Mineral Fertilizer Use and the Environment International Fertilizer Industry Association United Nations Environment Programme
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- 8.2.2. Nitrous oxide
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8.1. Ammonia
H. Kirchmann (1998) observed that ammonia deposition from the atmosphere may enrich terrestrial and aquatic ecosystems. On average in West Europe 92% of all ammonia originates from agriculture. About 30% of the nitrogen excreted by farm animals is released to the atmosphere from animal houses, during storage, grazing and application of animal wastes to the soil. Ammonia emissions from growing arable crops are low, but emissions can be higher from decomposing crops. Composting results in high ammonia losses. Deposition of ammonia takes place over areas where lower amounts would have been supplied. This deposition together with that from nitrogen oxides decreases biodiversity, but it can increase carbon storage in sediments and forest soils. Near very large animal farms, local toxic effects damaging the surrounding vegetation can occur. Ammonia deposition contributes to acidification of soils as ammonia is nitrified to nitrate and then nitrate is lost by leaching. 22 Mineral Fertilizer Use and the Environment matter releases carbon dioxide back to the atmosphere. Good fertilization and tillage management practices improve the net gain of carbon to the soil. Recent estimates indicate that agricultural and forested land in the Northern Hemisphere is now a net sink for carbon dioxide from the soil/plant complex due to increased vegetative growth. According to E. Solberg (1998), for every pound of nitrogen applied as fertilizer, 10 to 12 pounds of carbon can be sequestered. The rapidly increasing use of reduced tillage systems is helping to rebuild soil organic matter, hence increasing the quantity of carbon stored. 8.2.2. Nitrous oxide Nitrous oxide has a greenhouse effect and is considered to be detrimental to the ozone layer. According to experts of the Intergovernmental Panel on Climate Change (IPCC), nitrous oxide is responsible for 7.5% of the calculated greenhouse effect caused by human activity. Its concentration in the atmosphere is increasing at a rate of about 0.2% per annum. Soils are the major global source of N 2 O accounting for some 65% of all emissions; they are the result of microbial processes. Nitrogen fertilizers can be a direct and indirect source of N 2 O emissions; IPCC currently assume an N 2 O emission factor of 1.25% of fertilizer N applied, but with a nine-fold range, from 0.25% to 2.25%. In general, fertilizer management strategies that increase the efficiency of N uptake by crops are likely to reduce emission of N 2 O to the atmosphere. For further information, refer to O.C. Bockman and H.-W. Olfs (1998) and K.A. Smith et al. (1997). Download 213.65 Kb. Do'stlaringiz bilan baham: 
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