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Environmetal problems related to manure management Greenhouse gas emission from manure stores
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Global growth in livestock production Increase focus on animal manure production and protection of environment Growth in cattle production per capita, FAO stat Trends in agricultural production
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Livestock barns From farm to industry
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Ammonia Greenhouse gases Odour Nitrate leaching Micro-nutrients, heavy metals (Cu, Zn…) Euthrophication Erosion Phosphorous Livestock production - A sources of pollution Uptake in crop Ammonia Greenhouse gases Odour Spreading in field Stored solid manure Stored liquid manure Animal house
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Agriculture is a major sources of plant nutrients to the ocean
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Environmental issues related to agricultural production groundwater pollution Agriculture is the only source to Nitrate in groundwater Groundwater is used as drinking water in DK. Nitrate enrichment is considered a health problem, concentration should be lower than 50 mg NO 3 L -1
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Nitrogen and phosphorous loss to lakes and rivers Enhanced plant growth causes: Colouring of the water reducing depth affected by sun rays Reduces oxygen content
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N and P increase plant and algae growth in the ocean Increased amounts of decaying organic plant material depletes oxygen content In consequence fish are dying This is a problem in warm years with little wind Ocean – oxygen depletion Duce et al. Science 2008
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Nitrogen deposition to oceans Hot spots Duce et al. Science 2008
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Ammonia emission from Danish agriculture Ammonia in the atmosphere originates from Agriculture The total ammonia emission is ca. 70 000 ton or 25 kg N per ha (76% originates from animal production) Ammonia and sulphate or nitrate in the atmosphere forms particulates that is a risk to health When deposited ammonia may change ecosystem that is susceptible to eutrophication
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Losses of N in relation to N application to fields
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Odour Reduce value of houses in neighbohood of livestock farm Nuisance of odour is related to: Number of animals & Distance
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Greenhouse gas emission: Methane and nitrous oxide IPCC 2006 Livestock contributes: 37% of global CH 4 emission 65% of global N 2 O emission (FAO 2006, Livestock long shadow) Contribution to net global warming (Anthropogenic): Methane accounts for 30% Nitrous oxide accounts for 10% (IPCC, 2007) Effect of methane and nitrous oxide: 1 kg CH 4 equals effect of 23 kg CO2 1 kg N 2 O equals effect of 296 kg CO 2 (IPCC 2007)
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Greenhouse Gas emission from animal manure Manure is the source of the gases: Methane: CH 4 Nitrous oxide: N 2 O Global warming potential Methane:23 Nitrous oxide:296 Content: Manure management and GHG mitigation Driving variables and interaction with climate Mitigation technologies Models for assessing effect of management and technologies Conclusion
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Livestock or manure Montegny et al. 2006
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Methane emission Effect of source i.e. solid or liquid manure
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Nitrous oxide emission from animal manure, low oxygen partial pressure Surface of soil, surface of manure stored - Mosaic of aerobic and anaerobic areas
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Solid manure store – nitrous oxide (Hansen MN et al. 2005) Uncovered Covered 10 cm below surface Centre Un-covered heap Covered heap
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Nitrous oxide
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Farming systems with and without Anaerobic Digestion producing biogas Inlet
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Reduce methane (CH 4 ) and nitrous oxide (N 2 O) emission, biogas digestion Biogas energy
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The model include effect of organic matter VS, temperature and storage time VS D is the fraction of manure that is digestible Methane emission is related VS D Methane emisison is related to Temp Methane emission is related to storage time Methane emission is related to inoculum
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GHG emission - effect of anaerobic digestion of animal slurry in a biogas plan
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You may use the IPCC algorithm T animal category, S system and k climate region F(T) = annual CH 4 emission for a livestock category T, kg CH 4 LU -1 yr -1 VS(T) = daily volatile solid excreted for livestock category T, kg dry matter LU -1 day -1 365 = basis for calculating annual VS production, days yr -1 BMP(T) = ultimate methane production for manure from a given livestock category T, m 3 CH 4 Kg -1 of VS T. In your calculations the ultimate methane production rate given in this compendium should be used (Table 3). 0.67 = conversion factor of m 3 CH 4 to kilograms CH 4 MCF(S,k) = methane conversion factors for each manure management system S by climate region k, %
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Exampel of use of IPCC equation, fattening pig
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In your calculations the following model can be used F(T) Annual CH 4 emission for a livestock category T Kg CH4 animal -1 yr - 1 VS(T) Annual volatile solid excreted for livestock category T Kg VS animal -1 yr -1 BMP(T) Biochemical methane production for manure from the livestock category T m 3 CH 4 kg(VS) -1 0.350 MCF(S,k)Methane conversion factors for each manure management system (S) and climate (k) %35 There will be on cow or buffalo and about three fattening pigs per unit: animal -1 yr -1 In the IPPC system is used a livestock unit (LU), which in Europe is about 33 pigs produced per year, on dairy cow or several hundreds chicken
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