SEARCH

SEARCH BY CITATION

References

  • Banik, A., M. Sen, S. P. Sen, Effects of inorganic fertilizers and micronutrients on methane production from wetland rice (Oryza sativa L.), Biol. Fert. Soils, 21, 319322, 1996.
  • Bronson, K. F., A. R. Mosier, Effect of encapsulated calcium carbide on dinitrogen, nitrous oxide, methane, and carbon dioxide emissions from flooded rice, Biol. Fert. Soils, 11, 116120, 1991.
  • Bronson, K. F., H. U. Neue, U. Single, E. B. Abao J, Automated chamber measurements of methane and nitrous oxide flux in a flooded rice soil, I, Residue, nitrogen, and water management, Soil Sci. Soc. Am. J., 61, 981987, 1997.
  • Cai, Z. C., A category for estimate of CH4 emission from rice paddy fields in China, Nutr. Cycles Agroecosystems, 49, 171179, 1997.
  • Cai, Z. C., A. R. Mosier, Effect of NH4Cl addition on methane oxidation by paddy soils, Soil Biol. Biochem., 2000.
  • Cai, Z. C., H. Xu, Effect of land management in winter crop season on methane emission from following rice growth period, Chemistry for the Protection of the Environment, 3L. Pawlowski, et al., 4350, Plenum, New York, 1998.
  • Cai, Z. C., H. Xu, H. H. Zhang, J. S. Jin, Estimate of methane emission from rice paddy fields in Tal-hu region, China, Pedosphere, 44, 297306, 1994.
  • Cai, Z. C., G. X. Xing, X. Y. Yan, H. Xu, H. Tsuruta, K. Yagi, K. Minami, Methane and nitrous oxide emissions from rice paddy fields as affected by nitrogen fertilizers and water management, Plant Soil, 196, 714, 1997.
  • Cai, Z. C., H. Xu, W. S. Lu, Z. W. Liao, J. G. Zhang, C. F Wei, D. T. Xie, Influence of water management in winter crop season on CH4 emission during rice growing season, in Chinese, Chi. J. Appl. Ecol., 9, 171173, 1998.
  • Cai, Z. C., G. X Xing, G. Y. Shen, H. Xu, X. Y. Yan, H. Tsuruta, K. Yagi, K. Minami, Measurements of CH4 and N2O emissions from rice paddies in Fengqiu, China, Soil Sci. Plant Nutr., 45, 113, 1999.
  • Chen, Z. L., D. B. Li, K. S. Shao, B. J. Wang, Features of CH4 emission from rice paddy fields in Beijing and Nanjing, Chemosphere, 261/4, 239245, 1993.
  • , China National Rice Research Institute, Regionalization of Rice Cropping in China, Zhejiang Science and Technology Press, Hangzhou, China, 1988.
  • Denier van der Gon, H. A. C., H. U. Neue, Influence of organic matter incorporation on the methane emission from a wetland rice field, Global Biogeochem. Cycles, 9, 1122, 1995.
  • , International Rice Research Institute, World Rice Statistics 1990, Manila, Philippines, 1991.
  • Inubushi, K., Y. Muramatsu, M. Umebayashi, Effect of incorporation-timing of rice straw on methane emissions from paddy soil (in Japanese), Jpn. J. Soil Sci. Plant Nutr., 65, 2226, 1994.
  • Ishibashi, E., N. Akai, Y. Itoshima, K. Kawanaka, M. Yanai, Effect of soil type and water management on methane emission from paddy fields in Okayama Prefecture, in Japanese, Jpn. J. Soil Sci. Plant Nutr., 68, 417422, 1997.
  • Keerthisinghe, D. G., J. R. Freney, A. R. Mosier, Effect of wax-coated calcium carbide and nirapyrin on nitrogen loss and methane emission from dry-seeded flooded rice, Biol. Fert. Soil, 16, 7175, 1993.
  • Kern, J. S., Z. T. Gong, G. L. Zhang, H. Z. Zhuo, G. B. Luo, Spatial analysis of methane emissions from paddy soil in China and the potential for emissions reduction, Nutr. Cycles Agroecosystems, 49, 181195, 1997.
  • Khalil, M. A. K., R. A Rasmussen, M. X. Wang, L. Ren, Methane emission from rice fields in China, Environ. Sci. Technal., 25, 979981, 1991.
  • Lauren, J. G., G. S. Pettygrove, J. M. Duxbury, Methane emission associated with a green manure amendment to flooded rice in California, Biogeochemistry, 24, 5365, 1994.
  • Lee, C. K., Paddy Soils of China, in Chinese, Science Press, Beijing, China, 1992.
  • Li, D. B., J. W. Zhang, Z. T. Yue, J. N. Gu, Methane reduction of a perenially waterlogged rice paddy (in Chinese), J. Environ. Sci., 5, 444451, 1995.
  • Minami, K., The effect of nitrogen fertilizer use and other practices on methane emission from flooded rice, Fert. Res., 40, 7184, 1995.
  • Oyediran, G., K. Adachi, T. Senboku, Effect of application of rice straw and cellulose on methane emission and biological nitrogen fixation in a subtropical paddy field, I, Methane emission, soil-ARA, and rice plant growth, Soil Sci. Plant Nutr., 42, 701711, 1996.
  • Parashar, D. C., J. Rai, P. K. Gupta, N. Singh, Parameters affecting methane emission from paddy fields, Indian J. Radio Space Phys., 20, 1217, 1991.
  • Parashar, D. C., et al., Methane emission studies and estimate from Indian paddy fields, Non-CO2 Greenhouse Gases: Why and How To Control? Proceedings of an International Symposium, Maastricht, Netherlands, 13–15 Dec , 1993, 389404Kluwer Acad., Norwell, Mass, 1994.
  • Ponnamperuma, F. N., The chemistry of submerged soils, Adv. Agron., 24, 2996, 1972.
  • Rajagopal, B. S., N Belay, and L Daniels, Isolation and characterization of methanogenic bacteria from rice paddies, FEMS Microbiol. Ecol., 53, 153158, 1988.
  • Sass, R. L., Short summary chapter for methane, CH4 and N2O-Global Emissions and Controls from Rice Fields and Other Agricultural and Industrial SourcesK. Minami, et al., 17, Yokendo, Tokyo, 1994.
  • Sass, R. L., F. M Fisher, Y. B. Wang, F. T. Turner, M. F. Jund, Methane emission from rice fields. The effect of floodwater management, Global Biogeochem. Cycles, 6, 249262, 1992.
  • Schutz, H., A. Holzapfel-Pschorn, R. Conrad, H. Rennenberg, W. Seiler, A 3-year continuous record on the influencing of daytime, season and fertilizer treatment on methane emission rates from an Italian rice field, J. Geophys. Res., 94, 16,40516,416, 1989.
  • , Soil Science Society of Japan, Survey Report of Greenhouse Gases Emission from Soils (Summary), Tokyo, 1994.
  • Trolldenier, G., Methanogenesls during rice growth as related to the water regime between crop seasons, Biol. Fert. Soils, 19, 8486, 1995.
  • Wassmann, R., H. U. H U Neue, C. Bueno, R. S. R S Lantin, M. C. R. Alberto, L. V. L V Buendia, K. Bronson, H. Papen, H. Rennenberg, Methane production capacities of different rice soils derived from inherent and exogenous substrates, Plant Soil, 203, 227237, 1998.
  • Watanabe, A., K. Katoh, M. Kimura, Effect of rice straw application on CH4 emission from paddy fields, II, Contribution of organic constituents in rice straw, Soil Sci. Plant Nutr., Tokyo, 39, 707712, 1993.
  • Watanabe, A., M. Kajiwara, T. Tashiro, M. Kimura, Influence of rice cultivar on methane emission from paddy fields, Plant Soil, 176, 5156, 1995.
  • Xie, D. T., Mechanisms of raising crop yield by natural free-tillage of rice fields (in Chinese). Ph.D. thesis,Southwest China Agric. Univ.,Chongqing,1988.
  • Xu, H., Effect of land management in winter crop season on methane emission during rice growth period (in Chinese), M.Sc. dissertation,Inst. of Soil Sci., Chin. Acad. of Sci.,Nanjing,1997.
  • Yagi, K., K. Minami, Effects of organic matter application on methane emission from some Japanese paddy fields, Soil Sci. Plant Nutr., 36, 599610, 1990.
  • Yagi, K., K. Minami, Emission and production of methane in the paddy fields of Japan, Jpn. Agric. Res. Q., 25, 165171, 1991.
  • Yagi, K., K. Minami, Y. Ogawa, Effects of water percolation on methane emission from paddy fields, National Institute of Agro-environmental Sciences, Res. Rep. Div. Environ. Plan., 6, 105112, 1990.
  • Yagi, K., H. Tsuruta, K. Minami, Possible options for mitigating methane emission from rice cultivation, Nutr. Cycles. Agroecosystems, 49, 213220, 1997.
  • Yao, H., Y. H. Zhuang, Estimation of methane emission from rice paddies in mainland China, Global Biogeochem. Cycles, 10, 641649, 1996.