attendant costs is contained in table.9.3. Of the EMP document.

Federal Environmental Protection laws are currently being reviewed in the developing countries to curtail the erstwhile adopted practice of discharging untreated sludge back into the system (Sonuga and Oloke 1999). However, a range of choices are available, which shall be guided by Best Practice Environmental Options (BPEO) such as:

Direct disposal into the river Discharge into sewer Lagooning Concentration and drying – use of concentration tanks and drying

beds. The sludge is discharged to secondary fill and draw settling basins. The capacity of each tank would be about 200m3 in a 10,000m3 day -1 works.

Modern techniques – usually practiced in developing countries involve vacuum filtration, centrifuging, freezing and filter pressing, precipitation and softening. However, this approach is usually expensive.

Disposal method adopted shall be in line with EPAD standards.

2.5. Training Needs

Based on assessment of institutional capacities, the EMP has identified that there is a need to train the PIU and other agencies involved in the EMP implementation. This responsibility is for action, by the Cross River Water Board Limited.

This plan would therefore include training needs that shall support the waste water and sludge management plan. Course plan and corresponding costs are included in Table.9.1. (EMP document).

2.6. Interface with EMP

The waste water/sludge waste management issues are a component of the various activities that have undergone assessment under the Environmental management plan (EMP) and therefore possess an interface relationship with this plan. Implementation, Budgeting and Responsibility considerations will also be reviewed in this regard.

2.7. Recycle Option


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The treatment and disposal of sludge will become an increasing environmental and financial issue as sludge production continues to increase as new Waste Water Treatment, and Water Treatment facilities are constructed and sludge quality standards become more stringent. The preferred option for dealing with sludge would be by recycling or use of sludge, as opposed to land-filling or incineration.

The composting of wastewater plant sludge appears to be the best option against other ways of elimination/disposal; this way they wouldn’t be such an economical and sanitary problem because the sludge would be recycled.

Some techniques of recycling suppose a complex technological infrastructure, and a considerable energetic costs, but the agricultural reuse is justifiable by many and very important reasons; the cultivations nowadays and in this latitudes need a great amount of nutrients and they have to be replace periodically by fertilizing, without them the mechanical, physical and chemical properties of the soil would decrease, troubling the vegetal growth and affecting directly in the quality and quantity of the crops; fertilizing has become a main step in the agricultural activity and it use to be done with chemical fertilizers and with dung; because of that there is a good chance of using the sludge as a fertilizer and at the same time revalue this wastes.

Not all the raw materials are suitable for the process; for example, it’s better to use sludge from urban water-treatment plants, avoiding this way contents of heavy metals and other inappropriate products inadequate for the agricultural use. With this objective of an agricultural use, the sludge must be processed to reduce the humidity, increase the ratio C/N, change the physical structure and decrease the presence of pathogen micro organisms

3.0 Conclusion and Recommendations

Environmental impacts and aspects of the waste water and sludge treatment plant, reviewed in line with the resource consumption, legal requirements and potential impact, from the Environmental Management Plan (EMP), is significant.

Thus, for efficiency and effectiveness of environmental management best practise, we would recommend that a waste water and sludge processing plant facility be constructed, separate from the water processing plant, which will operate in compliance with ISO standards. This would allow establishment of specific controls to enable implementation of these mitigation measures, in conformity with legislation, which would be audited regularly for on-track assessment.


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Furthermore, regarding re-cycle considerations, sludge from the various components of the sewage treatment can be digested and then dried on sludge drying beds, whereby the gas produced by the digestion of sludge can easily be used for alternative energy sources and the residual solid, through a proper nutrient management plan, can be integrated into agricultural/horticultural schemes.


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