Abstract
According to the revised 1996 IPCC guidelines, several emission factors are needed to calculate national inventories of N2O emissions from agriculture. To estimate the direct N2O emissions from mineral soils, an emission factor of 0.0125 kg N2O-N per kg N applied is currently being used. From recent literature data it was clearly shown that real N2O emissions could differ substantially from this value. Based on the IPCC methodology an inventory of N2O emission from agriculture in Europe (EU-15) has been made. In 1996, the N2O emission was estimated at 672 Gg N2O-N. The N2O emission per country varied between 10 and 177 Gg N2O-N. The N2O emission per ha agricultural land in the various countries varied between 1.7 and 14.2 kg N2O-N ha−1. Highest N2O emissions per ha were found in countries with a high agricultural intensity, such as the Netherlands, Belgium-Luxembourg, Denmark and Germany. Agricultural soils are a sink for atmospheric methane. An oxidation capacity of 2.5 and 1.5 kg CH4 ha−1 yr−1 was put forward for grasslands and arable land, respectively. Based on land use data of 1993, the CH4 sink of agricultural lands in EU-15 was estimated at 303.5 Gg CH4. In general, it could be concluded that N2O emissions from soils (327 Tg CO2 equivalents) are far more important than its sink function for CH4 (6.3 Tg CO2 equivalents).
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References
Adamsen APS & King GM (1993) Methane consumption in temperate and subartic forest soils: rates, vertical zonation, and responses to water nitrogen. Appl Environ Microbiol 59: 485–490
Ambus P & Christensen S (1995) Spatial and seasonal nitrous oxide and methane fluxes in Danish forest grassland-and agroecosystems. J Environ Qual 24: 993–1001
Boeckx P, Van Cleemput O & Meyer T (1998) The influence of land use and pesticides on methane oxidation in some Belgian soils. Biol Fertil Soils 27: 293–298
Borken W & Brumme R (1997) Liming practices in temperate forest ecosystems and the effects on CO2, N2O and CH4 fluxes. Soil Use Manage 13: 251–257
Bouwman AF (1996) Direct emission of nitrous oxide from agricultural soils. Nutr Cycl Agroecosyst 46: 53–70
Bronson KF & Mosier AR (1993) Nitrous oxide emission and methane consumption in wheat and corn-cropped systems. In: ASA Special Publication number. ASA, Madison, pp 133–144
Castro MS, Melillo JM, Steudler PA & Chapman JW (1994) Soil moisture as a predictor of methane uptake by temperate forest soils. Can J Forest Res 24: 1805–1810
Castro MS, Steudler PA, Melilo JM, Aber JD & Bowden RD (1995) Factors controlling atmospheric methane consumption by temperate forest soils. Global Biogeochem Cycl 9: 1–10
Chadwick D, Misselbrook T & Pain B (1999) Potential for reducing gaseous N emissions from high input agriculture. Abstract in: 10th Nitrogen Workshop, 23–26 August 1999, Copenhagen
Clayton H, McTaggart IP, Parker J, Swan L & Smith KA (1997) Nitrous oxide emission from fertilised grassland: A 2–year study of the effects of N fertiliser form and environmental conditions. Biol Fertil Soils 25: 252–260
Cochran VL, Schlentner SF & Mosier AR (1995) CH4 and N2O flux in subartic agricultural soils. In: Lal R, Kimble J, Levine E & Stewart BA (eds) Soil management and the greenhouse effect, pp 179–186. Boca Raton: CRC Press
Crill PM, Martikainen PJ, Nykänen H & Silvola J (1994) Temperature and N fertilization effects on methane oxidation in a drained peatland soil. Soil Biol Biochem 26: 1331–1339
Delgado JA & Mosier AR (1996) Mitigation alternatives to decrease nitrous oxide emissions and urea-nitrogen loss and their effect on methane flux. J Environ Qual 25: 1105–1111
Dobbie KE & Smith KA (1994) Effect of land use on the rate of uptake of methane by surface soils in northern Europe. Annal Geophys 12 II: 388
Dobbie KE & Smith KA (1996) Comparison of CH4 oxidation rates in woodland, arable and set aside soils. Soil Biol Biochem 28: 1357–1365
Dobbie KE, Smith KA, Priemé A, Christensen S, Degorska A & Orlanski P (1996) Effect of land use on the rate of methane uptake by surface soils in northern Europe. Atmospher Environ 30: 1005–1011
Dörr H, Katruff L & Levin I (1993) Soil texture parameterization of CH4 uptake in aerated soils. Chemosphere 26: 697–713
Dueñas C, Fernândez MC, Carretero J, Pérez M & Liger E (1994) Consumption of methane by soils. Environ Monitor Assess 31: 125–130
Dunfield FD, Topp E, Archambault C & Knowles R (1995) Effect of fertilizers and moisture content on CH4 and N2O fluxes in a Humisol: measurements in the field and intact soil cores. Biogeochem 29: 199–222
Firestone MK & Davidson EA (1989) Microbial basis of NO and N2O production and consumption in soil. In: Andrea MO & Schimel DS (eds) Exchange of trace gases between terrestrial ecosystems and the atmosphere, pp 7–21. Chichester: Wiley
Goulding KWT, Willison T, Webster CP & Powlson DS (1996) Methane fluxes in aerobic soils. Environ Monitor Assess 42: 175–187
Gulledge J, Doyle AP & Schimel JP (1997) Different NH4 + inhibition patterns of soil CH4 consumption: a result of distinct CH4 oxidizer population across sites? Soil Biol Biochem 29: 13–21
Hansen S, Maehlum JE & Bakken LR (1993) N2O and CH4 fluxes in soil influenced by fertilization and tractor traffic. Soil Biol Biochem 25: 621–630
Hénault C, Devis X, Page S, Justes E, Reau R & Germon JC (1998) Nitrous oxide emissions under different soil and land management conditions. Biol Fertil Soils 26: 199–207
Houghton JT, Meira Filho LG, Lim B, Tréanton K, Mamaty I, Bonduki Y, Griggs DJ & Callander BA (1997) Greenhouse Gas Inventory. Reference Manual. Revised 1996 IPCC guidelines for national greenhouse gas inventories. Vol I-III. Bracknell, IPCC
Hütsch BW (1996) Methane oxidation in soils of two long-term fertilization experiments in Germany. Soil Biol Biochem 28: 773–782
Hütsch BW (1998) Tillage and land use effect on methane oxidation rates and their vertical profiles in soil. Biol Fertil Soils 27: 284–292
Hütsch BW, Webster CP & Powlson DS (1994) Methane oxidation in soil as affected by land use, soil pH and N fertilization. Soil Biol Biochem 26: 1613–1622
IPCC (1996) Climate Change 1995. The Science of Climate Change. Cambridge: Cambridge University Press. 572 p
Jambert C, Serça D & Delmas R (1997) Quantification of N losses as NH3, NO, and N2O and N2 from fertilized maize fields in south-western France. Nutr Cycl Agroecosyst 48: 91–104
Jarvis SC, Locker DR, Warren G, Hatch DJ & Dollard G (1994) Preliminary studies of the exchange of methane between grassland and the atmosphere. In: 't Mannetje L & Frame J (eds) Grassland and Society, pp 408–412. Wageningen: Wageningen Press
Kaiser EA, Kohrs K, Kücke M, Schnug E, Heynemeyer O & Munch JC (1998a) Nitrous oxide release from arable soil: Importance of N-fertilisation, crops and temporal variation. Soil Biol Biochem 30: 1553–1563
Kaiser EA, Kohrs K, Kücke M, Schnug E, Munch JC & Heinemeyer O (1998b) Nitrous oxide release from arable soil: Importance of e perennial forage crop. Biol Fertil Soils 28: 36–43
Klemedtsson AK & Klemedtsson L (1997) Methane uptake in Swedish forest soil in relation to liming and extra N-deposition. Biol Fertil Soils 25: 296–301
Koschorreck M & Conrad R (1993) Oxidation of atmospheric methane in soil: measurement in the field, in soil cores and in soil samples. Global Biogeochem Cycl 7: 109–121
Kruse CW & Iversen N (1995) Effect of plant succession, ploughing, and fertilization on the microbiological oxidation of atmospheric methane in a heathland soil. FEMS Microbiol Ecol 18: 121–128
Lessard R, Rochette P, Gregorich EG, Pattey E & Desjardins RL (1996) Nitrous oxide fluxes from manure amended soil under maize. J Environ Qual 25: 1371–1377
MacDonald JA, Skiba U, Sheppard LJ, Ball B, Roberts JD, Smith KA & Fowler D (1997) The effect of nitrogen deposition and seasonal variability on methane oxidation and nitrous oxide emission rates in an upland spruce plantation and moorland. Atmospher Environ 31: 3693–3706
Minami K, Goudriaan J, Lantinga EA & Kimaru T (1993) The significance of grasslands in emission and absorption of greenhouse gases. In: Proceedings 17th International Grassland Congress, pp 1211–1238
Mosier A (1998) Soil Processes and global change. Biol Fertil Soils 27: 221–229
Mosier A & Kroeze C (1998) A new approach to estimate emissions of nitrous oxide from agriculture and its implications on the global N2O budget. IGACtivities Newsletter 12: 17–25
Mosier A, Kroeze C, Nevison C, Oenema O, Seitzinger S & Van Cleemput O (1998) Closing the global N2O budget: nitrous oxide emission through the agricultural nitrogen cycle. Nutr Cycl Agroecosyst 52: 225–248
Mosier AR, Parton WJ, Valentine DW, Ojima DS, Schimel DS & Delgado JA (1996) CH4 and N2O fluxes in the Colorado shortgrass steppe: 1. Impact of landscape and nitrogen addition. Global Biogeochem Cycl 10: 387–399
Mosier AR & Schimel DS (1991) Influence of agricultural nitrogen on atmospheric methane and nitrous oxide. Chem Ind 23: 874–877
Mosier AR, Schimel DS, Valentine D, Bronson D & Parton W (1991) Methane and nitrous oxide fluxes in native, fertilized and cultivated grasslands. Nature 350: 330–332
Norwegian Pollution Control Authority (SFT) (1998) Emission of greenhouse gases in Norway. Estimated by default IPCC methodologies and the Norwegian national inventory model. TA-1582/1998, Report 98:06. Norway, 90 p
Ojima DS, Valentine DW, Mosier AR, Parton WJ & Schimel DS (1993) Effect of land use change on methane oxidation in temperate forest and grassland soils. Chemosphere 26: 675–685
Potter CS, Davidson EA & Verchot LV (1996) Estimation of global biogeochemical controls and seasonality in soil methane consumption. Chemosphere 32: 2219–2246
Priemé A (1994) Methane oxidation in a Danish spruce forest and its relation to inorganic nitrogen. Annal Geophys 12 II: 391
Priemé A, Christensen S, Dobbie KE & Smith KA (1997) Slow increase in rate of methane oxidation in soils with time following land use change from arable agriculture to woodland. Soil Biol Biochem 29: 1269–1273
Salway AG (1998) Comparison between the IPCC default and UK greenhouse gas inventories 1990 - 1996. National Environmental Technology Centre. AEAT-4457. Issue 1, UK. 20 p
Schnell S & King GM (1994) Mechanistic analysis of ammonium inhibition of atmospheric methane consumption in forest soils. Appl Environ Microbiol 60: 3541–3521
Sitaula BK & Bakken LR (1993) Nitrous oxide release from spruce forest soil: relationships with nitrification, methane uptake, temperature, moisture and fertilization. Soil Biol Biochem 25: 1415–1421
Sitaula BK, Bakken LR & Abrahamsen A (1995) CH4 uptake by temperate forest soil: effect of N input and soil acidification. Soil Biol Biochem 27: 871–880
Smith P, Powlson DS, Glendining MJ & Smith JU (1997) Potential of carbon sequestration in European soils: preliminary estimates for five scenarios using results from long-term experiments. Global Change Biol 3: 67–79
Steudler PA, Bowden JM, Melillo JM & Aber JD (1989) Influence of nitrogen fertilization on methane uptake in temperate forest soils. Nature 341: 314–316
Steudler PA, Jones RD, Castro MS, Melillo JM & Lewis DL (1995) Microbial controls of methane oxidation in temperate forest and agricultural soils. In: Murrel JC & Kelly DP (eds) Microbilogy of atmospheric trace gases. Sources, sinks and global change processes. NATO ASI Series, Vol. I 39, pp 67–84. Berlin: Springer
Steudler PA, Melillo JM, Feigl BJ, Neill C, Piccolo MC & Cerri CC (1996) Consequences of forest-to-pasture conversion on CH4 fluxes in the Brazilian Amazon basin. J Geophys Res 101: 18547–18554
Striegl RG, McConnaughey TA, Thorstenson DC, Weeks EP & Woodward JC (1992) Consumption of atmospheric methane by desert soils. Nature 357: 145–147
Teira-Estmatges MR, Van Cleemput O & Porta-Casanellas J (1998) Fluxes of nitrous oxide and molecular nitrogen from irrigated soils of Catalonia (Spain). J Environ Qual 27: 687–697
Torn M & Harte J (1996) Methane consumption by montane soils: implications for positive and negative feedback with climate change. Biogeochem 32: 53–67
Van Aardenne JA (1996) Uncertainty and sensitivity analysis of an IPCC/OECD model for estimating N2O emissions from agricultural soils. In: AV Milieuanalyse H250–705. Centre for Environment and Climate Change Research. Wageningen Agricultural University, Wageningen, The Netherlands, 32 p
Van Moortel E, Boeckx P & Van Cleemput O (2000) Inventory of nitrous oxide from agriculture in Belgium - according to the revised 1996 Intergovernmental Panel on Climate Change guidelines. Biol Fertil Soils 30: 500–509
Vermoesen A, Van Cleemput O & Hofman G (1996) Long-term measurements of N2O emissions. Energy Convers Mgmt 37: 1279–1284
Webb J, Cowell D, Kroeze C, Lekkerkerk LJA, Sutton MA, Skiba U, Pain B & Simpson D (1999) Incorporation of biogenic greenhouse gas emission in overall modelling on the European scale. In: Freibauer A & Kaltschmitt (eds) Approach to greenhouse gas inventories of biogenic sources in agriculture, pp 165–186. Proceedings of EU concerted Action FAIR3–CT96–1877. 9–10 July 1998, Lökeberg, Sweden
Whalen SC & Reeburgh WS (1990) Consumption of methane in tundra soils. Nature 346: 160–162
Willison TW, Goulding KWT & Powlson DS (1995) Effect of land use change and methane mixing ratio on methane uptake from United Kingdom soil. Global Change Biol 1: 209–212
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Boeckx, P., Van Cleemput, O. Estimates of N2O and CH4 fluxes from agricultural lands in various regions in Europe. Nutrient Cycling in Agroecosystems 60, 35–47 (2001). https://doi.org/10.1023/A:1012604032377
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DOI: https://doi.org/10.1023/A:1012604032377