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Structural changes of global poultry production and the impact on the environment, including on poultry genetic resources Irene Hoffmann and Pierre Gerber, Animal Production and Health Division, FAO. Guidance for the poultry sector – issues and options
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Structural changes of global poultry production and the impact on the environment, including on poultry genetic resourcesIrene Hoffmann and Pierre Gerber, Animal Production and Health Division, FAO Guidance for the poultry sector – issues and options Joint FAO-WPSA Symposium at EPC, Tours, France, 24 August 2010
Contents • Poultry production and consumption • Structural change • Environmental impact • Poultry genetic diversity • Conclusions
Consumption of livestock products is growing rapidly Per caput consumption of major food items in developing countries – kg per caput per year (index numbers 1961=100)
Calorie and protein consumption from poultry • 90 mill t meat, 63 mill t eggs (2007) • 28% of world meat production • 2.5% consumption increase globally, 3.4% in LDC to 2030 • low consumer price
Growth in production: animal numbers and yields (1980-2007)
Contribution of livestock production systems to food production Global Developing countries data: 2001-2003, Steinfeld et al 2006 68% of eggs and 74% of poultry meat globally from industrial systems
Estimated distribution of industrially produced poultry populations
Geographical concentration of poultry production Three types of clusters • Close to markets (poor transport infrastructure) • Close to feed resources (well developed transport infrastructure) • In areas characterized by low human population density (environmental regulations)
Changes in geographic concentration of hens in Brazil from 1992 - 2001
Spatial distribution around Bangkok Humans, livestock and feed-crops, 2001
Growing intensities: based on expanding concentrate use feed concentrate use in 2002, million tons
Increasing trade of feedstuff Soybean imports (tons) Maize imports (tons) developing countries: trade deficit in coarse grain
Livestock production and ecosystems Land 26% of emerged land used as pasture/rangeland 33% of crop land dedicated to feed production Water 8% of water use mostly for feed alters the status of the resource (quality and quantity) Biodiversity wildlife: follow on effects of habitat degradation and destruction narrowing agricultural biodiversity Climate 18% of anthropogenic emissions when taking a food chain approach main causes: deforestation, manure management and enteric fermentation
Nutrient overload Estimated contribution of livestock to total P2O5 supply on agricultural land, in areas presenting a P2O5 mass balance of more than 10 kg per hectare (1998 to 2000).
Trouble at the mouth of the Mississippi http://www.sws.uiuc.edu/docs/hypoxia/satimgMorePic.asp?pic=HypoWebTrueColor.jpg
LCA for 1 MT of broiler Pelletier, 2008
Main direct drivers of change of biodiversity in ecosystems http://www.millenniumassessment.org/en/GraphicResources.aspx
Trends within breeding industry higher capital investment - vulnerability high cost for Genomic selection regulation/standards: biosecurity, welfare etc merger and concentration – economies of scale implications for genetic diversity? vertical integration, spread risk downstream strategic research partnerships with (public) universities, access to public R&D funds
Productivity differential (production/head) Partial factor productivity differential between selected developed countries with commercial breeding programmes in all species, and the rest of the world (Production/head) selected developed countries: European Union, USA, Canada, Australia, New Zealand. data: FAO STAT, 2009
Implications for developing countries < 3 % of total global livestock R&D investment to poultry increasing divide between scientific haves and non-haves high market access barriers import of GP/PS stock or day-old chickens low incentives to build own breeding programmes; little characterization, conservation
Countries reporting breeding programmes FAO, 2007
Status of poultry GR conservation • 26 countries with in situ / ex situ poultry conservation programmes • 24 chicken • 7 duck • 2 geese • 2 turkey • 11 cryo-conservation programmes for semen, tissue or DNA • 50% run by government FAO, 2007
critical critical-maintained endangered endangered-maintained extinct not at risk unknown Proportion of the world’s breeds by risk status 9 % extinct 20 % at risk 36 % unknown 2% extinct 31% at risk 40% unknown FAO, 2009
Threats to poultry genetic resources 310 responses, first threat for breeds being at-risk
Conclusions Environment • Protein-energy return on investment 18% for broiler, 7% for eggs (Pelletier, 2008) • In most cases, farm level environmental issues are limited • FCR reduction = reduced land used to grow feed + GHG emission/output • Most of the poultry sector’s environmental impacts are associated with the feed base : deforestation, intensive agriculture, nutrient and water cycles, esp. in regions characterised by high animal concentration Genetic diversity • High share of transboundary breeds • Intensification and commercialization lead to loss of diversity • Conservation supported by hobby breeders and socio-cultural functions