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Essay 1: Aggarwal PK, Mall RK (2002). Climate change and rice yields in diverse agroenvironments of India. II. Effect of uncertainties in scenarios and crop models on impact assessment. Clim. Change, 52: 331–343. Agriculture and Food Agency (2008). Annual report of the rice production cost survey. Agriculture and Food Agency, Council of Agriculture, Nantou, Taiwan Ainsworth EA and Ort DR (2010). How do we improve crop production in a warming world? Plant Physiol., 154: 526–530. Audibert M (1997). Technical inefficiency effects among paddy farmers in the villages of the ‘Office du Niger’, Mali, West Africa. J. Product Anal., 8: 379–394. Brown ME, Funk CC (2008). Food security under climate change. Science, 319: 580–581. Chang HH, Wen FI (2011). Off-farm work, technical efficiency, and rice production risk in Taiwan. Agric. Econ., 42: 269–278. Chang JH (1985). A climatological analysis of yield difference between the first and second rice crop in Taiwan. Agr. Forest Meteorol., 36: 113–120. Chiueh YW, Chen MC (2008). Environmental multifunctionality of paddy fields in Taiwan: an application of contigent valuation method. Paddy Water Environ., 6: 229–236. Chiueh YW (2011). The price elasticity of transferring agricultural water to industrial water during non-drought period in Taiwan. Paddy Water Environ., DOI 10.1007/s10333-011-0263-5. Dhungana B, Nuthall P, Nartea G (2004). Measuring the economic inefficiency of Nepalese rice farms using data envelopment analysis. Aust. J. Agric. Resour. Econ., 48: 347–369. Felkner J, Tazhibayeva K, Townsend R (2009). Impact of climate change on rice production in Thailand. Am. Econ. J.: Papers & Proceedings, 99: 205–210. Fernandez-Cornejo J (2007). Off-farm income, technology adoption, and farm economic performance. Economic Research Report No. ERR-36, Economic Research Service, U.S. Department of Agriculture, Washington, DC. Fleisher BM, Liu Y (1992). Economies of scale, plot size, human capital, and productivity in Chinese agriculture. Quart. Rev. Econ. Finance, 32: 112–123. Fu T, Jan M, Liu J (1992). Production frontier methodology, functional form, and individual farm technical efficiency: the case of Taiwanese rice and fruit farms. Taiwan Econ. Rev., 20: 129–153. Goodwin BK (2008). Climate variability implications for agricultural crop production and risk management: discussion. Amer. J. Agr. Econ., 90: 1263–1264. Government Information Office (2012). The Republic of China Yearbook 2011. Government Information Office, Taipei, Taiwan, pp. 13–25. Greene, W (2010). Econometric analysis. Englewood Cliffs, New Jersey: Prentice Hall, Inc. Hansen JW, Challinor AJ, Ines A, Wheeler TR, Moron V (2006). Translating climate forecasts into agricultural terms: advances and challenges. Clim. Res., 33: 27–41. Hayami Y, Ruttan VW (1970). Agricultural productivity differences among countries. Am. Econ. Rev., 60: 895–911. Horie T, Baker JT, Nakagawa F, Matsuui T, Kim HY (2000). Crop ecosystem responses to climate change: rice. in Reddy KR, Hodges HF (Eds.) Climate change and global crop productivity. CABI Press, Wallingford, UK, pp. 81–106. IPCC (2001). Climate change 2001. Intergovernmental Panel on Climate Change (IPCC), Geneva. Jintrawet A, Chinvanno S (2008). Climate change in Southeast Asia and assessment on impact, vulnerability and adaptation on rice production and water resource. Asia-Pacific Network for Global Change Research (APN), Kobe, Japan, pp. 10–21. Just R, Pope R (1979). Production function estimation and related risk considerations. Am. J. Agric. Econ., 61: 276–284. Kwon O, Lee H (2004). Productivity improvement in Korean rice farming: parametric and non-parametric analysis. Aust. J. Agric. Resour. Econ., 48: 323–346. Lansigan, FP, de los Santos WL, Coladilla JO (2000). Agronomic impacts of climate variability on rice production in the Philippines. Agr. Ecosyst. Environ., 82: 129–137. Lur HS, Hsu CJ, Wu CW, Lee CY, Lao CL, Wu YC, Chang SJ, Wang CY, Kondo M (2009). Changes in temperature, cultivation timing and grain quality of rice in Taiwan in recent years. Crop Environ. Bioinfo., 6: 175–182. Mathauda SS, Mavi HS, Bhangoo BS, Dhaliwal BK (2000). Impact of projected climate change on rice production in Punjab (India). J. Trop. Ecol., 41: 95–98. Matthews RB, Kropff MJ, Bachelet D (Eds.) (1996). Modeling the impacts of climate change on rice production in Asia. International Rice Research Institute (IRRI), Los Baños, Philippines. Mendelsohn R, Dinar A (2009). Climate change and agriculture: an economic analysis of global impacts, adaptation and distributional effects. Edward Elgar Publishing, Massachusetts, USA. Minten B, Randrianarisoa JC, Barrett CB (2007). Productivity in Malagasy rice systems: wealth-differentiated constraints and priorities. Agric. Econ., 37: 225–235. Nin A, Arndt C, Preckel PV (2003). Is agricultural productivity in developing countries really shrinking? new evidence using a modified nonparametric approach. J. Devel. Econ., 71: 395–415. Oettli P, Sultan B, Baron C, Vrac M (2011). Are regional climate models relevant for crop yield prediction in West Africa? Environ. Res. Lett., 6: 014008. Oram P A (1985). Sensitivity of agricultural production to climatic change. Clim. Change, 7: 129–152. Phimister E, Roberts D (2006). The effect of off-farm work on the intensity of agricultural production. Environ. Resour. Econ., 34: 493–515. Satyanto KS, Budi IS, Kozue Y (2009). Climate change effects on paddy field thermal environment and evapotranspiration. Paddy Water Environ., 7: 341–347. Van Nguyen N, Ferrero A (2006). Meeting the challenges of global rice production. Paddy Water Environ., 4: 1–9. Wang J, Mendelsohn R, Dinar A, Huang J, Rozelle S, Zhang L (2009). The impact of climate change on China''s agriculture. Agric. Econ., 40: 323–337. Watanabe T, Takashil K (2009). A general adaptation strategy for climate change impacts on paddy cultivation: special reference to the Japanese context. Paddy Water Environ., 7: 313–320. Welch JR, Vincent JR, Auffhammer M, Moya PF, Dobermann A, Dawe D (2010). Rice yields in tropical/subtropical Asia exhibit large but opposing sensitivities to minimum and maximum temperatures. Proc. Natl. Acad. Sci. USA, 107: 14562–14567. Xu X, Jeffrey SR (1998). Efficiency and technical progress in traditional and modern agriculture: evidence from rice production in China. Agric. Econ., 18: 157–165.
Essay 2: Abadie, A. and Gardeazabal, J., 2003. The Economic Costs of Conflict: A Case Study of the Basque Country. American Economic Review, 93(1): 112-132. Abadie, A., Diamond, A., and Hainmueller, J., 2010. Synthetic Control Methods for Comparative Case Studies: Estimating the Effect of California’s Tobacco Control Program. Applications and Case Studies, 105: 493-505. Adams, R., Hamilton, S., McCarl, B., 1986. The benefits of pollution control-the case of ozone and United-States agriculture. American Journal of Agricultural Economics, 68(4): 886-893. Akaike, H., 1973. Information Theory and an Extension of the Maximum Likelihood Principle. In Proceedings of the 2nd International Symposium on Information Theory, Petrov BN, Csaki F (eds). Akad′emiai Kiad′o: Budapest, 267-281. Avnery, S., Mauzerall, D., Liu, J., Horowitz, L., 2011. Global crop yield reductions due to surface ozone exposure: 2. Year 2030 potential crop production losses and economic damage under two scenarios of ozone pollution. Atmospheric Environment, 45: 2297-2309. Carrier, J.-G. and Kripple, E., 1990. Comprehensive study of European forests assesses damage and economic losses from air pollution. Environmental Conservation, 17(4): 365-366. Chen et al., 2012. Does Index Futures Trading Reduce Volatility in the Chinese Stock Market? A Panel Data Evaluation Approach. The Journal of Futures Markets, 00 (00): 1-24. Chen et al., 1996. Development of Receptor Models for the Ambient Aerosols of the Meliao Area in Taiwan. Chinese journal of Public Health, 15(4): 357-372 (in Chinese). Ching et al., 2012. Impact of CEPA on the Labor Market of Hong Kong. China Economic Review, doi:10.1016/j.chieco.2012.04.017. CoA, 2011. Agricultural Statistics Yearbook, Council of Agriculture, Taipei, Taiwan. CoA, 2013. Agricultural Statistics Yearbook, Council of Agriculture, Taipei, Taiwan. Chu, 2012. http://shuchuan7.blogspot.tw/2012/05/blogpost_10.html EPA, 2012. http://ivy5.epa.gov.tw/enews/fact_Newsdetail. asp?InputTime=1011108173140. Felzer, B., Kicklighter, D., Melillo, J., Wang, C., Zhuang, Q., Prinn, R., 2004. Effects of ozone on net primary production and carbon sequestration in the conterminous United States using a biogeochemistry model. Tellus B, 56(3): 230-248. Felzer, B., Reilly, J., Melillo, J., Kicklighter, D., Sarofim, M., Wang, C., Prinn, C., Zhuang, Q., 2005. Future effects of ozone on carbon sequestration and climate change policy using a biogeochemistry model. Climate Change, 73(3): 345-373. Felzer, B., Cronin, T., Reilly, J., Melillo, J., Wang, X., 2007. Impacts of ozone on trees and crops. Comptes Rendus Geosciences, 339(11-12): 784-798. Forni, M. and Reichlin, L., 1998. Let’s Get Real: A Factor-Analytic Approach to Disaggregated Business Cycle Dynamics. Review of Economic Studies, 65: 453-473. Gregory, A. and Head, A. 1999. Fluctuations in Productivity, Investment, and the Current Account. Journal of Monetary Economics, 44: 423-452. Holland, M., Forster, D., King, K., 1999. Cost–benefit analysis for the protocol to abate acidification, eutrophication and ground level ozone in Europe. Technical Report. EAE Technology. Hosny, A.S., 2012. Algeria’s Trade with GAFTA Countries: A Synthetic Control Approach. Transition Studies Review, 19(1): 35-42. Hsiao, C. and Wan, S.K., 2010. Is There an Optimal Forecast Combination? Mimeo. University of Southern California. Hsiao et al., 2012. A Panel Data Approach for Program Evaluation-Measuring the Benefits of Political and Economic Integration of Hong Kong with Mainland China. Journal of Applied Econometrics, http://dx.doi.org/10.1002/jae.1230. Hurvich and Tsai, 1989. Regression and Time Series Model Selection in Small Samples. Biometrika, 76(2): 297-307. Humblot, P. et al., 2013. Assessment of ozone impacts on farming systems: A bio-economic modeling approach applied to the widely diverse French case. Ecological Economics, 85: 50-58. Kikuchi, R., 2004. The Possibility of Combining Solutions to Air Pollution With Policies for Social Improvement Through Transformation of SOx and NOx Into Fertilizer: Data Obtained From the Szechwan Project. The Journal of Environment and Development, 13(3):240-262. Reilly, J., Palstev, S., Felzer, B., Wang, X., Kicklighter, D., Melillo, J., Prinn, R., Sarofim, M.,Sokolov, A., Wang, C., 2007. Global economic effects of changes in crops, pasture and forests due to changing climate, carbon dioxide, and ozone. Energy Policy, 35: 5370-538 Rosenzweig, C.E., Tubiello, F., Goldberg, R., and Bloomfield, J., 2002. Increased crop damage in the US from excess precipitation under climate change. Global Environmental Change, 12:197-202. Spash, C., 1997. Assessing The Economic Benefits to Agriculture from Air Pollution Control. Journal of Economic Surveys, 11(1):47-70. Tang et al., 1995. Absenteeism Due to Respiratory Morbidity in Elementary Schools with Low Level Air Pollution. Chinese Journal of Public Health, 14(2): 201-211 (in Chinese). Texeira, E., Fisher, G., Van Verthuizen, H., Van Dingenen, R., Dentener, F., Mills, G., Walter, C., Ewert, F., 2011. Limited potential of crop management for mitigating surface ozone impacts on global food supply. Atmospheric Environment, 45: 2569-2576. Tu et al., 2014. The Petrochemical Lesson for the Agricultural County: Reviewing Yunlin County’s Environmental Supervision on the Sixth Naphtha Cracking Plant. Journal of Taiwan Land Research, 17(1):59-90 (in Chinese). Tu and Shih, 2014. The Political Role of Scientific Knowledge in the Environmental Impact Assessment: Examining the Health Risk Assessment Disputes of the 6th Naphtha. Taiwan Foundation for Democracy, 11(2): 91-138 (in Chinese).
Essay 3: 胡立諄、賴進貴,2006。「臺灣女性癌症的空間分析」,『臺灣地理資訊學刊』。4 期,39-55。 郭華仁、劉凱翔,2008。「國內外有機農業政策及法規之比較」,有機生態環境與休閒多元化發展研討會專刊,行政院農業委員會花蓮區農業改良場,P.45-68。 Anselin, L., 1988. “Spatial Econometrics: Methods and Models,” Dordrecht: Kluwer Academic. Anselin, L., 1995. “Local Indicators of Spatial Association: LISA,” Geograpgical Analysis, 27:93-115. Anselin, L., 1999. “Spatial Econometrics” Bruton CenterSchool of Social Sciences University of Texas at Dallas Richardson. Dimitri, C., and C. Greene, 2002. “Recent growth patterns in the US organic foods market,” Agriculture Information Bulletin 777. Washington DC: US Department of Agriculture, Economic Research Service. Greene, C., and A. Kremen. 2002. “U.S. organic farming: A decade of expansion,” Agricultural Outlook. November: 31–34. Greene, C., C. Dimitri, B. Lin, W. McBride, L. Oberholtzer, and T. Smith, 2009. Emerging issues in the U.S. organic industry. Economic Information Bulletin No. EIB-55, U.S. Department of Agriculture, Washington, DC. http://www.ers.usda. gov/Publications/EIB55/(last accessed 11 August 2011). Lampkin, N., and S. Padel, 1994. “The Economics of Organic Farming: An International Perspective”, CAB International, Oxon. Läpple, D., 2010. “Adoption and abandonment of organic farming: an empirical analysis of the Irish drystock sector,” Journal of Agricultural Economics, 61:697–714. Läpple, D., and H. Kelley, 2014. “Spatial dependence in the adoption of organic drystock farming in Ireland” European Review of Agricultural Economics, http://dx.doi.org/10.1093/erae/jbu024. Lloyd Christopher D., 2006. Local Models for Spatial Analysis. New York: CRC Press. Sanders, Lena, 2007. Model in Spatial Analysis. Schmidtner, E., C. Lippert, B. Engler, A.M. Ha‥ring, J. Aurbacher, and S. Dabbert, 2011. “Spatial distribution of organic farming in Germany: does neighborhood matter?” European Review of Agricultural Economics, 39:661–683. Suriya, K., and T. Sudtasan, 2014. “Cellular Automata Simulation of Spatial PromotionStrategies for Organic Agriculture,” International Journal of Intelligent Technologies and Applied Statistics. 7(2):159-170. Tobler, W., 1970. “A computer movie simulating urban growth in the Detroit region,” Economic Geography, 46(2):234-240. Wollni, M., and C. Andersson, 2014. “Spatial patterns of organic agriculture adoption: Evidence from Honduras,” Ecological Economics, 91:120-128. Yussefi, M., and H. Willer. 2003. The world of organic agriculture 2003: Statistics and future prospects. 5th ed. Tholey-Theley, Germany: International Federation of Organic Agriculture Movement.
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