Fodder quality and its impact on animal value chains in Faisalabad, Pakistan
Sami-Ul-AllahPh D scholar
Supervisors:Prof Dr Michael WachendorfProf. Dr. Michael WachendorfProf. Dr. Asif Ali
ICDD Graduate School University of KasselICDD Graduate School, University of Kassel, Germany
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Outline
1 Introduction of the problem and research aims1. Introduction of the problem and research aims2. Hypothesis3. Materials and methods3. Materials and methods4. Statistical analysis 5. Time plan6. Possible Outcomes
7. References
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1- Introduction of the problem and presearch aims
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Share in GDP
• 21% share of agriculture and livestock alone contributes about 12%about 12%.
• Green fodder is the most valuable and cheapest source of food for livestock.
• Total cropped area of 23 51 mha only 2 35 mha is under• Total cropped area of 23.51 mha only 2.35 mha is under fodder crops.
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Current situation
• Demand of milk and its products is rising
f• No natural pasture suitable for grazing so dairy stock, mostly buffaloes, relies on cultivated forage
• Large numbers of dairy stock are kept in and around the cities and fodder have to be brought in from villages
• Low milk yield, less reproductive efficiency, delayed maturity and poor animal growth rate are major constraints due to imbalance nutrition.
• Provision of balance nutrition can perk up the animal productivity up to 50 per cent with the existing gene pool
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p y p p g g p
Livestock production in Pakistan
• Rural household where animals are closely integrated with the rural subsistence economy
• Large herds (mostly small ruminants) kept in• Large herds (mostly small ruminants) kept in rangelands where livestock feed include all vegetation grazed and browsed by animal
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Sources of forage
• Fodder Crops C id• Crop residues
• Grazing of rangelands • WastelandsWastelands • Canal bank • Road sides• Crops and their by products
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Effect of fodder on milk production
• 80-90 % of nutrients requirements of livestock are met f th f ddfrom the fodder crops
• With quality nutritional fodder milk production can be• With quality nutritional fodder, milk production can be increased up to 100 %
• The area under fodder crops has reduced during the past decade.
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Livestock feed Deficiency in Pakistan
• The present fodder supply is one third of the actual dneeds
• 21 % of total dry matter (DM)• 33 % of crude protein requirements• 33 % of crude protein requirements • Green fodder is not available in sufficient quantities
especially in extreme hot months.• There are two lean periods for fodder:
(June-July) extreme hot(December-January) extreme cold
• Majority of the animals thus remain under fed
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Organic Farming • Inorganic fertilizers may not replace trace mineral
elements in the soil O i f tili i th bi di it d l• Organic fertilizers can improve the biodiversity and long-term productivity of soil
(Butler et al., 2008)(Butler et al., 2008)• Inorganic fertilizers and pesticides used for fodder
production cause toxins in animal products (Walters, 2008)
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Effect of quality feed on animal products • Quality of feed fed to animal largely effect to products of
animal in terms of milk and meatC tit t f th f dd ff t th bi h i t f• Constituents of the fodder may affect the biochemistry ofthe ruminant and so develop flavors or off-flavors
(Cowchie, 1953)(Cowchie, 1953)• Flavor of milk fat is influenced by altering the feed of the
lactating animal for a few days(Urbach, 1990).
• Quality of fodder and forage depending on naturalenvironment and agricultural practices can alter theenvironment and agricultural practices can alter thecheese characteristic
(Martin et al., 2005)
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Main constraints
• Growing pressure of human population• Shortage of irrigation waterShortage of irrigation water• Less and erratic rainfalls• Low priorities to fodder productionp p• Imbalance use of fertilizers • Improper management during two lean periods i.e. June-
J l d D b JJuly and December-January
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Objectives
Keeping in view the constraints major objective of theKeeping in view the constraints, major objective of the study will be:
• Improvement of production and quality of fodder, to overcome the gap between fodder production and requirement.
• Improvement of animal value chains by providing good• Improvement of animal value chains by providing good quality fodder
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2-Hypothesis
• Quality of fodder has direct effect on animal product in terms of milk and meatterms of milk and meat.
• By improving the quality of fodder we can improve the animal value chains.
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1 B li3-Materials and methods
1- Base line survey • First of all fodder markets in Faisalabad will be visited to
identify the areas and farmers that provide fodder to theidentify the areas and farmers that provide fodder to the market. Then these farmers will be interviewed based on a structured questionnaireI i ill i l d• Interviews will include
Socio economic aspects of the farmerCrops grown by the farmerCrops grown by the farmerAgricultural practicesProblems faced by the farmersProblems faced by the farmers
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2 Fi ld i t
3-Materials and methods2- Field experiment
Field experiment will be conducted in the experimental fields of the University of Agriculture, Faisalabad, Pakistanfields of the University of Agriculture, Faisalabad, Pakistan
2.1- Experimental designExperiment will be conducted in Completely Randomized Design (CRD) with two factor factorial.
2 2 F t2.2- Factors 1- Fertilizer2- Fodder type2- Fodder type
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3-Materials and methods
1- Fertilizeri- Controli Control
In control conditions no fertilizer will be applied.ii- Animal dung
In this treatment N,P,K contents of dung will bedetermined and then this will be applied according to theN P K requirements of the cropN,P,K requirements of the crop
iii- CoralingQuantity of dung and urine excreted by one animal(buffalo) per day will be measured and N,P,K of dungand urine will be determined and then animal will be keptin field for calculated time.
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3- Materials and methodsiv- Chemical fertilizer
Chemical fertilizer will applied to the field according to t d d i t f thstandard requirements of the crop
2- Fodder type2- Fodder typeTwo types of fodders will be used for the experiment. Fodder types will be selected from the base line survey
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3- Materials and methods (Layout) 4.85 m Path = 0.76 m Water channel = 1 m Border
f1 f2 V1 V2 V1 V2 f1 f2
F0R1 F1R1 F2R1 F1R2
2.42 m
V1 V2 f1 f2 f1 f2 V1 V2
V1 V2 f1 f2 V1 V2 f1 f2
F2R2 F0R2 F3R1 F3R2
f1 f2 V1 V2 f1 f2 V1 V2
V1 V2 V1 V2 f1 f2 V1 V2
17.57 m V1 V2 V1 V2 f1 f2 V1 V2
F2R3 F0R3 F1R4 F0R4
f1 f2 f1 f2 V1 V2 f1 f2
V1 V2 f1 f2 f1 f2 V1 V2
F3R3 F1R3 F2R4 F3R4
f1 f2 V1 V2 V1 V2 f1 f2
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f1 f2 V1 V2 V1 V2 f1 f2
42.6 m
3- Materials and methods (Layout) D i CRD lit l t d iDesign: CRD split plot design Replication = 4 = R1, R2, R3, R4 Fertilizer = 3= F0= no fertilizer, F1 = Animal Manure, F2 = chemical fertilizer, F3= coaling Fodder= 2 = f1, f2 Vegetable = 2 = V V
9.70 m
Vegetable = 2 = V1, V2
1- Main plot: 9.70 × 5.85m = 56.74 m2 2- Sub plot = 4.85 × 2.42m = 11.74 m2 3- Path width = 0 76 m
Water channel
5.85m
1 m 3- Path width 0.76 m
4- Water channel = 1 m 5- Border = 0.76 m
So total area required for the experiment is = 23.19 × 42.6m = 987.90 m2
m
So total area required for the experiment is 23.19 42.6m 987.90 m Main plot 2.4
Sub plot 4.85 m
42 m
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3- Materials and methods2.4- Data collection
1- Yield related traits Morphological traits Phenological traitsPhenological traits
2- Chemical analysis2 Chemical analysis Mineral analysis Quality traits y
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4-Statistical analysis
All data collected will be statistically analyzed using appropriate statistical packageappropriate statistical package.
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5-Time plan
• Three months for literature and secondary data collection
Th th f b li• Three months for baseline survey
• Two years for field research• Two years for field research
• Six months for data evaluation and publications and S o s o da a e a ua o a d pub ca o s a dthesis write up
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6- Possible outcomes
Possible outcomes of this research are:
• Availability of good quality fodder throughout the year
• Ultimately improvement in animal productivity and value chainschains
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C hi I 1953 M l d k t l i th ilk f th
7 .References• Cowchie, I. 1953. Mole and skatole in the milk of the
ruminant feeding on Lepkfium spp. Aust. J. Exp. Biol. Med. Sci. 31:373
• Economic Survey of Pakistan. 2008. Ministry of Finance, Agriculture and Livestock, Federal Bureau of Statistics, Islamabad PakistanIslamabad, Pakistan.
• Martin, B., A. Priolo, M.A. Valvo, D. Micol and J.B. Coulon, 2005. Effects of grass feeding on milk, cheese , g g ,and meat sensory properties. Options Méditerranéennes, Series A, 67:213-223Ma rice E H F B Robert and S M Darrel 1985• Maurice, E.H., F.B. Robert and S.M. Darrel. 1985. Forages. p. 413-421. In: The Science of Grassland Agriculture. (4th ed.) Iowa State Univ. Press (Ames),
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Iowa, USA.
7- References
• Rashid, M., A.M. Ranjha and A. Rehim. 2007. Model based P fertilization to improve yield and quality of sorghum (Sorghum bicolor L.) fodder on an ustochrept soil. Pakistan Journal of Agricultural Sciences 44: 221-227.
• The National Coordinated Research Programme on Fodder at NARCwww.parc.gov.pk/1SubDivisions/NARCCSI/CSI/Fodder.html
• Urbach, G., 1990, Effect of Feed on Flavor in Dairy Foods. J Dairy Sci 73:3639-3650
• Walters S 2008 If You Eat Meat and Milk Eat OrganicWalters, S., 2008. If You Eat Meat and Milk, Eat Organic. http://ezinearticles.com/?If--You--Eat--Meat--and--Milk,--Eat--Organic&id=954834
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7- References• Younas, M. and M. Yaqoob. 2005. Feed resources of
livestock in the Punjab, Pakistan. Livestock Research for Rural Development http://www.lrrd.org/lrrd17/2/youn17018.htmRural Development. http://www.lrrd.org/lrrd17/2/youn17018.htm
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