Relationship between grain yield and leaf photosynthetic rate in super hybrid rice.

植物生理与分子生物学学报 Pub Date : 2007-06-01
Yue Chen, Long-Ping Yuan, Xue-Hua Wang, Dao-Yun Zhang, Juan Chen, Qi-Yun Deng, Bing-Ran Zhao, Da-Quan Xu
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Abstract

In order to explore the relationship between grain yield and photosynthesis, the yield composition and leaf photosynthetic rate in some super hybrid rices and ordinary hybrid rice 'Shanyou 63' as control were measured in 2000-2005. The results were as follows. (1) The yield levels of the four super hybrid rices, 'Pei'ai 64S/E32', 'P88S/0293', 'Jin23A/611' and 'GD-1S/RB207', were significantly higher, being 108%-120% of 'Shanyou 63'. (2) These super hybrid rices had a better plant type with more erect upper layer leaves and bigger panicles or more spikelets per panicle, being 125%-177% of spikelets Shanyou 63 spikelets. (3) Net photosynthetic rates of these super hybrid rices were significantly higher in the second leaf but not necessarily in the first leaf or flag leaf than those of spikelets Shanyou 63 spikelets. (4) The removal of half flag leaf led to a decline in the seed-setting rate, while the removal of half panicle induced its increase in spikelets GD-1S/RB207 spikelets. Hence, higher yield in these super hybrid rices can be attributed to their bigger panicles, better plant type and higher light use efficiency of their canopies. Raising the photosynthetic capacity of each leaf, especially flag leaf, is the key to overcome the photosynthate-source restriction on grain yield and to make a new breakthrough of yield potential in future breeding of super hybrid rice.

超级杂交稻籽粒产量与叶片光合速率的关系
为探讨籽粒产量与光合作用的关系,于2000-2005年对部分超级杂交稻和对照普通杂交稻‘汕优63’的产量构成和叶片光合速率进行了测定。结果如下:(1) 4个超级杂交稻‘培爱64S/E32’、‘P88S/0293’、‘金23a /611’和‘GD-1S/RB207’的产量水平均显著高于‘汕优63’的108% ~ 120%。(2)这些超级杂交稻的株型较好,上层叶片较直立,穗粒较大或每穗粒数较多,占汕优63颖花的125% ~ 177%。(3)超级杂交稻第2叶的净光合速率显著高于汕优63,第1叶或旗叶的净光合速率并不一定高于汕优63。(4)半旗叶的去除导致结实率下降,而半穗的去除则导致GD-1S/RB207颖花的结实率升高。因此,这些超级杂交稻的高产可归因于其更大的穗部、更好的株型和更高的冠层光能利用效率。提高单叶特别是旗叶的光合能力,是克服光合源对籽粒产量的限制,在未来超级杂交稻育种中取得产量潜力新突破的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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