1 Lewandrowski,J., Mcdowell,H., House,R., et al. Mitigating greenhouse gas emissions: Implication of the Kyoto Protocol for US agriculture and US agricultural policy. World Resource Review, 2000,12:126~148
2 J.M.F.Johnson, D.C.Reicosky, R.R.Allmaras, et al. Greenhouse gas contributions and mitigation potential of agriculture in the central USA. Soil＆Tillage Research, 2005, 83:73-94
3 Environment Canada. Canada’s Greenhouse Gas Inventory Fact sheet 1-overview:1990-2000.http://www.ec.gc.ca/pdb/ghy/ 1990_00_factsheet/fsl_e.cfm_agriculture.2000
4 James M.Gibbons, Stephen J.Ramsden, Adam Blake. Modelling uncertainty in greenhouse gas emissions from UK agriculture at the farm level. Agriculture, Ecosystems and Environment,2006,112:347~355
5 Isermann, K., Isermann, R. Food production and consumption in Germany: N flows and emissions. Nutrient Cycling Agroecosystem, 1998,52:289~301
6 Federal Ministry for the Environment/Nature Conservation and Nuclear Safety. Climate protection in Germany. Second report of the government of the federal Republic of Germany pursuant to the United Nations Framework Convention on the Climate Change. Bonn, Germany. 1997,68
7 K.J.Kramer, H.C.Moll, S.Nonhebel. Total greenhouse gas emissions related to the Dutch crop production system. Agriculture, Ecosystems and Environment,1999,72:9~16
8 李长生,肖向明,S.Frolking,等.中国农田的温室气体排放.第四纪研究,2003,23(5):493~503
9 张厚瑄,李玉娥.减缓农业生产中温室气体排放的对策及其经济可行性初探.中国农业气象,1996,17(5):7~11
10 Nobuhisa Koga, Haruo Tsuruta, Hiroyuki Tsuji, et al. Fuel consumption-derived CO2 emissions under conventional and reduced tillage cropping systems in northern Japan. Agriculture, Ecosystems and Environment, 2003,99:213~219
11 D.C.Reicosky, D.W.Reeves, S.A.Prior, et al. Effects of residue management and controlled traffic on carbon dioxide and water loss. Soil ＆ Tillage Research, 1999,52:153~165
12 A.J.Franzluebbers, F.M.Hons, D.A.Zuberer. Tillage-induced seasonal changes in soil physical properties affecting soil CO2 evolution under intensive cropping. Soil Tillage ＆ Research, 1995,34:41~60
13 T.Aslam, M.A.Choudhary, S.Saggar. Influence of land-use management on CO2 emissions from a silt loam soil in New Zealand. Agriculture, Ecosystems and Environment, 2000,77:257~262
14 Bruce C.Ball, Albert Scott, John P.Parker. Fields N2O,CO2 and CH4 fluxes in relation to tillage, compaction and soil quality in Scotland. Soil ＆ Tillage Research, 1999,53:29~39
15 M.A.Choudhary, A.Akramkhanov, S.Saggar. Nitrous oxide emissions from a New Zealand cropped soil: tillage effects, spatial and seasonal variability. Agriculture, Ecosystems and Environment,2002,93:33~43
16 Pierre-Andr? Jacinthe, Warren A.Dick. Soil management and nitrous oxide emissions from cultivated fields in southern Ohio. Soil ＆ Tillage Research, 1997, 41:221~235
17 Willison T.W., Webster C.P., Goulding K.W.T., et al. Methane oxidation in temperate soil effective of land use and the chemical form of nitrogern-fertilizer. Chemosphere, 1995,30:539~546
18 Prieme A., Christensen S. Seasonal and variation of methane oxidation in a Danish spurce forest. Soil Biol. Biochem., 1997,29: 1165~1172
19 万运帆,林而达.翻耕对冬闲农田CH4和CO2排放通量的影响初探.中国农业气象,2004,25(3):8~10
20 崔玉亭,韩纯儒,卢进登.集约高产农业生态系统有机物分解及土壤呼吸动态研究.应用生态学报,1997,8(1):59~64
21 孟凡乔.高产农田生态系统土壤有机碳研究.中国农业大学博士学位论文,1999.49~57
22 王立刚.黄淮海平原地区农业生态系统土壤碳氮循环规律的初步研究－以河北省邯郸市为例.中国农业大学博士学位论文,2002,50
23 Schtuz H., Holzapfel-Pschorn,A. Conrad,R. et al. A three-year continuous record on the influence of daytime season and fertilizer trement on methane emission rates from an Italian rice paddy field. Journal Geophysical Research. 1989,94:16405~16415
24 杜道灯.施用有机物对水稻甲烷排放的影响.国外农业环境保护,1992,34(4):25~29
25 Yagi, K and Minami, K. Effects of organic matter application on methane emission from Japanese paddy fields,In:Conf.Soils and the Greenhouse Effects, ISRIC, 1989,1~5
26 王庆一.中国农村能源问题与对策.能源政策研究,1999,2:30~39