Abstract
Application of sulfate-containing amendments is oftensuggested as a mitigation option to reduce methane (CH4) emissionsfrom rice (Oryza) fields. This paper discusses the mechanism andpotential of this mitigation option, reviews the relevant experimental data,and presents first, indicative costs of application. CH4 emission datafor rice fields with sulfate-containing amendments are compiled toreinterpret the resulting reduction in CH4 emission and find a generalrelationship between emission reduction and amount of sulfate applied. Thereduction in CH4 emission depends on the amount of sulfate applied.However, absolute emission reduction is location specific and cannot bederived from the amount of sulfate (SO2- 4) applied only. We established alogarithmic relationship, across locations, between SO2- 4 application andfractional emission reduction relative to the emission of the non-amendedcontrol field. Recycling of SO2- 4 in the rhizosphere was essential to explainthe observed reductions in CH4 emission for a number of theexperiments. The cost of applying SO2- _4-containing fertilizers varies acrosscountries and depends on local fertilizer prices. Since a fractional reductionis obtained, the cost-efficiency in terms of CH4 mitigation per unitof SO2- 4 applied will be highest in high-emitting rice production systems.Provided the proper target areas are selected, the cost of SO2- 4-containingfertilizer as a mitigation option to reduce CH4 emissions in rice fieldsis estimated at 5–10 US dollar per Mg CO2-equivalent.
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Abrol, I.P., Bhumbla, D.R. and Meelu, O.P.: 1985, 'Influence of salinity and alkalinity on properties and management of ricelands', in Soil Physics and Rice, Los Baños, Philippines, Int. Rice Res. Inst., pp. 183–198.
Achtnich, C., Bak, F. and Conrad, R.: 1995, 'Competition for electron donors among nitrate reducers, ferric iron reducers, sulfate reducers and methanogens in anoxic paddy soil', Biol. Fertil. Soils 19, 65–72.
Alcordo, I.S. and Rechcigl, J.E.: 1993 'Phosphogypsum in Agriculture: A review', Adv. Agron. 49, 55–118.
Arah, J.R.M. and Stephen, K.D.: 1998, 'A model of the processes leading to methane emission from peatland', Atmos. Env. 32, 3257–3264.
Armstrong, W.: 1971, 'Radial oxygen losses from intact rice roots as affected by distance from the apex, respiration and waterlogging', Physiol. Plant. 25, 192–197.
Bhumbla, D.R. and Abrol, I.P.: 1978, 'Saline and sodic soils', in Soils and Rice, Los Baños, Philippines, Int. Rice Res. Inst., pp. 719–738.
Bosse, U. and Frenzel, P.: 1997, 'Activity and distribution of methane-oxidizing bacteria in flooded rice soil microcosms and in rice plants (oryza sativa)', Appl. Env. Microbiology 63, 1199–1207.
Cicerone, R.J. and Oremland, R.S.: 1988, 'Biogeochemical aspects of atmospheric methane', Global Biogeochem. Cycles 2, 299–327.
Cicerone, R.J. and Shetter, J.D.: 1981, 'Sources of atmospheric methane: Measurements in rice paddies and a discussion', J. Geophys. Res. 86, 7203–7209.
Chin, K. and Conrad, R.: 1995, 'Intermediary metabolism in methanogenic paddy soil and the influence of temperature', FEMS Microbiol. Ecol. 18, 85–102.
Dannenberg, S. and Conrad, R.: 1999, 'Effect of rice plants on methane production and rhizospheric metabolism in paddy soil', Biogeochemistry 45, 53–71.
De Jager, D., Hendriks, C.A, Heijnes, H.A.M. and Blok K.: 1998, 'Emission reduction potential and costs for non-CO2 greenhouse gases in the EU-15', paper presented at the fourth International conference on greenhouse gas control technologies, Interlaken, August 30-September 2, 1998.
Denier van der Gon, H.A.C. and Neue, H.U.: 1994, 'Impact of gypsum application on the methane emission from a wetland rice field', Global Biogeochem. Cycles 8, 127–134.
Denier van der Gon, H.A.C. and Neue, H.U.: 1995, 'Influence of organic matter incorporation on the methane emission from a wetland rice field', Global Biogeochem. Cycles 9, 11–22.
Denier van der Gon, H.A.C. and Neue, H.U.: 1996, ‘Oxidation of methane in the rhizosphere of rice plants’ Biol. Fert. Soils 22, 359–366.
Flessa, H. and Fischer, W.R.: 1992, 'Plant-induced changes in the redox potentials of rice rhizospheres', Plant and Soil 143, 55–60.
Freney, J.R., Jacq, V.A. and Baldensperger, J.F.: 1982, ‘The significance of the biological sulfur cycle in rice production’ in Y.R. Dommerques H.G. Diem (eds.), Microbiology of Tropical Soils and Plant Productivity, Boston, Mass., Nijhoff/Junk, pp. 271–313.
Gupta, A., Flora, J.R.V., Sayles, G.D. and Suidan, M.T.: 1994, 'Methanogenesis and sulfate reduction in chemostats - II. Model development and verification', Wat. Res. 28, 795–803.
Hansen, J., Makiko Sato, Ruedy, R., Lacis, A., Oinas, V.: 2000, 'Global warning in the twenty-first century: An alternative scenario', P.N.A.S. 97, 9875–9880.
Hendriks, C.A. and de Jager, D.: 1999, 'Global methane and nitrous oxide emissions: options and potential for reduction', paper presented at the Second International Symposium on Non-CO 2 Greenhouse Gases (NCGG-2); Scientific understanding, control and implementation, Noordwijkerhout, The Netherlands, 8-10 September 1999.
Huang, Y., Sass, R.L. and Fisher, F.M.: 1997, 'Methane emission from Texas rice paddy soils. 1. Quantitative multi-year dependence of CH4 emission on soil, cultivar and grain yield', Global Change Biol. 3, 479–489.
Huang, Y., Sass, R.L. and Fisher, F.M.: 1998, 'A semi-empirical model of methane emission from flooded rice paddy soils', Global Change Biol. 4, 247–268.
Intergovernmental Panel on Climate Change (IPCC): 1992, Climate Change. The Supplementary Report to the IPCC Scientific Assessment, J.T. Houghton, B.A. Callander and S.K. Varney (eds.), Cambridge University Press, New York, 200 pp.
Intergovernmental Panel on Climate Change (IPCC): 1996, Climate Change 1995 - Contribution of working group I to the second assessment report of the Intergovernmental Panel on Climate Change, U.K., Cambridge University Press.
Intergovernmental Panel on Climate Change (IPCC): 1997, Revised 1996 Guidelines for National Greenhouse Gas Inventories, Vol. 3, Reference Manual, Paris, Org. for Econ. Coop. Dev.
Jakobsen, P., Patrick, W.H., Jr. and Williams, B.G.: 1981, 'Sulfide and methane formation in soils and sediments', Soil Sci. 132, 279–287.
Joshi, M.M., Ibrahim, I.K.A. and Hollis, J.P.: 1975, 'Hydrogen Sulfide: Effects on the Physiology of Rice Plants and Relation to Straighthead Disease', Phytopathology 65, 1165–1170.
Kristjansson, J.K., Schönheit, P. and Thauer, R.K.: 1982, 'Different Ks values for hydrogen of methanogenic bacteria and sulfate reducing bacteria: An explanation for the apparent inhibition of methanogenesis by sulfate', Arch. Microbiol. 131, 278–282.
Lelieveld, J., Crutzen, P.J. and Dentener, F.J.: 1998, ‘Changing concentration, lifetime and climate forcing of atmospheric methane’ Tellus 50B, 128–150.
Lindau, C.W., Bollich, P.K., Delaune, R.D., Mosier, A.R. and Bronson, K.F.: 1993, ‘Methane mitigation in flooded Louisiana rice fields’ Biol. Fert. Soils 15, 174–178.
Metra-Corton, T.M., Bajita, J.B., Grospe, F.S., Pamplona, R.R., Asis, Jr C.A., Wassmann, R. and Lantin, R.S.: 2000, 'Methane emission from irrigated and intensively managed rice fields in Central Luzon, Philippines', Nutr. Cycl. Agroecosys. 58, 37–53.
Neue, H.U.: 1997, 'Fluxes of methane from rice fields and potential for mitigation', Soil Use and Management 13, 258–267.
Neue, H.U. and Sass, R.: 1994, 'Trace gas emissions from rice fields', in R.G. Prinn (ed.), Global Atmospheric-Biospheric Chemistry, New York, Plenum Press, pp. 119–148.
Rothfuss, F. and Conrad, R.: 1993, 'Vertical profiles of CH4 concentrations, dissolved substrates and processes involved in CH4 production in a flooded Italian rice field', Biogeochemistry 18, 137–152.
Roy, R., Klüber, H.D. and Conrad, R.: 1997, 'Early initiation of methane production in anoxic rice soil despite the presence of oxidants', FEMS Microbiol. Ecol. 24, 311–320.
Sass, R.L., Fisher, F.M., Wang, Y.B., Turner, F.T. and Jund, M.F.: 1992, 'Methane Emissions from rice fields: The effect of floodwater management', Global Biogeochem. Cycles 6, 249–262.
Schönheit, P., Kristjansson, J.K. and Thauer, R.K.: 1982, 'Kinetic mechanism for the ability of sulfate reducers to out-compete methanogens for Ac', Arch. Microbiol. 132, 285–288.
Schütz, H., Holzapfel-Pschorn, A., Conrad, R., Rennenberg, H. and Seiler, W.: 1989, 'A 3-year continuous record on the influence of daytime, season and fertilizer treatment on methane emission rates from an Italian rice paddy', J. Geophys. Res. 94, 16,405–16,416.
Sinke, A.J.C., Cornelisse, A.A., Cappenberg, T.E. and Zehnder, A.J.B.: 1992, 'Seasonal variation in sulfate reduction and methanogenesis in peaty sediment of eutrophic Lake Loosdrecht, The Netherlands', Biogeochemistry, 16, 43–61.
Stubner, S., Wind, T. and Conrad, R.: 1998, 'Sulfur oxidation in rice field soil: activity, enumeration, isolation and characterization of thiosulfate-oxidizing bacteria', System. Appl. Microbiology 21, 569–578.
Van Bodegom, P.M. and Stams, A.J.M.: 1999, 'Effects of alternative electron acceptors and temperature on methanogenesis in rice paddy soils', Chemosphere 39, 167–182.
Van Bodegom, P.M., Wassmann, R. and Metra-Corton, T.M.: 2001, 'A process-based model for methane emission predictions from flooded rice paddies', Global Biogeochem. Cycles (in press).
Visser, A., Pol, L.W.H. and Lettinga, G.: 1996, 'Competition of methanogenic and sulfidogenic bacteria', Wat. Sci. Technol. 33, 99–110.
Wang, Z.P.; DeLaune, R.D.; Lindau, C.W.; Patrick, W.H., Jr.: 1992, 'Methane production from anaerobic soil amended with rice straw and nitrogen fertilizers', Fertilizer Res. 33, 115–121.
Wassmann, R., Schütz, H., Papen, H., Rennenberg, H., Seiler, W., Dai, A.G., Shen, R.X., Shangguan, X.J. and Wang, M.X.: 1993, 'Quantification of methane emissions from Chinese rice fields: Zhejiang Province', Biogeochemistry 20, 83–101.
Winfrey, M.R. and Zeikus, J.G.: 1977, 'Effect of sulfate on carbon and electron flow during microbial methanogenesis in freshwater sediments', Appl. Env. Microbiol. 33, 275–281.
Wind, T. and Conrad, R.: 1997, 'Localization of sulfate reduction in planted and unplanted rice field soil', Biogeochemistry 37, 253–278.
World Bank, 1998. ‘World Development Indicators 1997’ World Bank CD-ROM, Washington, World Bank.
Yagi, K. and Minami, K.: 1990, 'Effect of Organic Matter Application on Methane Emission from some Japanese Paddy Fields', Soil Sci. Plant Nutr. 36, 599–610.
Yagi, K; Tsuruta, H. and Minami, K.: 1997, 'Possible options for mitigating methane emission from rice cultivation', Nutr. Cycling Agro-ecosys. 49, 213–220.
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Denier van der Gon, H.A., van Bodegom, P.M., Wassmann, R. et al. Sulfate-containing amendments to reduce methane emissions from rice fields: mechanisms, effectiveness and costs. Mitigation and Adaptation Strategies for Global Change 6, 71–89 (2001). https://doi.org/10.1023/A:1011380916490
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DOI: https://doi.org/10.1023/A:1011380916490