Abstract
As a renewable energy, biofuel has attracted great attention in China and the rest of world. Concerned with the national food security, China recently has shifted its biofuel development priority from grain-based to non-grain-based biofuels, including forest-based biodiesel, since 2007. Jatropha curcas is one of major biodiesel feedstocks. However, there is rising debate on availability of land for expanding Jatropha curcas areas. The overall goal of this paper is to evaluate potential land for Jatropha curcas used as feedstock for biodiesel in China. Based on remote sensing data on land use, data on meteorological, soil and land slope, and suitable environment for Jatropha curcas plantation, this study uses Agro Ecological Zone method and considers social-economic constraints to evaluate potential suitable land for Jatropha curcas plantation in China’s major Jatropha curcas production region, Southwest China. The results show that while there are some potential lands to expand Jatropha curcas areas, amount of these lands will hardly meet the government’s target for Jatropha curcas-based biodiesels development in the future. China may need to reconsider its long-term targets on the development of Jatropha curcas-based biodiesels.
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References
Huang J K, Qiu H G, Keyzer M, et al. Impacts of bioethanol development on China’s regional agricultural development (in Chinese). Econ Quart, 2008, 8: 727–742
Wu W G, Qiu H G, Xu Z G. Bio-diesel development: Current status, potential impacts and perspectives (in Chinese). Trans Chin Soc Agric Eng, 2009, 25: 298–302
Yang J, Qiu H G, Huang J K, et al. Fighting global food price rises in the developing world: The response of China and its effect on domestic and world markets. Agric Econ, 2008, 39(Suppl): 453–464
Ming E Z, Yao Z L. The development of biodiesel industry in recent years: Peculiarity, predicament and countermeasure (in Chinese). Trans Chem Prog, 2007, 19: 1050–1059
Openshaw K. A review of Jatropha curcas: An oil plant of unfulfilled promise. Biomass Bioenergy, 2000, 19: 1–15
Deng X Z, Su H B, Zhan J Y. Integration of multiple data sources to simulate the dynamics of land systems. Sensors, 2008, 8: 620–634
Liu J Y, Liu M L, Zhuang D F, et al. Study on spatial pattern of land-use change in China during 1995–2000. Sci China Ser D-Earth Sci, 2003, 46: 373–387
Food and Agriculture Organization (FAO). A Framework for Land Evaluation (Soils Bulletin 32). Rome: Food and Agriculture Organization of the United Nations, 1976
Food and Agriculture Organization (FAO). Agro-ecological Zoning Guidelines. 1996
Food and Agriculture Organization (FAO), International Institute for Applied Systems Analysis (IIASA). Global Agro-ecological Zones. 2000
Achten W M J, Verchot L, Franken Y J, et al. Jatropha bio-diesel production and use. Biomass Bioenergy, 2008, 32: 1063–1084
Ye M, Li C Y, Francis G, et al. Current situation and prospects of Jatroph curcas as a multipurpose tree in China. Agroforest Syst, 2009, 76: 487–497
Yang C Y, Tang J W, Peng D P, et al. Jatropha curcas’ Biology and Ecological Features and Techniques for Breeding New Varieties (in Chinese). Yunnan: Yunnan Sciences and Technology Press, 2008. 12
Yuan L C, Zhao Q, Kang P D, et al. Investigation of geographical distribution and evaluation of Jatropha curcas in Yunnan Province (in Chinese). J Southwest For College, 2007, 20: 1283–1287
Yu B, Tang X Z, Yang J Y, et al. Suitable planting division of Jatropha curcas in Sichuan Province (in Chinese). J Sichuan For Sci Technol, 2008, 29: 71–73
Lou J X, Feng Z S, Tang P, et al. Preliminary Study on Distribution Characteristics of Jatropha curcas and Selection of Its Suitable Habitat in Sichuan Province (in Chinese). J Southwest For College, 2007, 27: 6–10
Zheng J F, Ying X R, Yan Y. Introduction of a method on land moisture division based on Thornthwaite index (in Chinese). Meteorol Sci Technol, 1982, 10: 65–74
Fu B J, Cheng L X, Ma K M. The Effect of Land use change on the regional environment in the Yangjuangou Catchment in the loess Plateau of China (in Chinese). Acta Geogr Sin, 1999, 54: 241–246
Burrough P A, MacMillan R A, Deursen W. Fuzzy classification methods for determining land suitability from soil profile observations and topography. J Soil Sci, 1992, 43: 193–210
Ahamed T R N, Rao K G, Murthy J S R. GIS-based fuzzy membership model for crop-land suitability analysis. Agri Sys, 2000, 63: 75–95
Hu M Y, Wan H F, Wu Z F. GIS-based soil quality evaluation with fuzzy variable weight (in Chinese). Acta Pedol Sin, 2001, 38(3): 266–274
Lü T T. Methodology on Thailand agriculture land suitability evaluation (in Chinese). Doctoral Dissertation. Beijing: Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 2008
National Bureau of Statistics of China. Statistical Yearbook of China (in Chinese). Beijing: China Statistics Press, 2008
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This study was supported by National Natural Science Foundation of China (Grant No. 70741034), the Knowledge Innovation Project of the Chinese Academy of Sciences (Grant Nos. KSCX2-YW-N-039, KSCX1-YW-09-04) and Humanistic and Social Science Planning Project of Ministry of Education (Grant No. 08JA90120).
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Wu, W., Huang, J. & Deng, X. Potential land for plantation of Jatropha curcas as feedstocks for biodiesel in China. Sci. China Ser. D-Earth Sci. 53, 120–127 (2010). https://doi.org/10.1007/s11430-009-0204-y
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DOI: https://doi.org/10.1007/s11430-009-0204-y