Livestock s Long Shadow Environmental Issues and Options

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Livestock s Long Shadow Environmental Issues and Options Henning Steinfeld Pierre Gerber Tom Wassenaar Vincent Castel Mauricio Rosales Cees de Haan presented by Irene Hoffmann ERFP Workshop - Dublin 25 August 2007

Drivers of the Livestock Sector Demand Drivers Population growth: + 50 % by 2050 globally; slowing down in East Asia, still strong elsewhere in developing countries Income growth: strong in E and S Asia, NENA and SS Africa picking up Urbanization: more than 80 % of population growth occurs in cities of developing countries Supply Drivers Cheap grain: decreasing prices over the past four decades Technological change: genetics, feeding, transport Cheap energy: substantial externalities Policy environment: incentive frameworks, market and credit regulation, sanitary standards, labour and environmental policies

Broad trends: soaring output and underlying structural changes Million metric tons 350 300 250 200 150 100 50 0 1970 1975 1980 1985 1990 1995 2000 2015 2030 2050 Developing Developed Growing intensities Increasing scales Vertical integration/longer food chains Geographic shifts / geographic concentration

Estimated distribution of livestock production systems livestock s long shadow

Quantification of environmental impacts: approach Global issues: land use climate change water resources biodiversity Analysis of impacts using a food chain approach (from feed production to product) Identification of technical and policy mitigation options livestock s long shadow

Review of impacts Land use Pastures: 3.4 billion hectares (26% of emerged lands) wide range of production intensities marginal land frontier is exhausted 20% of rangeland are estimated to be degraded UNEP (up to 73% in the drylands) 470 million hectares of arable land dedicated to animal feed production (ca. 33% of overall arable land) Geographical trends: Intensification geographical concentration Increased reliance on transport livestock s long shadow

Trends in land-use area for livestock production and total production of meat and milk

Estimated feed surplus/deficit soymeal (pig and poultry) livestock s long shadow

Review of impacts Climate change 18% of anthropogenic GHG emissions are related to livestock (equivalent CO 2 ) Deforestation: 35% of sector s emissions Manure: 31% of sector s emissions Enteric fermentation : 25% of sector s emissions Feed production: 7% of sector s emissions Ammonia emissions livestock s long shadow

Livestock related land use change: Deforestation in the Neotropics ~2.4 million ha/year Forest Pasture ~0.5 million ha/year Forest Feed crops ~2.4 billion tons CO 2 livestock s long shadow

Livestock and Climate Change: Technical Mitigation Options Control of Land use change Conserve/restore C and N in cultivated soils Mitigate C loss from pasture soils Reduce enteric fermentation Improved manure management livestock s long shadow

Review of impacts Water resources Livestock sector represents 8% of all entropic water use, 90% of which for feed production. Feed production: 15% of evapotranspiration in agriculture (irrigated) Overall pollution: hardly quantifiable but substantial at feed production, animal production and processing levels (nutrients, organic matter, antibiotics, pesticides) impact on water cycles livestock s long shadow

Livestock and Water: Technical Mitigation Options Improved water use efficiency Irrigation efficiency Water productivity Better waste management Production stage: balance feed, phase feeding, supplements Improved manure collection process Manure storage and processing Improved utilization of waste Land management Adapted grazing systems, range improvements, critical periods Improving livestock distribution livestock s long shadow

Review of impacts (wild) Biodiversity Main mechanism habitats degradation/destruction: deforestation pollution desertification intensive agriculture Fishmeal production causing over-fishing IUCN identifies livestock as one of the threats to 1699 endangered species (red list) livestock s long shadow

Livestock and Biodiversity: Technical Mitigation Options Biodiversity loss often results from environmental degradation Many options previously presented apply Intensification - Reduction of pressure on natural land and habitat - Integrated agriculture: response to excessive chemical use - Conservation agriculture: restore habitats Combine local improvements with Ecological infrastructure conservation/restoration at landscape level Adoption of good agricultural practices livestock s long shadow

Hotspots of environmental impact Climate Water Biodiversity Pasture and feedcrop expansion into natural ecosystems +++ + +++ Rangeland degradation +++ ++ ++ Contamination in intensive production areas + +++ ++ Intensive feedcrop agriculture ++ ++ ++

Underlying causes (i) Neglect of externalities negative externalities, e.g. water and soil pollution, climate change, biodiversity losses, etc. positive externalities, e.g. carbon sequestration, ecosystem diversity/biodiversity gains Inadequate pricing At input level, e.g. land water At output level, e.g. subsidies

Underlying causes (ii) Livestock production concentrates The clustering of livestock close to feed outlets, consumption centres leads to nutrient overloads Disruption of nutrient cycling Mismanaged grazing lack of stewardship in marginal and remote areas

Principles for policy intervention (i) Get prices right: Inefficiencies in resource use, often increasing use and leads to misallocation of resources among competing uses (within and outside agriculture) Apply Polluter pays, provider gets principles Payment for environmental services could be major tools E.g. to shift to service-oriented grazing (making carbon sequestration, water and biodiversity protection a major purpose of extensive systems) Water pricing to include water cleaning costs

Principles for policy intervention (ii) Seek livestock/ecosystem balances: Bring livestock in balance with surrounding land. The need for intensification of production (without concentration) Spatial planning of industrial systems Intensification of crop-livestock systems Develop institutions for environmental stewardship The importance of liability The need to educate and inform

The social and health dimensions Environmental policies should be designed and implemented in the context of social and health objectives: 1.3 billion people depend (partially or entirely) on livestock for their livelihoods The cultural dimension of livestock Livestock provide protein and micro-nutrients to many of the 830 million food insecure people Livestock contributes to health problems of the affluent (obesity, cancers, cardio-vascular diseases

Livestock Environment and Development Initiative (LEAD) An Inter-institutional Initiative

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