浙江大学学报(农业与生命科学版)
浙江大學學報(農業與生命科學版)
절강대학학보(농업여생명과학판)
JOURNAL OF ZHEJIANG UNIVERSITY(AGRICULTURE & LIFE SCIENCES)
2007年
5期
525-532
,共8页
肖玉苹%韦康%陈锦新%周美学%张国平
肖玉蘋%韋康%陳錦新%週美學%張國平
초옥평%위강%진금신%주미학%장국평
大麦(Hordeum vulgare L.)%湿害%产量%通径分析
大麥(Hordeum vulgare L.)%濕害%產量%通徑分析
대맥(Hordeum vulgare L.)%습해%산량%통경분석
barley (Hordeum vulgare L.)%waterlogging%yield%path coefficient
在分蘖期对15份大麦基因型进行12 d 的渍水处理,研究渍水条件下生长抑制和产量损失的基因型差异.结果表明,黄化指数(LCI)虽然不能完全反映所有基因型的产量损失程度,但作为耐湿性的一个指标对大多数基因型是可靠的.在渍水期间和撤水后,大部分大麦基因型新长的叶长和叶宽下降,但93-3143变化不大;渍水处理与对照相比,株高和干重平均降低29.2%和54.4%,基因型间差异显著,Franklin的降幅最大.渍水下导致籽粒产量显著下降,产量构成因子中以穗数下降最为明显,其次是每穗粒数,粒重变化较小,而穗数减少主要是分蘖及其成穗数下降的结果.渍水对产量影响的基因型差异很大,地方品种永嘉红六棱减产最小,两个澳大利亚主栽品种Franklin和Gairdner减产最为严重.产量构成因子对产量的直接通径系数大小依次为:穗数、粒数和粒重,穗数经粒数对产量的影响很小,经粒重的间接通径系数较大且为正值;粒数经穗数对产量的影响亦较小,经粒重的间接通径系数较大且为负值;粒重经穗数和粒数对产量的影响均较大,但作用方向不同.
在分蘗期對15份大麥基因型進行12 d 的漬水處理,研究漬水條件下生長抑製和產量損失的基因型差異.結果錶明,黃化指數(LCI)雖然不能完全反映所有基因型的產量損失程度,但作為耐濕性的一箇指標對大多數基因型是可靠的.在漬水期間和撤水後,大部分大麥基因型新長的葉長和葉寬下降,但93-3143變化不大;漬水處理與對照相比,株高和榦重平均降低29.2%和54.4%,基因型間差異顯著,Franklin的降幅最大.漬水下導緻籽粒產量顯著下降,產量構成因子中以穗數下降最為明顯,其次是每穗粒數,粒重變化較小,而穗數減少主要是分蘗及其成穗數下降的結果.漬水對產量影響的基因型差異很大,地方品種永嘉紅六稜減產最小,兩箇澳大利亞主栽品種Franklin和Gairdner減產最為嚴重.產量構成因子對產量的直接通徑繫數大小依次為:穗數、粒數和粒重,穗數經粒數對產量的影響很小,經粒重的間接通徑繫數較大且為正值;粒數經穗數對產量的影響亦較小,經粒重的間接通徑繫數較大且為負值;粒重經穗數和粒數對產量的影響均較大,但作用方嚮不同.
재분얼기대15빈대맥기인형진행12 d 적지수처리,연구지수조건하생장억제화산량손실적기인형차이.결과표명,황화지수(LCI)수연불능완전반영소유기인형적산량손실정도,단작위내습성적일개지표대대다수기인형시가고적.재지수기간화철수후,대부분대맥기인형신장적협장화협관하강,단93-3143변화불대;지수처리여대조상비,주고화간중평균강저29.2%화54.4%,기인형간차이현저,Franklin적강폭최대.지수하도치자립산량현저하강,산량구성인자중이수수하강최위명현,기차시매수립수,립중변화교소,이수수감소주요시분얼급기성수수하강적결과.지수대산량영향적기인형차이흔대,지방품충영가홍륙릉감산최소,량개오대리아주재품충Franklin화Gairdner감산최위엄중.산량구성인자대산량적직접통경계수대소의차위:수수、립수화립중,수수경립수대산량적영향흔소,경립중적간접통경계수교대차위정치;립수경수수대산량적영향역교소,경립중적간접통경계수교대차위부치;립중경수수화립수대산량적영향균교대,단작용방향불동.
Fifteen barley genotypes were exposed to waterlogging stress for 12 d at tillering stage to investigate the genotypic difference in growth inhibition and yield loss. The results showed that leaf chlorosis index (LCI) is not a reasonable indicator for identifying all barley genotypes in their waterlogging tolerance, but it is suitable for most genotypes. Length and width of new leaves initiated after waterlogging reduced for all genotypes except 93-3143, which remained little change under waterlogging condition. In comparison to control, waterlogging caused reduction in plant height and dry weigh by 29.2% and 54.4%, respectively. There was a significant difference in reduction extent among the genotypes, with Franklin being the most reduced. Grain yield was significantly reduced under waterlogging condition, with spike number being most affected among yield components. The reduction in spike number is mainly attributed to few tillers and low effective tillers per plant. The significant differences were detected among the genotypes in their response of yield formation to waterlogging, and local race Yongjiahong Liuleng showed least yield loss, while the two Australian barley varieties had the greatest loss. Path analysis showed that the effect of spike number on yield via grain was quite small, and via grain weight was large and positive;effect of grains per spike on yield via spike number is also small and via grain weight was large and negative;effect of grain weight on yield via both spike number and grains per spike was large, but with different direction.
