水稻C815S及其同源株系的育性光温特性  被引量：19

作　　者：何强[1] 陈立云[1] 邓华凤[2] 唐文邦[1] 肖应辉[1] 袁隆平[2] 

机构地区：[1]湖南农业大学水稻科学研究所,湖南长沙410128 [2]国家杂交水稻工程技术研究中心,湖南长沙410125

出　　处：《作物学报》2007年第2期262-268,共7页Acta Agronomica Sinica

基　　金：湖南省自然科学基金重点资助项目(03JJY3033)

摘　　要：对C815S及其同源株系通过12种人控光温组合处理、短日遮光处理以及分期播种试验,就其育性光温特性、发育感光性以及两者之间的关系进行了研究。结果表明,C815S及其同源株系不育起点温度低,均在23℃以下。在长沙自然长日条件下没有明显不育向可育的转换;在长沙短日条件下,育性出现轻微波动。其育性受光温双因子共同作用,且这种作用的程度与发育感光性强弱似乎存在密切联系。提出了光温敏不育系光温双因子互作量化的光温效应连动假设。这一假设能提供每一光长条件下与之对应的育性转换温度,对光温敏核不育系的选育、制种和繁殖具有实际指导意义。The study of the fertility change mechanism of PTGMS has been a hot topic since 1989, and the prevenient achievements have revealed the fertility alteration models of PTGMS rice in response to photoperiod and temperature condition. There have been mainly four models： the suppose of three developing phase and two photoperiod-sensitive stages, the model of light and temperature in fertility changes, the quantitative model of fertility changes and the three dimensional coordinate model of fertility conversion, and these models and theories had higher utilization values in directing two-line hybrid production. In this paper, fertility photo-thermo characteristics, developmental photo-sensitivity and their relationships in PTGMS rice C815S and its homologous plant lines were studied in 12 controlled combination treatments of three daylength with four lower temperature, treatments of shading, and short photoperiod, and the treatments of different rowing date. The results showed that C815S and its homologous plant lines were a type of typical lower thermo-sensitivity sterile line and their low critical temperature was below 23.0℃. In Changsha, there were no obvious fertility fluctuation and alteration from sterility to fertility under the long daylength condition while there was slight fertility fluctuation under the short daylength condition. The different degrees of photoperiod sensitivity sterility in C815S and its homologous plant lines were a result of the interaction of daylength x temperature, and there would be some internal relation between the interaction and developmental photoperiod sensitivity. The interaction of daylength × temperature was further discussed and the interdynamic effect model of daylength and temperature, being of the quantitative fertility response to photoperiod and temperature, was supposed. This hypothesis can offer the corresponding temperature for fertility alteration under the determinate daylength, being used in the selection of PTGMS, hybrid seed production and propagation of P

关 键 词：光温敏核不育水稻 育性转换 光敏性 发育感光性 

分 类 号：S511[农业科学—作物学]