期刊文献+

氮锌互作对水稻产量及籽粒氮、锌含量的影响 被引量:53

Effects of N and Zn interaction on yield and contents of N and Zn in grains of rice
下载PDF
导出
摘要 为探明氮锌互作对水稻产量及氮、锌含量的影响,以"镇稻11号"为供试材料,在大田条件下研究了2个氮肥用量(N 200、300 kg/hm2)下6个施锌水平(ZnSO4·7H2O 0、10、25、50、100、150 kg/hm2)对水稻产量及成熟期植株氮、锌浓度及累积量的影响。试验结果表明:在本试验条件下,锌肥的施用对水稻产量的增加不显著,但施锌能显著提高水稻各部位的锌浓度和籽粒锌累积量,并能提高水稻籽粒的氮浓度和粗蛋白含量,且表现出随施锌量的增加籽粒的氮浓度和粗蛋白含量增加的趋势;高施氮量有利于水稻的增产及对锌的吸收与累积。因此,氮锌配施具有增加籽粒锌富集和提高蛋白质含量的双重效益。 The objectives of this study were to investigate the effects of combination use of nitrogen (N) and zinc (Zn) fertilizers on rice yields, and the contents of N and Zn and their accumulations in rice plants at the maturity stage under field conditions. The rice cultivar, Zhendao 11 ( a normal jiponica variety, was grown under two N rates (N 200, 300 kg/ha) with six Zn levels (ZnSO4.TH20 0, 10, 25, 50, 100 and 150 kg/ha). The experiment results show that the Zn fertilizer could slightly improve the rice grain yield. The nutrition quality of rice grains is enhanced with the increases of the contents of grain N, crude protein and Zn under the Zn fertilizer application and the tendency is increased with the increase of the Zn application level. In addition, compared to the normal N rate, the yield, Zn uptake and accumulation of rice plants are increased significantly under the high N rate. These results indicate that both of grain Zn concentration and protein content could be facilitated by applying Zn fertilizer and N fertilizer.
出处 《植物营养与肥料学报》 CAS CSCD 北大核心 2012年第6期1336-1342,共7页 Journal of Plant Nutrition and Fertilizers
基金 国际锌协会合作项目(MD-86) 公益性行业(农业)科研专项(201103003)资助~~
关键词 水稻 氮肥 锌肥 产量 氮浓度 锌浓度 rice N fertilizer Zn fertilizer yield N concentration Zn concentration
  • 相关文献

参考文献24

  • 1Yang X, Romheld V, Marschner H. Effect of bicarbonata and root zone temperature on the uptake of Zn, Fe, Mn and Cu by different rice cultivars ( Oryza sativa L. ) growth in calcareous soil [ J ]. Plant Soil, 1993, (155-156) : 441-445.
  • 2Marschner P. Mineral nutrition of higher plant (3rd ed. ) [ M]. London: Academic Press, 2012. 212-223.
  • 3Cakmak I. Plant nutrition research : priorities to meet human needs for food in sustainable ways[ J]. Plant Soil, 2002, 247: 3-14.
  • 4Demment W M, Young M M, Sensenig R L. Providing micronutrients through food-based solutions: a key to human and national development[ J]. J. Nutr. , 2003, 33: 401-403.
  • 5Hotz C, Brown K H. Assessment of the risk of zinc deficiency in populations and options for its control [ J ]. Food Nutr. Bull. , 2004, 25 : 94-204.
  • 6Welch R M, Graham R D. Breeding for micronutrients in staple food crops from a human nutrition perspective[ J]. J. Exp. Bot. , 2004, 55 : 353-364.
  • 7Erenoglu E B, Kutman U B, Ceylan Yet al. Improved nitrogen nutrition enhances root uptake, root-to-shoot translocation and remobilization of zinc ( 65 Zn) in wheat [ J ]. New Phytol. , 2010 : 1-11.
  • 8杨荣清,黄标,孙维侠,邹忠,丁峰,苏健平.江苏省如皋市长寿人口分布区土壤及其微量元素特征[J].土壤学报,2005,42(5):753-760. 被引量:24
  • 9鲍士旦.土壤农化分析[M].北京:中国农业科技出版社,2005:50-51.
  • 10Waters B M, Uauy C, Dubcovsky J, Grusak M A. Wheat ( Triticum aestivum) NAM proteins regulate the translocation of iron, zinc, and nitrogen compounds from vegetative tissues to grain[J]. J. Exp. Bot. , 2009, 60(15) : 4263-4274.

二级参考文献70

共引文献787

同被引文献843

引证文献53

二级引证文献359

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部