References
- Anderson, D. L., de Boer, H. G., & Portier, K. M. (1995). Identification of nutritional and environmental factors affecting sugarcane production in Barbados. Communications in Soil Science and Plant Analysis, 26, 2887–2901.10.1080/00103629509369495
- Ashraf, M., Rahmatullah, A. R., Bhatti, A. S., Afzal, M., Sarwar, A., Maqsood, M. A., & Kanwal, S. (2010). Amelioration of salt stress in sugarcane (Saccharum officinarum L.) by supplying potassium and silicon in hydroponics. Pedosphere, 20, 153–162.10.1016/S1002-0160(10)60003-3
- Ashraf, M., Afzal, M., Ahmad, R., Maqsood, M. A., Shahzad, S. M., Tahir, M. A., ⋯ Aziz, A. (2012). Growth response of the salt-sensitive and the salt-tolerant sugarcane genotypes to potassium nutrition under salt stress. Archives of Agronomy and Soil Science, 58, 385–398.10.1080/03650340.2010.529609
- Assmann, S. M. (2010). Solute transport. In L. Taiz & E. Zeiger (Eds.), Plant physiology (5th ed., pp. 131–159). Sunderland: Sinauer Associates.
- Bokhtiar, S. M. (2004). Interrelation of soil and plant factors with sugar accumulation and maturity of sugarcane and ratoon. Bangladesh Journal of Botany, 33, 63–67.
- Chen, W., He, Z. L., Yang, X. E., Mishra, S., & Stoffella, P. J. (2010). Chlorine nutrition of higher plants: Progress and perspectives. Journal of Plant Nutrition, 33, 943–952.10.1080/01904160903242417
- Gandonou, C. B., Bada, F., Gnancadja, S. L., Abrini, J., & Skali-Senhaji, N. (2011). Effects of NaCl on Na+, Cl− and K+ ions accumulation in two sugarcane (Saccharum sp.) cultivars differing in their salt tolerance. International Journal of Plant Physiology and Biochemistry, 3, 155–162.
- Golabi, M., Naseri, A. A., & Kashkuli, H. A. (2009). Mathematical modeling of the relationship between irrigation water salinity and sugarcane juice quality. Journal of Food Agriculture Environment, 7, 600–602.
- Gomathi, R., & Thandapani, T. V. (2005). Salt stress in relation to nutrient accumulation and quality of sugarcane genotypes. Sugar Tech, 7, 39–47.10.1007/BF02942416
- Iesaka, M. (2001). Problem of work force on agriculture and productive structure of sugarcane in Okinawa, Japan. Okinawa Kansyatou Nenpou, 32, 21–28.**
- Inoue, S. (2006). Present situation and challenges of the sugarcane and sugar industry in Okinawa prefecture. Journal of Agriculture Policy Research, 12, 65–84.*
- Japan Agriculture, Kagoshima Prefectural Economic Federation of Agricultural Co-operatives. 2015. Information on fertilizers and agrochemicals. [Online] Retrieved from http://www.ks-ja.or.jp/greennet/horticulture/sizai/images/hiryo02-3.pdf, http://www.ks-ja.or.jp/greennet/horticulture/sizai/images/hiryo02-5.pdf.**
- Kafkafi, U. (2001). Introduction; Potassium and chloride in soils. In A. E. Johnston (Ed.), Potassium and chloride in crops and soils: The role of potassium chloride fertilizer in crop nutrition (pp. 11–15, 29–47). Basel: International Potash Institute.
- Kagoshima Prefectural Government, Agriculture Department. (2015). Manual for soil amelioration and fertilization improvement. [Online] Retrieved from http://www.maff.go.jp/j/seisan/kankyo/hozen_type/h_sehi_kizyun/pdf/08460105chap1_6to1_11.pdf.**
- Kikuchi, K. (2009). Introduction. In Sugarcane production in Islands, ‘Farm Management and Utilization of Biomass’ (pp. 1–13). Tokyo: Nourin Toukei Press.**
- Kumar, V., & Verma, K. S. (1997). Relationship between nutrient element content of the index leaf and cane yield and juice quality of sugarcane genotypes. Communications in Soil Science and Plant Analysis, 28, 1021–1032.10.1080/00103629709369851
- Laties, G. G., MacDonald, I. R., & Dainty, J. (1964). Influence of the counter-ion on the absorption isotherm for chloride at low temperature. Plant Physiology, 39, 254–262.10.1104/pp.39.2.254
- Lingle, S. E., & Wiegand, C. L. (1997). Soil salinity and sugarcane juice quality. Field Crops Research, 54, 259–268.10.1016/S0378-4290(97)00058-0
- Lingle, S. E., Wiedenfeld, R. P., & Irvine, J. E. (2000). Sugarcane response to saline irrigation water. Journal of Plant Nutrition, 23, 469–486.10.1080/01904160009382033
- Matsuoka, M. (2006). Sugarcane cultivation and sugar industry in Japan. Sugar Tech, 8, 3–9.10.1007/BF02943734
- Meyer, J. H., & Wood, R. A. (2001). The effects of soil fertility and nutrition on sugarcane quality: A review. Proceedings of South African Sugar Technology Association, 75, 242–247.
- Okinawa Prefectural Government, Department of Agriculture, Forestry and Fisheries. (2015). Cultivation manual for sugarcane [Online]. Retrieved from http://www.maff.go.jp/j/seisan/kankyo/hozen_type/h_sehi_kizyun/pdf/satokibi.pdf.**
- Oliveira, S. R., Neto, J. A. G., Nobrega, J. A., & Jones, B. T. (2010). Determination of macro- and micronutrients in plant leaves by high-resolution continuum source flame atomic absorption spectrometry combining instrumental and sample preparation strategies. Spectrochimica Acta Part B: Atomic Spectroscopy, 65, 316–320.10.1016/j.sab.2010.02.003
- Ota, M., Kuba, M., & Yara, C. (2000). Nutritional and soil diagnosis of sugarcane in Okinawa. Report of the Kyusyu Branch of the Crop Science Society of Japan, 66, 56–59.**
- R Core Team. (2014). R: A language and environment for statistical computing. Austria: R Foundation for Statistical Computing Vienna.
- Ryukyu Fertilizer Co., Ltd. (2015). Product introduction. [Online] Retrieved from http://ryuhi.sakura.ne.jp/seihinsyoukai.html.**
- Saxena, P., Srivastava, R. P., & Sharma, M. L. (1955). Part I: Taking the sugarcane-leaf samples. In B.G. Capo, G. Samels, P. Landrau, S.A. Alers, & A. Riera (Eds.), The method of foliar diagnosis as applied to sugarcane (pp. 8–22). San Juan: University of Puerto Rico.
- Saxena, P., et al. (2010). Studies on salinity stress tolerance in sugarcane varieties. Sugar Tech, 12, 59–63.10.1007/s12355-010-0011-y
- Schnabl, H., & Raschke, K. (1980). Potassium chloride as stomatal osmoticum in Allium cepa L., a species devoid of starch in guard cells. Plant Physiology, 65, 88–93.10.1104/pp.65.1.88
- Stuart, D. A., & Jones, R. L. (1978). Role of cation and anion uptake in salt-stimulated elongation of lettuce hypocotyl sections. Plant Physiology, 61, 180–183.10.1104/pp.61.2.180
- Thomas, J. R., Salinas, F. G., & Oerther, G. F. (1981). Use of saline water for supplemental irrigation of sugarcane1. Agronomy Journal, 73, 1011–1017.10.2134/agronj1981.00021962007300060025x
- Wahid, A. (2004). Analysis of toxic and osmotic effects of sodium chloride on leaf growth and economic yield of sugarcane. Botanical Bullentin of Academia Sinica, 45, 133–141.
- Walworth, J. L., & Sumner, M. E. (1987). The diagnosis and recommendation integrated system (DRIS). Advances in Soil Science, 6, 149–188.10.1007/978-1-4612-4682-4
- Watanabe, K., Fukuzawa, Y., Kawasaki, S., Ueno, M., & Kawamitsu, Y. (2015). Effects of potassium chloride and potassium sulfate on sucrose concentration in sugarcane juice under pot conditions. Sugar Tech. doi:10.1007/s12355-015-0392-z
- Wiegand, C., Anderson, G., Lingle, S., & Escobar, D. (1996). Soil salinity effects on crop growth and yield – illustration of an analysis and mapping methodology for sugarcane. Journal of Plant Physiology, 148, 418–424.10.1016/S0176-1617(96)80274-4