摘要
为了明确河南中部地区冬小麦品种改良过程中物质积累与转运特性及对水分亏缺响应的差异,选取新中国成立以来6个不同年代主栽冬小麦品种,采用测坑试验研究了冬小麦品种在不同水分胁迫(CK:充分供水田间持水量的75%~85%;MD:轻度干旱,田间持水量的60%~70%;SD:重度干旱,田间持水量的45%~55%)下干物质生产与积累转运特性的演进特征及其与产量的关系。结果表明,品种改良协调了干物质在各生育阶段的分配,使花前和花后干物质积累与转运对籽粒的贡献更加平衡。在品种更替过程中,株高和穗下节降低,千粒重、籽粒产量和收获指数增加,干物质积累总量无显著差异,千粒重和收获指数的提高对产量增加起重要作用。在CK、MD和SD处理下,20世纪90年代和2002年品种比20世纪50年代品种平均株高降低35.2%、36.2%和38.2%,平均千粒重比增加31.7%、17.4%和56.3%,平均籽粒产量增加40.4%、43.0%和52.4%;20世纪90年代和2002年品种的收获指数比20世纪80年代及以前品种增加31.4%、22.3%和24.6%。CK处理早期品种干物质积累在抽穗至开花阶段超过现代品种。MD和SD处理的20世纪90年代及以后的品种花前干物质转运能力高,茎秆干物质输出率增加,花后贮藏物质积累降幅小,干物质贮藏转运分配比例适宜,对籽粒贡献率高,是水分胁迫条件下现代品种高产的基础。
Water shortage seriously threatens sustainable agriculture development across the globe.Winter wheat(Triticum aestivum L.) is the largest water user and wheat production is often limited by water scarcity and uneven distribution of precipitation in Henan Province.Winter wheat grain yield is mainly formed by dry matter accumulation and redistribution in vegetative organs during preand post-anthesis.Water conditions have significant effects on dry matter accumulation,distribution ratios of dry matter among various organs and hence grain yield.Therefore knowledge of the changes in dry mater associated with genetic gains is required for understanding yield-limiting factors and determining future breeding strategies.However,few available data exist on the mechanisms of effects of different water regimes on dry mater accumulation and translocation in wheat.The objective of this study was to determine the effects of water conditions on the characteristics of dry matter accumulation and translocation in winter wheat cultivars planted at different ages.The results provided the needed valuable information for further improvements in grain yield and determination of future breeding strategies of wheat in China.Six representative winter wheat cultivars(planted in the 1950s,the 1960s,1970s,1980s,1990s and 2002—2003) were used under similar conditions in the 2011—2012 growing season.The three water regimes used were as follow: control(CK) at 75%~85% of field capacity,mild water deficit(MD) at 60%~70% of field capacity,and severe water deficit(SD) at 45%~55% of field capacity.Results showed that genetic improvement optimized dry matter distribution at different growth stages in winter wheat and well balanced dry matter contribution to grain during pre-anthesis and post-anthesis.Dry matter accumulation and translocation in winter wheat before and after anthesis increased in modern cultivars.Furthermore,reduced dry matter assimilation in modern cultivars increased grain production after anthesis.Modern cultivars were shorter in height and peduncle than old cultivars.Modern cultivars improved the 1000-grain weight,harvest index and grain yield.Increase in winter wheat grain yield was mainly related to increase in the 1000-grain weight,which further led to a significant increase in harvest index under constant total biomass accumulation in the year.The 1000-grain weight and harvest index were positively related with yield improvement.Compared with wheat cultivars planted in the 1950s,average height of winter wheat planted in the 1990s and 2002 under CK,MD and SD decreased by 35.2%,36.2% and 38.2%,respectively.However,average 1000-grain weight increased by 31.7%,17.4% and 56.3%,respectively.Also average grain yield increased by 40.4%,43.0% and 52.4%,respectively.Harvest indexes of winter wheat cultivars planted in the 1990s and 2002 under CK,MD and SD were respectively 31.4%,22.3% and 24.6% higher than those of wheat cultivars planted before the 1980s.Dry matter accumulation in early cultivars was higher than that in modern cultivars from heading to anthesis under CK.Under MD and SD treatments,dry matter transfer at pre-anthesis in winter wheat cultivars planted in the 1990s and after was improved.Dry matter output to grain from stem increased in modern cultivars.Reduction in dry matter after anthesis was small and dry matter proportion was suitable in modern cultivars.This laid the basis for future increases in grain yield under water stress conditions.
出处
《中国生态农业学报》
CAS
CSCD
北大核心
2013年第8期943-950,共8页
Chinese Journal of Eco-Agriculture
基金
现代农业产业技术体系建设专项资金(CARS-3-1-30)
公益性行业(农业)科研专项(201203077)
国家高技术研究发展计划(863计划)项目(2011AA100509
2011AA100502)资助
关键词
冬小麦
种植年代
水分胁迫
干物质积累
转运率
籽粒产量
Winter wheat
Planting ages
Water stress
Dry matter accumulation
Translocation rate
Grain yield