摘要
为了探讨半干旱条件对水稻外观品质的影响,本研究以224份F6世代的Z601/C14重组自交系(Recombinant inbred lines简称RILs群体)为试材,在节水灌溉的条件下,对稻米外观品质性状进行了相关性分析,并对控制稻米外观品质的数量性状位点QTL进行了分析。结果表明:垩白粒率与整精米面积(r=0.236)、垩白度(r=0.659)呈极显著正相关,透明度与整精米的长/宽(r=-0.481)、整精米粒长(r=-0.166)呈极显著负相关,与整精米粒宽(r=0.283)呈极显著正相关,带胚率与垩白度(r=-0.269)呈极显著负相关。共检测34个控制外观品质性状的QTL,控制整精米粒长的3个、整精米粒宽8个、整精米面积3个、整精米长/宽6个、垩白粒率3个、垩白度1个、透明度5个、带胚率5个,分布于第3、5、6、7、8、11和12号染色体上。
In order to investigate the effects of the semi-arid conditions on rice quality ,an F6-generation rice recom-binant inbred population (referred to as RILs population ) containing of 224 lines derived from crosses between Z601 and C14 was selected as experimental materials .Under the conditions of water-saving irrigation ,the correlation between ap-pearance quality traits and associated quantitative trait loci (QTL ) was analyzed .The result showed that the percentage of grains with chalkiness was significantly positively correlated with area of milled rice ( r=0 .236 ) and endosperm trans-parency(r=0 .659) .Endosperm transparency was extremely significantly negatively correlated with ratio of milled rice length-width ( r= -0 .481 ) ,and length of milled rice ( r= -0 .166 ) was significantly positively correlated with width of milled rice( r=0 .283) .Degree of milled rice embryos was extremely significantly negatively correlated with degree of endosperm chalkiness ( r= -0 .269 ) .A total of 34 QTLs controlling milling quality traits in rice were detected ,includ-ing three QTL controlling length of milled rice ,eight QTL controlling width of milled rice ,three QTL controlling area of milled rice ,six QTL controlling ratio of milled rice length-width ,three QTL controlling percentage of grain with chalki-ness ,one QTL controlling degree of endosperm chalkiness ,five QTL controlling endosperm transparency ,and five QTL controlling degree of milled rice embryos ,which were located on chromosome 3 ,5 ,6 ,7 ,8 ,11 and 12 ,respectively .
出处
《干旱地区农业研究》
CSCD
北大核心
2015年第3期117-123,共7页
Agricultural Research in the Arid Areas
基金
国家863项目"强优势粳稻杂交种的创制与应用"(2011AA10A101)