Climate change mitigation strategies in agriculture and land use in Indonesia

详细信息    查看全文

• 作者：Tomoko Hasegawa (1)
  Yuzuru Matsuoka (2)
  
  1. Center for Social & Environmental Systems Research ; National Institute for Environmental Studies ; 16-2 Onogawa ; Tsukuba ; Ibaraki ; 305-8506 ; Japan
  2. Department of Urban and Environmental Engineering ; Graduate School of Engineering ; Kyoto University ; C-cluster ; Kyoto-Daigaku-Katsura ; Nishigyo-ku ; Kyoto-shi ; Kyoto ; 615-8540 ; Japan
  
• 关键词：Climate change ; Land use change ; Agriculture ; Mitigation potentials ; Indonesia
• 刊名：Mitigation and Adaptation Strategies for Global Change
• 出版年：2015
• 出版时间：March 2015
• 年：2015
• 卷：20
• 期：3
• 页码：409-424
• 全文大小：560 KB
• 参考文献：1. Akiyama H, Yan X, Yagi K (2010) Evaluation of effectiveness of enhanced-efficiency fertilizers as mitigation options for N2O and NO emissions from agricultural soils: meta-analysis. Glob Chang Biol 16:1837鈥?846 CrossRef
  2. Amann M, H枚glund Isaksson L, Winiwarter W, Tohka A, Wagner F, Schopp W, Bertok I, Heyes C (2008) Emission scenarios for non-CO₂ greenhouse gases in the EU-27 Mitigation potentials and costs in 2020, final report, International Institute for Applied Systems Analysis, Laxenburg, Austria. Available at: http://ec.europa.eu/clima/policies/package/docs/ir_07_nonco2_en.pdf. Cited December 2012
  3. Badan Perencanaan dan Pembangunan Nasional (BAPPENAS) (2009) Reducing carbon emissions from Indonesia鈥檚 peat lands, interim report of a multi-disciplinary study, Republic of Indonesia. Available at: http://www.forestforclimate.org
  4. Bates J (1998) Options to reduce methane emissions (Final report), ATA Technology Environment, 3773: 3. Available at: http://ec.europa.eu/environment/enveco/climate_change/pdf/methane_emissions.pdf. Cited Dec. 2012
  5. Boer R, Gintings AN, Bey A (1999) Greenhouse Gases Inventory and abatement strategy for forestry and land use change sector. Journal of Agrometeorology 13:26鈥?6
  6. Boer R (2001) Economic assessment of mitigation options for enhancing and maintaining carbon sink capacity in Indonesia. Mitig Adapt Strateg Glob Chang 6:257鈥?90 CrossRef
  7. Boer R, Wasrin UR, Perdinan H, Dasanto BD, Makundi W, Hero J, Ridwan M, Masripatin N (2007) Assessment of carbon leakage in multiple carbon-sink projects: a case study in Jambi Province, Indonesia. Mitig Adapt Strateg Glob Chang 12:1169鈥?188 CrossRef
  8. Dewan Nasional Perubahan Iklim (DNPI) (2010) Indonesia鈥檚 greenhouse gas abatement cost curve, Republic of Indonesia. Available at: http://www.dnpi.go.id. Cited Apr. 2012
  9. FAOSTAT (2011) FAOSTAT. Download from: http://faostat.fao.org/default.aspx. Dec. 2011
  10. FAOSTAT (2012) FAOSTAT. Download from: http://faostat.fao.org/default.aspx. Apr. 2012
  11. Golan A, Judge G, Miller D (1996) Series in financial economics and quantitative analysis, maximum entropy econometrics, robust estimation with limited data, ISBN 978-0-471-95311-1. Wiley, New York
  12. Graus W, Harmelink M, Hendriks C (2004) Marginal GHG-abatement curves for agriculture. Ecofys, the Netherland
  13. Hasegawa T, Matsuoka Y (2012) Greenhouse gas emissions and mitigation potentials in agriculture, forestry and other land use in Southeast Asia. J Integr Environ Sci 9(S1):159鈥?76 CrossRef
  14. Hendriks CA, de Jager D (2000) Global methane and nitrous oxide emissions: options and potential for reduction, in non-CO₂ greenhouse gases: scientific understanding, control and implementation. Springer Netherlands, the Netherlands, pp 433鈥?45 CrossRef
  15. Hooijer A, Page S, Canadell JG, Silvius M, Kwadijk J, W枚sten H, Jauhiainen J (2010) Current and future CO2 emissions from drained peatlands in Southeast Asia. Biogeosciences 7:1505鈥?514 CrossRef
  16. International Fertilizer Industry Association (IFA)/International Fertilizer Development Center (IFDC)/Food and Agriculture Organization of the United Nations (FAO) (1999) Fertilizer use by crop 4th edition, Rome
  17. International Fertilizer Industry Association (IFA)/International Fertilizer Development Center (IFDC)/Food and Agriculture Organization of the United Nations (FAO) (2002) Fertilizer use by crop 5th edition, Rome
  18. IPCC (2006) In: Eggleston HS, Buendia L, Miwa K, Ngara T, Tanabe K (eds) 2006 IPCC guidelines for national greenhouse gas inventories, prepared by the National Greenhouse Gas Inventories Programme. IGES, Japan
  19. IPCC (2007) In: Climate Change Mitigation of Climate Change. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, 2007 Summary for Policymakers. B. Metz, O.R. Davidson, P.R. Bosch, R. Dave, L.A. Meyer (eds) Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA
  20. IRRI (2011) IRRI world rice statistics. Available at: http://irri.org/worldrice-statistics.html. Cited Apr. 2012
  21. Miettinen J, Hooijer A, Shi C, Tollenaar D, Vernimmen R, Liew SC, Malins C, Page SE (2012) Extent of industrial plantations on Southeast Asian peatlands in 2010 with analysis of historical expansion and future projections. GCB Bioenergy 4:908鈥?18
  22. Ministry of Environment (MoE) (2009) Indonesia鈥檚 technology needs assessment on climate change mitigation, synthesis report, Republic of Indonesia
  23. Ministry of Environment (MoE) (2010) Indonesia second national communication under the UNFCCC, Republic of Indonesia
  24. Ministry of Forestry (MoF) (2008) Reducing emissions from deforests and forest degradation in Indonesia, Republic of Indonesia
  25. Murdiyarso D, Hergoualc鈥檋 K, Verchot LV (2010) Opportunities for reduction greenhouse gas emission in tropical peatlands. PNAS 107(46):19655鈥?9660 CrossRef
  26. Nabuurs GJ, Masera O, Andrasko K, Benitez-Ponce P, Boer R, Dutschke M, Elsiddig E, Ford-Robertson J, Frumhoff P, Karjalainen T, Krankina O, Kurz WA, Matsumoto M, Oyhantcabal W, Ravindranath NH, Sanz Sanchez MJ, Zhang X (2007) Forestry. In: Metz B, Davidson OR, Bosch PR, Dave R, Meyer LA (eds) Climate change 2007: mitigation. Contribution of working group III to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA
  27. Page SE, Siegert F, Rieley JO, Boehm H-DV, Jaya A, Limin S (2002) The amount of carbon released from peat and forest fires in Indonesia during 1997. Nature 420:61鈥?5 CrossRef
  28. Sathaye JA, Makundi WR, Andrasko K, Boer R, Ravindranath NH, Sudha P, Rao S, Lasco R, Pulhin F, Masera O, Ceron A, Ordonez J, Deying X, Zhang X, Zuomin S (2001) Carbon mitigation potential and costs of forestry options in Brazil, China, India, Indonesia, Mexico, the Philippines and Tanzania. Mitig Adapt Strateg Glob Chang 6:185鈥?11 CrossRef
  29. Shibata M, Fuminori T (2010) Factors affecting methane production and mitigation in ruminants. Anim Sci J 81:2鈥?0. doi:10.1111/j.1740-0929.2009.00687.x CrossRef
  30. Smith P, Martino D, Cai Z, Gwary D, Janzen HH, Kumar P, McCarl B, Ogle S, O鈥橫ara F, Rice C, Scholes RJ, Sirotenko O, Howden M, McAllister T, Pan G, Romanenkov V, Schneider U, Towprayoon S, Wattenbach M, Smith JU (2007) Greenhouse gas mitigation in agriculture. Phil Trans R Soc B 363:2007鈥?184
  31. USEPA (2006) Global mitigation of non-CO2 greenhouse gases, EPA report, 430-R-06-005, Washington, DC
  32. van der Werfa GR, Dempewolf J, Trigg SN, Randerson JT, Kasibhatla PS, Giglio L, Murdiyarso D, Peters W, Morton DC, Collatz GJ, Dolman AJ, DeFries RS (2008) Climate regulation of fire emissions and deforestation in equatorial Asia. PNAS 105(51):20350鈥?0355 CrossRef
  33. Wicke B, Sikkema R, Dornburg V, Faaij A (2011) Exploring land use changes and the role of palm oil production in Indonesia and Malaysia. Land Use Policy 28:193鈥?06 CrossRef
  34. World Bank (2006) World development indicators. World Bank, Washington, DC
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Earth sciences
  Meteorology and Climatology
  Climate Change
  Environmental Management
  
• 出版者：Springer Netherlands
• ISSN：1573-1596

文摘

We quantitatively evaluated mitigation potentials of greenhouse gas emissions from agriculture and land use sectors in Indonesia. We also determined for the land use sector 1) how much time is needed to plan the mitigation strategy, and 2) how much time is needed to evaluate the effectiveness of mitigation measures? We used a bottom-up type model on emission mitigation named Agriculture Forestry and Other Land Use Bottom-up model (AFOLU-B model) to consider a characteristics time sequence of actions, effects and costs of mitigation countermeasures. To input to the model, we developed future scenarios on human activities in these sectors based on data from Indonesian government. We found that i) evaluation on effects and costs of mitigation measures from a long-term viewpoint and their continuing implementation are required to increase future mitigation potentials under a limited budget. ii) a long-term reduction target will also play an important role for cost-effective countermeasure selection. iii) reforestation of slow glowing species and enhanced natural regeneration will cause great increase in mitigation potential in the country.