Abstract
One of the important sources of greenhouse gases is the emission of methane from rice fields. Methane emission from rice fields is the result of a complex array of soil processes involving plant-microbe interactions. The cumulative effects of these processes at the level of individual plants influence the global atmospheric composition and make it necessary to expand our research focus from small plots to large landscapes and regions. However, present extrapolations (‘upscaling’) are tenuous at best because of methodological and practical problems. The different steps taken to calculate regional emission strengths are discussed and illustrated by calculations for a case-study in the Philippines. The applicability of high quality, process-based, models of methane emission at the level of individual plants is limited for regional analysis by their large data requirements. Simplified models can be used at the regional level but are not able to capture the complex emission situation. Data availability and model accuracy are therefore often difficult to match. Other common sources of uncertainty are the quality of input data. A critical evaluation of input data should be made in every upscaling study to assess the suitability for calculating regional emissions. For the case-study we show effects of differences in input data caused by data source and interpolation technique. The results from the case-study and similar studies in literature indicate that upscaling techniques are still troublesome and a cause of large uncertainties in regional estimates. The results suggest that some of the stumbling blocks in the conventional upscaling procedure are almost impassable in the near future. Based on these results, a plea is made for meso-level measurements to calibrate and validate upscaling methods in order to be better able to quantify and reduce uncertainties in regional emission estimates.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aselmann I. 1989. Global-scale extrapolation: a critical assessment. In: Andreae M.O., Schimel D.S. and Robertson G.P. (eds), Exchange of Trace Gasses Between Terrestrial Ecosystems and The Atmosphere. Report of the Dahlem Workshop, Berlin 1989, February 19–24. Wiley, Chichester
D. Bachelet J. Kern M. Tolg (1995) ArticleTitleBalancing the rice carbon budget in China using spatially-distributed data Ecol. Modelling 79 167–177 Occurrence Handle1:CAS:528:DyaK2MXmt1Cjtbk%3D Occurrence Handle10.1016/0304-3800(94)00031-C
D. Bachelet H.U. Neue (1993) ArticleTitleMethane emissions from wetland rice areas of Asia Chemosphere 26 219–237 Occurrence Handle1:CAS:528:DyaK3sXitFymtbo%3D Occurrence Handle10.1016/0045-6535(93)90423-3
Batjes N.H. 1995. A homogenized soil data file for global environmental research: a subset of FAO, ISRIC and NRCS profiles (Version 1.0). 95/10, ISRIC, Wageningen
Z.C. Cai T. Sawamoto C.S. Li G. Kang J. Boonjawat A. Mosier R. Wassmann H. Tsuruta (2003) ArticleTitleField validation of the DnDC model for greenhouse gas emissions in East Asian cropping systems Global Biogeochem. Cyc. 17 IssueID4 1107 Occurrence Handle10.1029/2003GB002046 Occurrence Handle1:CAS:528:DC%2BD2cXhsFKltLY%3D
M.K. Cao J.B. Dent O.W. Heal (1995) ArticleTitleModeling methane emissions from rice paddies Global Biogeochem. Cyc. 9 879–897
M.K. Cao K. Gregson S. Marshall (1998) ArticleTitleGlobal methane emission from wetlands and its sensitivity to climate change Atmos. Environ. 32 3293–3299 Occurrence Handle1:CAS:528:DyaK1cXltFOgsLY%3D Occurrence Handle10.1016/S1352-2310(98)00105-8
R.J. Cicerone J.D. Shetter (1981) ArticleTitleSources of atmospheric methane: Measurements in rice paddies and a discussion J. Geophys. Res. 86 7203–7209 Occurrence Handle1:CAS:528:DyaL3MXltFyktbc%3D Occurrence Handle10.1029/JC086iC08p07203
Climate Unit I. 1995. Compilation of Weather Data for 1994, Climate Unit, Agronomy, Plant Physiology, and Agroecology Division, International Rice Research Institute, Los Banos, Philippines
T.M. Corton J.B. Bajita C.A. Asis SuffixJr. R. Pamplona (1995) ArticleTitleMethane emission from an irrigated Phillipine paddy field subjected to several fertilizer treatments Philippine J. Crop Sci. 20 IssueID1 39–55
H.A.C. Denier van der Gon (2000) ArticleTitleChanges in CH4 emissions from rice fields from 1960 to the 1990s. I. Impacts of modern rice technology Global Biogeochem. Cyc. 14 61–72 Occurrence Handle1:CAS:528:DC%2BD3cXhvVGnu70%3D Occurrence Handle10.1029/1999GB900096
H.A.C. Denier van der Gon S. Houweling P.M. Bodegom ParticleVan P.H. Verburg N. Breemen ParticleVan (2000) ArticleTitleCombining upscaling and downscaling of methane emissions from rice fields: methodologies and preliminary results Nutrient Cyc. Agroecosyst. 58 285–301 Occurrence Handle1:CAS:528:DC%2BD3MXhtVeisbg%3D Occurrence Handle10.1023/A:1009863107151
H.A.C. Denier van der Gon M.J. Kropff N. Breemen Particlevan R. Wassmann R.S. Lantin E. Aduna T.M. Corton H.H. Laar Particlevan (2002) ArticleTitleOptimizing grain yields reduces CH4 emissions from rice paddy fields Proceedings of the National Academy of Sciences 99 IssueID19 12021–12024 Occurrence Handle1:CAS:528:DC%2BD38XntlCltbo%3D Occurrence Handle10.1073/pnas.192276599
S. Frolking C.S. Li R. Braswell J. Fuglestvedt (2004) ArticleTitleShort- and long-term greenhouse gas and radiative forcing impacts of changing water management in Asian rice paddies Global Change Biol. 10 1180–1196 Occurrence Handle10.1111/j.1529-8817.2003.00798.x
S.R. Hanna (1982) Handbook on Atmospheric Diffusion Technical Information Center, Department of Energy U.S
R.S. Hanson T.E. Hanson (1996) ArticleTitleMethanotrophic bacteria Microbiol. Rev. 60 439–471 Occurrence Handle8801441 Occurrence Handle1:CAS:528:DyaK28XktVejur8%3D
M. Heimann T. Kaminski (1999) Inverse modelling approaches to infer surface trace gas fluxes from observed atmospheric mixing ratios A.F. Bouwman (Eds) Approaches to Scaling of Trace Gas Fluxes in Ecosystems. Developments in Atmospheric Science 24 Elsevier Amsterdam
S. Houweling T. Kaminski F.J. Dentener J. Lelieveld M. Heimann (1999) ArticleTitleInverse modeling of methane sources and sinks using the adjoint of a global transport model J. Geophys. Res. 104 IssueIDD21 26137–26160 Occurrence Handle1:CAS:528:DyaK1MXotFWqtbg%3D Occurrence Handle10.1029/1999JD900428
Y. Huang R.L. Sass F.M. Fisher (1997) ArticleTitleMethane emission from Texas rice paddy soils. 1. Quantitative multi-year dependence of CH4 emissions to soil, cultivar and grain yield Global Change Biol. 3 479–489 Occurrence Handle10.1046/j.1365-2486.1997.00083.x
Y. Huang R.L. Sass F.M. Fisher (1998a) ArticleTitleModel estimates of methane emission from irrigated rice cultivation of China Global Change Biol. 4 809–821 Occurrence Handle10.1046/j.1365-2486.1998.00175.x
Y. Huang R.L. Sass F.M. Fisher (1998b) ArticleTitleA semi-empirical model of methane emission from flooded rice paddy soils Global Change Biol. 4 247–268 Occurrence Handle10.1046/j.1365-2486.1998.00129.x
InstitutionalAuthorNameIntergovernmental Panel of Climate Change (1997) Revised 1996 IPCC Guidelines for National Greenhouse Gas Inventories Workbook OECD, Paris
IRRI 1992. Agrohydrologic and socioeconomic characterization of the rainfed lowland rice research consortium site at Victoria, Tarlac, Philippines, Program report for 1992. International Rice Research Institute, Manila, pp. 66–68
InstitutionalAuthorNameIRRI (1995) Program Report for 1995 International Rice Research Institute Manila, Philippines
M.A.K. Khalil R.A. Rasmussen M.J. Shearer (1998a) ArticleTitleEffects of production and oxidation processes on methane emissions from rice fields J. Geophys. Res. 103 25233–25239 Occurrence Handle1:CAS:528:DyaK1cXntFSktLY%3D Occurrence Handle10.1029/98JD01116
M.A.K. Khalil R.A. Rasmussen M.J. Shearer R.W. Dalluge L.X. Ren C.L. Duan (1998b) ArticleTitleMeasurements of methane emissions from rice fields in China J. Geophys. Res. 103 25181–25210 Occurrence Handle1:CAS:528:DyaK1cXntFSktLs%3D Occurrence Handle10.1029/97JD02611
M.A.K. Khalil R.A. Rasmussen M.X. Wang L. Ren (1993) ArticleTitleMethane sources in China: historical and current emissions Chemosphere 26 127–142 Occurrence Handle1:CAS:528:DyaK3sXitFylu7o%3D Occurrence Handle10.1016/0045-6535(93)90417-4
A.W. King A.R. Johnson R.V. O’Neill D.L. DeAngelis (1989) ArticleTitleUsing ecosystem models to predict regional CO2 exchange between the atmosphere and the terrestrial biosphere Global Biogeochem. Cyc. 3 337–361 Occurrence Handle1:CAS:528:DyaK3MXhsVOmsLg%3D
T.F. Le Toan F. Ribbens L.-F. Wang N. Floury K.-H. Ding A. Kong M. Fujita T. Kurosu (1997) ArticleTitleRice crop mapping and monitoring useing ERS-1 data based on experiment and modelling results IEEE T. Geosci. Remote Sens. 35 IssueID1 41–56 Occurrence Handle10.1109/36.551933
S.A. Levin (1993) Concepts of Scale at the Local Level J.R. Ehleringer C.B. Field (Eds) Scaling Physiological Processes; Leaf to Globe. Physiological Ecology Academic Press San Diego 7–20
C.S. Li A. Mosier R. Wassmann Z.C. Cai X.H. Zheng Y. Huang H. Tsuruta J. Boonjawat R. Lantin (2004) ArticleTitleModeling greenhouse gas emissions from rice-based production systems: sensitivity and upscaling Global Biogeochem. Cyc. 18 GB1043 Occurrence Handle10.1029/2003GB002045 Occurrence Handle1:CAS:528:DC%2BD2cXjvF2is70%3D
J.G. Liu Y.H. Zhang K.S. Shao M. Shao L.M. Zeng S.H. Lu S. Slanina H.A.C. Denier van der Gon (2000) ArticleTitleEstimation of regional methane emission from rice fields using simple atmospheric diffusion models Nutrient Cyc. Agroecosyst. 58 IssueID1–3 303–310 Occurrence Handle1:CAS:528:DC%2BD3MXhtVeisbk%3D Occurrence Handle10.1023/A:1009815223989
R. Matthews R. Wassmann J. Arah (2000) ArticleTitleUsing a crop/soil simulation model land GIS techniques to assess methane emissions from rice fields in Asia. I. Model development Nutr. Cycl. Agroecosyst. 58 IssueID1–3 141–159 Occurrence Handle1:CAS:528:DC%2BD3MXhtVeisLk%3D Occurrence Handle10.1023/A:1009894619446
K. Minami A. Mosier R.L. Sass (1994) CH4 and N2O: Global emissions and controls from rice fields and other agricultural and industrial sources Nat Inst Agro-Environm Sci Tsukuba, Japan
InstitutionalAuthorNameNational Statistics Office (1994a) 1991 Census of Agriculture, Volume 2: Final report (by location of the farm) Bulacan Republic of the Philippines
InstitutionalAuthorNameNational Statistics Office (1994b) 1991 Census of Agriculture, Volume 2: Final report (by location of the farm) Nueva Ecija Republic of the Philippines
InstitutionalAuthorNameNational Statistics Office (1994c) 1991 Census of Agriculture, Volume 2: Final report (by location of the farm) Pampanga Republic of the Philippines
InstitutionalAuthorNameNational Statistics Office (1994d) 1991 Census of Agriculture, Volume 2: Final report (by location of the farm) Tarlac Republic of the Philippines
Neue H.U., Becker-Heidmann P. and Scharpenseel H.W. 1990. Organic matter dynamics, soil properties and cultural practices in rice lands and their relationship to methane production. In: Bouwman E.D. (ed.), Soils and the Greenhouse Effect. John Wiley and Sons, pp. 457–466
T. Oberthür A. Dobermann H.U. Neue (1996) ArticleTitleHow good is a reconnaissance soil map for agronomic purposes? Soil Use Manag. 12 33–43
T. Oberthür P. Goovaerts A. Dobermann (1999) ArticleTitleMapping soil texture classes using field texturing, particle size distribution and local knowledge by both conventional and geostatistical methods Eur. J. Soil Sci. 50 IssueID3 457–479 Occurrence Handle10.1046/j.1365-2389.1999.00255.x
R.V. O’Neill (1979) Transmutation across hierarchical levels G.S. Innis R.V. O’Neill (Eds) Systems Analysis of Ecosystems International Cooperative Publishing House Fairlands, Md. 59–78
R.V. O’Neill (1988) Hierarchy theory and global change T. Rosswall R.G. Woodmansee P.G. Risser (Eds) Scales and Global Change. John Wiley and Sons New York 29–45
W.J. Parton D.S. Schimel C.V. Cole D.S. Ojima (1987) ArticleTitleAnalysis of factors controlling soil organic matter levels in the Great Plains grasslands Soil Sci. Soc. Am. J. 51 1173–1179 Occurrence Handle1:CAS:528:DyaL2sXmtlGnsbw%3D Occurrence Handle10.2136/sssaj1987.03615995005100050015x
InstitutionalAuthorNamePhilrice/BAS (1995) Provincial Rice Statistics (1995) Philrice Maligaya, Philippines
R.A.J. Plant (2000) ArticleTitleRegional analysis of soil-atmosphere nitrous oxide emissions in the Northern Atlantic zone of Costa Rica Global Change Biol. 6 IssueID6 639–653 Occurrence Handle10.1046/j.1365-2486.2000.00352.x
R.A. Rastetter A.W. King B.J. Cosby G.M. Hornberger R.V. O’Neill J.E. Hobbie (1992) ArticleTitleAggregating fine-scale ecological knowledge to model coarse-scale attributes of ecosystems Ecol. Applications 2 55–70 Occurrence Handle10.2307/1941889
T.L. Root S.H. Schneider (1995) ArticleTitleEcology and climate: research strategies and implications Science 269 334–341 Occurrence Handle1:CAS:528:DyaK2MXntVyit70%3D Occurrence Handle17841250
R.L. Sass R.J. Cicerone (2002) ArticleTitlePhotosynthate allocations in rice plants: food production or atmospheric methane, invited commentary Proceedings of the National Academy of Sciences 99 11993–11995 Occurrence Handle1:CAS:528:DC%2BD38XntlCltLk%3D Occurrence Handle10.1073/pnas.202483599
R.L. Sass F.M. Fisher A. Ding Y. Huang (1999) ArticleTitleExchange of methane from rice fields: National, regional, and global budgets J. Geophys. Res. 104 IssueIDD21 26943–26951 Occurrence Handle1:CAS:528:DyaK1MXotFajsLk%3D Occurrence Handle10.1029/1999JD900081
R.L. Sass F.M. Fisher F.T. Turner M.F. Jund (1991) ArticleTitleMethane emission from rice fields as influenced by solar radiation, temperature and straw incorporation Global Biogeochem. Cyc. 5 335–350 Occurrence Handle1:CAS:528:DyaK38XhtFanu7s%3D
R.L. Sass J.A. Andrews A. Ding F.M. Fisher (2002a) ArticleTitleSpatial and temporal variability in methane emissions from rice paddies: implications for assessing regional methane budgets Nutrient Cyc. Agroecosyst. 64 IssueID1–2 3–7 Occurrence Handle1:CAS:528:DC%2BD38XovVClsLo%3D Occurrence Handle10.1023/A:1021107016714
R.L. Sass A. Mosier X.H. Zheng (2002b) ArticleTitleIntroduction and summary: International Workshop on Greenhouse Gas Emissions from Rice Fields in Asia Nutrient Cyc. Agroecosyst. 64 IssueID1–2 ix–xv
V. Smil (1999) ArticleTitleChina’s agricultural land China Quart. 158 414–429 Occurrence Handle10.1017/S030574100000583X
Soil Survey Staff (1995). Soil Survey Manual, Bureau of Plant Industry, Soils and Agricultural Engineering, USDA
P.M. Van Bodegom P.A. Leffelaar A.J.M. Stams R. Wassmann (2000) ArticleTitleModelling methane emissions from rice paddies: variability, uncertainty and sensitivity analysis of processes involved Nutrient Cyc. Agroecosyst. 58 IssueID1–3 231–248 Occurrence Handle1:CAS:528:DC%2BD3MXhtVeisbw%3D Occurrence Handle10.1023/A:1009854905333
Van Bodegom P.M., Verburg P.H. and Denier van der Gon H.A.C. 2002a. Upscaling methane emissions from rice paddies: problems and possibilities. Global Biogeochem. Cy. 16(1): Art. No. 1014
P.M. Bodegom ParticleVan P.H. Verburg A. Stein S. Adiningsih H.A.C. Denier van der Gon (2002b) ArticleTitleEffects of interpolations and data resolution on methane emission estimates from rice paddies Ecol. Environ. Stat. 9 5–26 Occurrence Handle10.1023/A:1013755405957
P.M. Bodegom ParticleVan R. Wassmann T.M. Metra-Corton (2001) ArticleTitleA process-based model for methane emission predictions from flooded rice paddies Global Biogeochem. Cy. 15 247–263 Occurrence Handle10.1029/1999GB001222
van der Woerd H. 2000. Upscaling Methane Emissions from Wetland Rice Fields (UPRICE); Feasibility study on employing radar data for the Philippines – Final report to the BCRS on Phase-1 – Proejct 4.2/AP-09, Institute for Environmental Studies, Amsterdam
Ven T.v.d. and Tempel P. 1994. ISIS 4.0, ISRIC Soil Information System. 14, ISRIC, Wageningen
P.H. Verburg H.A.C. Denier van der Gon (2001) ArticleTitleSpatial and temporal dynamics of methane emissions from agricultural sources in China Global Change Biol. 7 IssueID1 31–49 Occurrence Handle10.1046/j.1365-2486.2001.00389.x
R. Wassmann H. Schütz H. Papen H. Rennenberg W. Seiler D. Aiguo S. Renxing S. Xingjian W. Minxing (1993) ArticleTitleQuantification of methane emissions from Chinese rice fields (Zhejiang Province) as influenced by fertiliser treatment Biogeochemistry 20 83–101 Occurrence Handle1:CAS:528:DyaK2cXhsVaks70%3D
T.J. Wilbanks R.W. Kates (1999) ArticleTitleGlobal changes in local places: How scale matters Climatic Change 43 601–628 Occurrence Handle10.1023/A:1005418924748
M. Williams R.A. Rastetter D.N. Fernandes M.L. Goulden G.R. Shaver L.C. Johnson (1997) ArticleTitlePredicting gross primary productivity in terrestrial ecosystems Ecol. Appl. 7 882–894
R.G. Woodmansee (1989) Ecosystem Processes and Global Change T. Rosswall R.G. Woodmansee P.G. Risser (Eds) Scales and Global Change Wiley New York 11–27
K. Yagi H. Tsuruta K. Kanda K. Minami (1996) ArticleTitleEffect of water managment on methane emission from a Japanese rice paddy field: automated methane monitoring Global Biogeochem. Cyc. 10 255–267 Occurrence Handle1:CAS:528:DyaK28Xjs1Khsbc%3D Occurrence Handle10.1029/96GB00517
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Verburg, P.H., van Bodegom, P.M., van der Gon, H.A.C.D. et al. Upscaling Regional Emissions of Greenhouse Gases from Rice Cultivation: Methods and Sources of Uncertainty. Plant Ecol 182, 89–106 (2006). https://doi.org/10.1007/s11258-005-9033-z
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s11258-005-9033-z