干旱条件下冬小麦近等基因系水分利用效率及其与气冠温差的关系  被引量:1

Water Use Efficiency of Winter Wheat Near Isogenic Lines and Its Relationship with Canopy-air Temperature Difference under Drought Conditions

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作  者:黄桂荣[1] 梅旭荣[1] 刘晓英[1] 严昌荣[1] 张欣莹[1] 王雅静[1] 顾峰雪[1] 郭瑞[1] 钟秀丽[1] 

机构地区:[1]中国农业科学院农业环境与可持续发展研究所,国家作物高效用水与抗灾减损工程实验室,农业部旱作节水农业重点开放实验室,北京100081

出  处:《华北农学报》2016年第5期174-179,共6页Acta Agriculturae Boreali-Sinica

基  金:国家“十二五”“863”计划课题(2011AA100501)

摘  要:鉴定比较供体亲本京411和轮回亲本晋麦47及其34个近等基因系材料之间产量和水分利用效率(WUE),同时测定不同生育期的气冠温差(CTD),分析WUE在这些材料之间的变异范围,筛选WUE与轮回亲本显著差异的材料用于QTL定位,同时探索干旱条件下CTD与产量和WUE的关系及其随生育期进程变化的趋势。利用防雨棚和渗漏池开展模拟干旱试验。结果表明,34个近等基因系及其父母本WUE为1.30~1.92 kg/m^3,其中9个品系WUE显著低于轮回亲本晋麦47,表明WUE为多基因控制的数量性状,而且存在明显的加性效应。CTD与产量和WUE均呈极显著正相关关系。不同的是,随生育期进程推进,CTD与产量的相关性增强,在灌浆期最高,R2达到0.684 9,而与WUE的相关性减弱,R2在拔节-孕穗期最高,达到0.769 8。研究初步表明,CTD可以作为干旱条件下产量和WUE的鉴定指标。Grain yield and water use efficiency( WUE) were determined by utilizing donor parent Jing 411,recurrent parent Jinmai 47 and their 34 near isogenic lines( NILs) as research materials. In the meantime,the Canopy-air temperature difference( CTD) was also monitored,and the relationships between CTD and yield and WUE were analyzed for all the genotypes. The work mainly aimed at exploring the variation range of WUE in the tested genotypes,selecting the genotypes that significantly difference from the recurrent parent for quantitative trait location,as well as exploring the relationship between CTD and yield as well as WUE under drought conditions. Simulation experiment of drought was carried out with rain-shelter. The result indicated that WUE ranges within 1. 30-1. 92 kg/m3,for the 34 NILs and their parents,with 9 NILs significantly lower in WUE than the recurrent parent,indicating WUE is a trait of polygenic control with additive effect. There were extremely significant relationships between CTD and yield and WUE,though differing in the variation trends. With proceeding of growth period procession,the correlation between CTD and yield increases,reaching peak at grain filling stage( R2= 0. 684 9). While that between CTD and WUE decreases,peaking at jointing-booting stage( R2= 0. 769 8). The results suggested that CTDcould serve as an index for identifying yield and WUE under drought conditions.

关 键 词:气冠温差 产量 水分利用效率 近等基因系 

分 类 号:S152.7[农业科学—土壤学] S512.01[农业科学—农业基础科学]

 

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