Abstract
Since 1980s, the Chinese sugar industry has been developing at a fast pace. In the milling year 2007/2008, the total sugar production in China reached 14.83 MT, which was 24.04 % higher than that in previous milling year, and cane sugar production reached 13.67 MT, which was 92.18 % of the total. Guangxi is the largest sugarcane and sugar producer in China, which produced 9.41 MT sugar in 2007/2008 and 8.56 MT sugar in 2013/2014. China has developed a series of unique farming technologies in commercial sugarcane production and has developed an advanced technology system since 1990s. These technologies include deep ploughing and fine preparation of soil, economical fertilization system; trash addition to field, water-saving irrigation, use of pathogen-free healthy seedcane, rational application of vinasse in sugarcane field, chemical control, mechanization for sugarcane management, and comprehensive control of diseases, pests and weeds. The exploitation and comprehensive application of the new sugarcane farming technologies have promoted the Chinese sugar industry to a new level in about every 5 years, and made China become the third biggest sugar-producing country in the world. However, the sugar industry has been experiencing a very difficult time in the last two milling years because of the worldwide low sugar price and the high production cost at the domestic level, which led to a substantial reduction in sugarcane-growing areas and sugar production. Mechanization and the related sugarcane variety selection and farming technology development have become the bottleneck for sustaining the development of the sugar industry in China.
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Chen, G.F., Q.Z. Tang, Y.R. Li, Y.Y. Huang, B. Liu, L. Xu, and H.R. Huang. 2012. Effects of sub-soil drip fertigation on sugarcane in field conditions. Sugar Tech 14: 418–421.
Jian, R., S. Solomon, Y.R. Li, A. Chandra, and A.K. Shrivastava. 2012. Ethephon: Impact on sugarcane physiology and sugar productivity. Agrotech Publishing Academy, Udaipur, Rajasthan, Sector-5, pp. 120.
Jiang, Z.P., Y.R. Li, G.P. Wei, Q. Liao, T.M. Su, Y.C. Meng, H.Y. Zhang, and C.Y. Lu. 2012. Effect of long-term vinasse application on physic-chemical properties of sugarcane field soils. Sugar Tech 14: 412–417.
Li, Y.R. 2004. China: An emerging sugar super power. Sugar Tech 6: 213–228.
Li, Y.R. 2010. Modern sugarcane science. Beijing: China Agriculture Press.
Li, Y.R. 2006. Techniques and principles for applying ethephon to improve cane productivity and sucrose content in sugarcane. Beijing: China Agriculture Press.
Li, Y.R., and S. Solomon. 2003. Ethephon: A versatile growth regulator for sugar cane industry. Sugar Tech 5: 213–223.
Li, Y.R., and S. Solomon. 2004. Sustainable sugarcane and sugar production technology. Beijing: China Agriculture Press.
Li, Y.R., and S. Solomon. 2006. Technologies to improve sugar productivity in developing countries. Beijing: China Agriculture Press.
Li, Y.R., and Y.A. Wei. 2006. Sugar industry in China: R & D and policy initiative to meet sugar and biofuel demand of future. Sugar Tech 8: 203–216.
Li, Y.R., and L.T. Yang. 2009. New developments in sugarcane industry and technologies in China since 1990s. Southwest China Journal of Agricultural Sciences 22: 1469–1476.
Li, Y.R., and L.T. Yang. 2015a. Sugarcane agriculture and sugar industry in China. Sugar Tech 17: 1–8.
Li, Y.R., and L.T. Yang. 2015b. Research and development priorities for sugar industry of China: Recent research highlights. Sugar Tech 17: 9–12.
Li, Y.R., M.I. Nasr, S. Solomon, and G.P. Rao. 2008a. Meeting the challenges of sugar crops and integrated industries in developing countries. Cairo: Engineering House Press Co.
Li, Y.R., M.K. Srivastava, G.P. Rao, P. Singh, and S. Solomon. 2011. Balancing sugar and energy production in developing countries: sustainable technologies and marketing strategies. Lucknow: Army Printing Press.
Li, Y.R., Q.Z. Zhu, and W.Z. Wang. 2008b. Multiple location experiment of technique system for direct application of vinasse from cane mill in sugarcane fields. Southwest China Journal of Agricultural Sciences 21: 749–755.
Li, Y.R., Q.Z. Zhu, W.Z. Wang, and S. Solomon. 2007. Pre-emergence application of vinasse on sugarcane growth and sugar productivity in China. Sugar Tech 9: 160–165.
Liao, Q., G.P. Wei, G.F. Chen, B. Liu, D.L. Huang, and Y.R. Li. 2014. Effect of trash addition to the soil on microbial communities and physico-chemical properties of soils and growth of sugarcane plants. Sugar Tech 16: 400–404.
Liao, Q., G.P. Wei, B. Liu, G.F. Chen, D.L. Huang, and Y.R. Li. 2010. Effects of mechanized deep ploughing and scarification cultivation technology on growth and yield of sugarcane. Guangxi Agricultural Sciences 41(6): 542–544.
Su, T.M., Y.R. Li, G.P. Wei, Z.P. Jiang, Q. Liao, and S.B. Zhu. 2012. Macronutrients absorption and surface runoff losses under different fertilizer treatments in sugarcane field. Sugar Tech 14: 255–260.
Xu, L., H.R. Huang, Y.Y. Huang, G.F. Chen, L.T. Yang, and Y.R. Li. 2011. Spatial distribution of sugarcane root and soil available nutrients with subsurface drip irrigation in sugarcane field. Guangdong Agricultural Sciences 1: 78–80.
Xu, L., H.R. Huang, L.T. Yang, and Y.R. Li. 2010. Combined application of NPK on yield and quality of sugarcane applied through SSDI. Sugar Tech 12: 104–107.
Yang, L.T., F.L. Mo, Q.Z. Zhu, N. Li, Z.X. Ou, and Y.R. Li. 2012. Effect of vinasse application on sugarcane growth and yield. Journal of Southern Agriculture 43: 18–21.
Yang, L., G. Qin, L.T. Yang, J.M. Wu, R.H. Luo, Y.W. Wei, and Y.R. Li. 2011a. Optimization of sugarcane rapid propagation in temporary immersion bioreactors system. Journal of South China Agricultural University 32(3): 36–41.
Yang, L.T., B.Q. Zhang, Q.Z. Zhu, Z.G. Li, W.Z. Wang, W.J. Chen, and Y.R. Li. 2011b. Effects of application of drought resistant sucrose-yield promoter sprayed by aircraft in large area of sugarcane. Chinese Journal of Tropical Crops 32: 189–197.
Yang, S.D., J.X. Liu, J. Wu, H.W. Tan, and Y.R. Li. 2013. Effects of vinasse and press mud application on the biological properties of soils and productivity of sugarcane. Sugar Tech 15: 152–158.
Ye, Y.P., L.T. Yang, and Y.R. Li. 1995. Effects of deep ploughing and scarification on N, P and K absorption and cane yield and quality in sugarcane. Sugarcane 2(1): 50–51.
Zhu, Q.Z., Y.R. Li, W.Z. Wang, and J. Liao. 2009. Effect of continual quantitative rational application of vinasse in sugarcane field. Sugar Crops of China 2: 10–13.
Funding
The present study was supported by Guangxi Special Funds for Bagui Scholars and Distinguished Experts (2013), Guangxi Innovation Term of Modern Agriculture Technology (gjnytxgxcxtd-03), Guangxi R&D Program (GKN 14121008-2-1, GKG1598006-1-1), and Fund of Guangxi Academy of Agricultural Sciences (GNK2015YT02).
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Li, YR., Song, XP., Wu, JM. et al. Sugar Industry and Improved Sugarcane Farming Technologies in China. Sugar Tech 18, 603–611 (2016). https://doi.org/10.1007/s12355-016-0480-8
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DOI: https://doi.org/10.1007/s12355-016-0480-8