Food Regulation in Indonesia - Southeast Asian Food & Agricultural
Dr. Haryono Indonesia Agency for Agricultural Research and Development
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Transcript of Dr. Haryono Indonesia Agency for Agricultural Research and Development
Dr. Haryono Indonesia Agency for Agricultural Research and
Development
POLICY INITIATIVE ON PALM OIL : POLICY ON UPSTREAM DEVELOPMENT OF
PALM OIL Dr. Haryono Indonesia Agency for Agricultural Research and
Development Presented on the International Coneference and
Exhibition on Palm Oil, Jakarta, May 2014 SCIENCE. INNOVATION.
NETWORKS PRESENTATION OUTLINE:
OIL CROPS PRODUCTION IN WORLD MARKET Development of Oil Palm
Industry Development of Oil Palm Industry in Indonesia Challenges
toward sustainable palm oil GOVERNMENT POLICIES TO SUPPORT UPSTREAM
DEVELOPMENT Research and development Support Development of Oil
Palm Industry in Indonesia
Distribution of Oil Palm Estate in Indonesia Development of Oil
Palm Industri in Indonesia
Production, export & consumption of palm oil (in 000) SCIENCE.
INNOVATION. NETWORKS Development of Oil Palm Industry in
Indonesia
Current status of oil palm in Indonesia Plantation: 9.15 million ha
Productivity: 3.5 ton CPO/ha/y OIL PALM In 2013 Production: 25
million tons Labor: 4.5 million people Ownership: Private 51%;
Smallholder 41%; Government 8% Challenges toward sustainable palm
oil
INDUSTRIAL CHALLENGES LOW YIELD OIL PRODUCTION (Yield 3.5 ton vs
Potential 8.6 ton) HIGH COST OF PRODUCTION HIGH PRESSURE TO
ENVIRONMENT & SOCIAL ISO 9001 FOR QUALITY BUT ISO FOR FOOD
SAFETY NOT IMPLEMENTED YET LOW PRODUCTIVITY vs POTENTIAL PRODUCTION
ILLEGITIMATE PLANTING MATERIAL 3RD & 4TH GENERATION OF OIL
PALMS POOR MAINTENANCE OLD PALMS AND IMMATURE PALM SCIENCE.
INNOVATION. NETWORKS Challenges toward sustainable palm oil
EXPANSION OF PLANTATION GOVERNMENT POLICY AND PROGRAM GROWING
DEMAND PROGRESS IN R&D POOR AGRONOMIC PRACTICES LOW STANDARD IN
PLANTATION ESTABLISHMENT AND INFRASTRUCTURE WIDE GAP BETWEEN
GENETIC POTENTIAL & REAL PRODUCTION AVAILABILITY AND PRICE OF
FERTILIZER SCIENCE. INNOVATION. NETWORKS Challenges toward
sustainable palm oil
PEST AND DISEASE PEST & DISEASE AFFECTING PRODUCTIVITY
GANODERMA & ORYCTES PROBLEMS BIO-AGENT CONTROL LIMITED
DOWNSTREAM INDUSTRY NEW TECHNOLOGICAL PROCESS & REFINERY
SUSTAINABLE & GREEN PROCESSES PALM OIL MILL SCIENCE.
INNOVATION. NETWORKS Challenges toward sustainable palm oil
SOCIAL ECONOMY Lack of access to technology.Government (Extension
Services) has limited coverage. Lack of fund.Smallholder use most
their income to fulfill their household needs. Lack of
coordination.Big number of smallholder and its scattered location
is not easy to coordinate. SUSTAINABLE DEVELOPMENT CONCEPT
Social Political Economy Respects human rights Respects labor
rights Enhances political & social improvement Its a labor
intensive industry, currently employing 5 million workers Adequate
product supply Commercially attractive profit margin 2nd largest
sector contributor to the Indonesian export revenues, generated USD
19.1 billion in 2011 Environment Target Objectives : RSPO
principles & criteria Respect bio diversity Conservation best
practice ISPO compliance GOVERNMENT POLICIES TO SUPPORT UPSTREAM
DEVELOPMENT
New government Regulations on Plantations, Land use, Use of Peat
lands, Environment Law and Forestry Law and other stricter
implementations of laws. Implementation of Indonesian Sustainable
Palm Oil System (ISPO) Certification System based on implementation
of Indonesian Laws and certification according to international
regulations. Productive land Marginal land GOVERNMENT POLICIES TO
SUPPORT UPSTREAM DEVELOPMENT
Replanting program for smallholders using better planting materials
Regulation to mitigate GHG emission from land clearing of peat soil
ISPO as mandatory: progress for sertification & ISPO for
smallholders PP No.98/2013 regarding plantation business license
(IUP) : Prevent the potential social conflicts by government
regulations PP No. 14/ Permentan/OT.140/2/2013 regarding FFB
pricing for smallholders with partnership (plasma) SCIENCE.
INNOVATION. NETWORKS BEST MANAGEMENT PRACTICES (BMP)
THE KEYS PRACTICES OF BMP BASIC SURVEY (SOIL, SLOPE, DRAINAGE)
PLANTING DENSITY & ROAD SYSTEM PLANNING CLEAR ALL TIMBER &
VEGETATION AVOID SOIL COMPACTION SOIL CONSERVATION CONSTRUCT
(platform 17-36%; teracces >36%) ESTABLISHE LCP LAND CLEARING
& PREPARATION GOOD PLANTING MATERIAL GOOD NURSERY SITE ADEQUATE
SOIL, IRIGATION CORRECT LINING-UP; SHADING SYSTEM FERTILIZER
PROGRAM PEST & DISEASE CONTROL SELECTION (20-25%) NURSERY
OPTIMAL PLANT DENSITY AVOID OVER-AGE PLANTING MATERIAL PLANT DURING
WET SEASON LARGE ENOUGH PLANTING HOLE (OR HOLE IN HOLE ON PEAT)
FIELD PLANTING FILL GAPS BY SUPPLY PALMS APPLY FERTILIZER (CORRECT
AMOUNT & TIMING) MAINTAIN LCP (PROVIDE ENOUGH P) FROND CANOPY
MANAGEMENT KEEP CIRCLE-WEEDING (AVOID HERBICIDE CONTACT TO FROND)
MONITOR & CONTROL PEST & DISEASES IMMATURE PHASE MAINTAIN
GOOD GC (AVOID EXCESSIVE WEEDING BY HERBICIDES) ENCOURAGE HOST
PLANTS TO IMPORTANT PREDATORS CANOPY MANAGEMENT (40-48 FROND ADULT;
YOUNG) SPREAD CUT FRONDS FOR EROSION CONTROL (TO INTER ROW) MULCH
WITH EFB (OR CUT FRONDS) IN CRITICAL AREA (STEEPS AREA) MAINTAIN
PLANTATION INFRASTRUCTURE HARVEST MANAGEMENT (RIPENESS, NO LOOSING
FRUITS) KEEP GOOD TRANSPORT (MINIMIZE TIME BETWEEN FIELD &
MILL) MATURE PHASE Research and development Support Planting
Material Development
Oil Palm High Quality Cultivar High Yielding, High Oil Quality,
Resistance to Serious Pest & Diseases, Adaptive to Env.
Stresses Breeding Programme MARKET Planting Material Development
Searching for material tolerant to Ganoderma Increasing oleic acid
content Molecular Breeding Early selection of type of oil palm
Reciprocal Recurrent Selection Backcrossing Classical Breeding
Development of transformation method: stilbene synthase Transgenic
Transgenic oil palm resistant to Ganoderma High yielding clones:
prolonged in vitro stage & number of subculture Tissue Culture
Germplasms Germplasm conservation; Analysis of genetic diversity
Exploration and exchange; Germplasm enhancement Evaluation of
germplasm potential Research and development Support
OIL PALM CLONAL PRODUCTION THROUGH INTENSIVE RESEARCH IOPRI DEVELOP
TISSUE CULTURE TECHNOLOGY ELITE INDIVIDUAL PALMS INCREASE
PRODUCTION 30% PROD. CAPACITY 1 MILLION RAMETS ANNUALY Research and
development Support
IMPROVEMENT OF AGRONOMIC PRACTICES BEST MANAGEMENT PRACTICES PROPER
FERTILIZER APPLICATION SOIL & WATER CONSERVATION CARBON
EMISSION IN PEAT SOIL Research and development Support
INTEGRATED PEST MANAGEMENT INTEGRATED CONTROL OF ORYCTES RHINOCEROS
PRODUCING NEW GENERATION OF PHEROMONE BIOAGENT AND BIOCONTROL
Research and development Support
ACTIVATED CARBON-COATED UREA ABSORB & RELEASE N GRADUALLY FOR
ROOT ABSORPTION INCREASING FERTILIZER EFFICIENCY USE OIL PALM WASTE
(MESOCARP, EMPTY FRUIT BUNCH) ACTIVATED CARBON - REMOVE ORGANIC
CONTAMINANTS (PESTICIDE RESIDUES AND HEAVY METALS IN THE SOIL)
INCREASE THE DECOMPOSER MICROBE IN SOIL Activated Carbon THANK YOU
SCIENCE. INNOVATION. NETWORKS