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水稻高产氮高效型品种的根系形态生理特征
引用本文:李敏,张洪程,杨雄,葛梦婕,马群,魏海燕,戴其根,霍中洋,许轲,曹利强,吴浩. 水稻高产氮高效型品种的根系形态生理特征[J]. 作物学报, 2012, 38(4): 648-656. DOI: 10.3724/SP.J.1006.2012.00648
作者姓名:李敏  张洪程  杨雄  葛梦婕  马群  魏海燕  戴其根  霍中洋  许轲  曹利强  吴浩
作者单位:1扬州大学农业部长江流域稻作技术创新中心 / 江苏省作物遗传生理重点实验室,江苏扬州225009;2贵州省水稻研究所,贵州贵阳550006
基金项目:国家自然科学基金项目(30971732和31101102);国家粮食丰产科技工程项目(2011BAD16B03);贵州省水稻育种、栽培与产业化创新能力建设项目(黔科合院所创能合[2011]4003);贵州山区水稻科研基础条件建设项目(黔科条中补地[2011]4005);贵州省科技计划(黔科合[2009]3014)资助
摘    要:选用低产氮低效型、高产氮中效型和高产氮高效型具有代表性的6个粳稻品种,在各自最适氮素水平下,研究了根系形态生理特征的差异。结果表明,较之低产类型品种,高产类型品种在根干重、根体积、根系总吸收表面积、活跃吸收表面积、根系α-NA氧化量及根系伤流强度等方面在各个生育时期均存在着明显的优势,说明生产力的提高伴随着根系形态特征的改善和生理活性的加强。同为高生产力类型品种,因氮利用率的差异根系形态生理特征表现不同。较之高产氮中效类型,高产氮高效型水稻的群体根干重、群体根体积、群体根系伤流强度和根系总吸收表面积均有所降低,而单茎根干重、单茎根体积、单茎根系伤流强度、活跃吸收表面积比及根系α-NA氧化量却有显著或极显著提高。表明适当控制高生产力水稻的群体生长量,促进群体和个体协调发展,着力提高抽穗后单茎根系质量,将是水稻高产和氮高效协调统一的可靠途径。

关 键 词:水稻  高产高效  根系形态  根系生理
收稿时间:2011-10-22

Root Morphological and Physiological Characteristics of Rice Cultivars with High Yield and High Nitrogen Use Efficiency
LI Min,ZHANG Hong-Cheng, YANG Xiong,GE Meng-Jie,MA Qun,WEI Hai-Yan,DAI Qi-Gen,HUO Zhong-Yang,XU Ke,CAO Li-Qiang,and WU Hao. Root Morphological and Physiological Characteristics of Rice Cultivars with High Yield and High Nitrogen Use Efficiency[J]. Acta Agronomica Sinica, 2012, 38(4): 648-656. DOI: 10.3724/SP.J.1006.2012.00648
Authors:LI Min  ZHANG Hong-Cheng   YANG Xiong  GE Meng-Jie  MA Qun  WEI Hai-Yan  DAI Qi-Gen  HUO Zhong-Yang  XU Ke  CAO Li-Qiang  and WU Hao
Affiliation:1.Innovation Center of Rice Technology in Yangtze Rice Valley, Ministry of Agriculture / Key Laboratory of Crop Genetics and Physiology of Jiangsu Province, Yangzhou University, Yangzhou 225009, China;2.Rice Research Institute of Guizhou Province, Guiyang 550006, China
Abstract:The difference of root morphological and physiological characteristics of low-yielding and low N-efficiency, high- yielding and medium N-efficiency, high-yielding and high N-efficiency rice cultivars was investigated using six representative japonica varieties under their optimum N levels. The results showed that the high-yielding genotypes showed distinct advantages over the low-yielding ones in root dry weight, root volume, total and active absorbing surface areas of root system, root oxidation ability of α-NA, and root bleeding intensity at each growth stage, indicating that the increase of productivity was accompanied by the improvement of root morphological traits and the enhancement of root physiological activities. Cultivars with different N-efficiency displayed diverse root morphological and physiological characteristics, even though they were all on a high-yielding level. Comparing with medium N-efficiency genotypes, the high N-efficiency ones showed lower root dry weight, root volume, root bleeding intensity and root total absorbing surface area for populations, but for single plants, the root dry weight, root volume, root bleeding intensity, active absorbing surface area and α-NA oxidation amount were superior in a significant or extremely sig-nificant degree. The results above suggest that the coordination of high-yielding with high N-efficiency could be achieved through controlling population growth properly, facilitating the concordant development of plant population and individuals, and endeav-oring to improve the single stem root quality after heading.
Keywords:Rice  High-yielding and high N-efficiency  Root morphological characteristics  Root physiological characteristics
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