Chemical Composition of Potato Tubers in Relation to Crop Production System and Environmental Conditions
Chemical Composition of Potato Tubers in Relation to Crop Production System and Environmental Conditions
参考文献31
-
1W. Leszczynski, The quality of potato for consumption, Food Science Technology Quality, Suplement 4 (25) (2000) 5-27.
-
2K. Zgorska, AF. Mazurczyk, Agotechnical and storage conditions and potato tuber quality, Bulletyn of Potato Research Institute 33 (1985) 109-119.
-
3H. Slowinski, M.P. Kosicka, U.P. Bialczyk, Effect of phosphorus and potassium fertilization on the growth and yield of two varieties of potatoes grown on slightly loamy sand and light clay, Research Papers of Agriculture Institute in Wroclaw, Agriculture 262 (1995) 67-79.
-
4M. Wyszkowski, The contents of nitrogen compounds, and vitamin C in potato tubers depending on the nitrogen and fungicides, Fragm. Agron. 12 (49) (1996) 9-18.
-
5K. Somorowska, Effect of fertilization with high doses of potassium and irrigation on some quality traits in potato tubers, Bulletyn of Potato Research 35 (1987) 61-72.
-
6A. Wierzbicka, W. Mazurczyk, J. Wroniak, Influence of N fertilization and date of harvest on yield and chosen tuber quality characteristics of early varieties of potato, Progressive Books of Agricultural Sciences 530 (2008) 207-217.
-
7M. Friedman, L. Dao, Distribution of glycoalcaloids in potato plants and commercial potato products, 1. Agri. Food. Chern. 40 (1992) 419-423.
-
8M. Friedmann, G.M. Mc Donald, Potato glycoalcaloids, chemistry, analysis, safety, and plant physiology, Crit. Rev. Plant. Sci. 16 (1997) 103.
-
9A. Gransedt, L. Kjellenberg, P. Roinila, Long term field experiment in Sweden: Effects of organic and inorganic fertilizers on soil fertility and crop quality, in: Proc. of the Conf. on Agric. Production and Nutrition, Boston, MA, USA, Mar. 1997, pp. 79-90.
-
10A Nitithamyong, J.H. Vonalbe, R.M. Wheeler, T.W. Tibbits, Glycoalcaloids in potato tubers grown under controlled environments, Am. J. of Potato Res. 76 (1999) 337-343.
-
1气候变化将极大影响种子产业[J].农化市场十日讯,2015,0(1):38-38.
-
2张宏名.作物生产系统研究与发展[J].世界农业,1994(10):44-47.
-
3戚昌瀚.作物生产系统的模拟模型研究进展[J].江西农业大学学报,1991,13(A01):1-6. 被引量:9
-
4刘玉华,张立峰.土地当量比的实质及应用分析[J].耕作与栽培,1999,19(4):64-64. 被引量:7
-
5作物栽培学与耕作学学科简介[J].河北农业大学学报(农林教育版),2000,2(1):89-89.
-
6田小海,邹社校.土地利用-作物生产系统模拟研究进展[J].湖北农学院学报,2001,21(3):261-266. 被引量:1
-
7气候变化将极大影响种子产业[J].种业导刊,2015(1):33-33.
-
8周泽,朱典云,舒忠旭,杨锡波,陈德万.作物生产系统及其熵变——兼论作物高产栽培[J].农业系统科学与综合研究,1996,12(1):51-54. 被引量:1
-
9朱荣松,邓九胜,李勇.水稻产量与氮肥利用率对不同配方肥料的响应[J].现代农业,2008(10):17-21. 被引量:6
-
10刘玉华,张立峰,边秀举.土地当量比计算方法的改进与应用[J].河北农业大学学报,1999,22(2):19-21. 被引量:7