[1]Ravallion M, Datt G. How important to India’s poor is the sectoral composition of growth?. World Bank Economic Review, 1996, 10(1): 1-25.
[2]Estudillo J P, Otsuka K. Green revolution, human capital, and off-farm employment: changing sources of income among farm households in central Luzon, 1966-1994. Economic Development and Cultural Change, 1999, 47(3): 497-523.
[3]Pender J. Agricultural Technology Choices for Poor Farmers in Less-favored Areas of South and East Asia. Washington, D.C.: Asia and the Pacific Division, International Fund for Agricultural Development, 2008.
[4]Conway D. The Doubly Green Revolution: Food for All in the Twenty-First Century. Ithaca, NY: Cornell University Press, 1999.
[5]Fan S. Effects of technological change and institutional reform on production growth in Chinese agriculture. American Journal of Agricultural Economics, 1991, 73(2): 266-275.
[6]Lin J Y. Technological change and agricultural household income distribution: theory and evidence from China. The Australian Journal of Agricultural and Resources Economics, 1999, 43(2): 179-194.
[7]Mendola M. Agricultural technology adoption and poverty reduction: a propensity score matching analysis for rural Bangladesh. Food Policy, 2007, 32(3): 372-393.
[8]黄祖辉, 钱峰燕. 技术进步对我国农民收入的影响及对策分析. 中国农村经济, 2003, (12): 11-17.
Huang Z H, Qian F Y. The impact of technology improvement on peasant’s income in China. China Rural Economy, 2003, (12): 11-17. (in Chinese)
[9]Pray C, Ma D, Huang J, Qiao F. Impact of Bt cotton in China. World Development, 2001, 29(5): 813-825.
[10]Huang J, Hu R, Rozelle S, Pray C, Insect resistant GM rice in farmer fields: assessing productivity and health effects in China. Science, 2005: 688-690.
[11]Feder G, Umali D L. The adoption of agricultural innovations: a review. Technological Forecasting and Social Change, 1993, (43): 215-239.
[12]Huang J, Rozelle S. Technological change: rediscovering the engine of productivity growth in China's rural economy. Journal of Development Economics, 1996, 49(2): 337-369.
[13]Janvry A. D, Sadoulet E. World poverty and the role of agricultural technology: direct and indirect effects. Journal of Development Studies, 2002, 38(4): 1-26.
[14]Otsuka K, Kijima Y. Technology policies for a green revolution and agricultural transformation in Africa. Journal of African Economies, 2010, 19(2): 60-76.
[15]Wu H, Ding S, Tao D. Assessing the impact of agricultural technology adoption on farmers’ well-being using propensity-score matching analysis in rural China. Asian Economic Journal, 2010, 24(2): 141-160.
[16]Ding S, Meriluoto L, Reed W. R, Tao D, Wu H. The Impact of agricultural technology adoption on income inequality in rural China: evidence from southern Yunnan Province. China Economic Review, 2011, 22(3): 344-356.
[17]Wan G. Accounting for income inequality in rural China: a regression-based approach. Journal of Comparative Economics, 2004, 32: 348-363.
[18]Reed R W, Ye H H. Which panel data estimator should i use?. Applied Economics, 2011, 43: 985-1000.
[19]陈玉萍, 吴海涛, 陶大云 Pandey Sushil, 徐鹏, 胡凤益, 丁士军, 王怀豫, 冯璐. 基于倾向得分匹配法分析农业技术采用对农户收入的影响——以滇西南农户改良陆稻技术采用为例. 中国农业科学, 2010, 43(17): 3667-3676.
Chen Y P, Wu H T, Tao D Y, Pandey S, Xu P, Hu F Y, Ding S J, Wang H Y, Feng L. The impact of agricultural technology adoption on rural households' income based on propensity-score matching: taking the adoption of improved upland rice in southwest of Yunnan as Example. Scientia Agricultura Sinica, 2010, 43(17): 3667-3676. (in Chinese) |