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New Combination of Semilate Rice: Yuanliangyou 1000
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作者 Jinhe HU Guoxiang LIU +3 位作者 qiyun deng Xiaojing WU Shuwen HE Fei ZHU 《Agricultural Biotechnology》 CAS 2018年第6期74-77,80,共5页
Yuanliangyou 1000 is new combination of semilate rice bred by Yuan S and R900 by Institute of Grain and Oil Crops of Nanchang Academy of Agricultural Science,Yuanshi Seed Industry High Tech Co.,Ltd.and Jiangxi Pusheng... Yuanliangyou 1000 is new combination of semilate rice bred by Yuan S and R900 by Institute of Grain and Oil Crops of Nanchang Academy of Agricultural Science,Yuanshi Seed Industry High Tech Co.,Ltd.and Jiangxi Pusheng Agricultural Development Co.,Ltd.It passed through new variety certification of Jiangxi Province in 2017,and approval number was Ganshendao 20170020,which was suitable for plantation of semilate rice in Jiangxi.In this paper,breeding process,combination characteristic,main cultivation technique and seed production technology of Yuanliangyou 1000 were introduced. 展开更多
关键词 Semilate RICE NEW COMBINATION Yuanliangyou 1000 BREEDING PROCESS
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Systems model-guided rice yield improvements based on genes controlling source, sink, and flow 被引量:5
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作者 Pan Li Tiangen Chang +7 位作者 Shuoqi Chang Xiang Ouyang Mingnan Qu Qingfeng Song Langtao Xiao Shitou Xia qiyun deng Xin-Guang Zhu 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2018年第12期1154-1180,共27页
A large number of genes related to source, sink,and flow have been identified after decades of research in plant genetics. Unfortunately, these genes have not been effectively utilized in modern crop breeding. This pe... A large number of genes related to source, sink,and flow have been identified after decades of research in plant genetics. Unfortunately, these genes have not been effectively utilized in modern crop breeding. This perspective paper aims to examine the reasons behind such a phenomenon and propose a strategy to resolve this situation. Specifically, we first systematically survey the currently cloned genes related to source, sink, and flow;then we discuss three factors hindering effective application of these identified genes, which include the lack of effective methods to identify limiting or critical steps in a signaling network, the misplacement of emphasis on properties, at the leaf, instead of the whole canopy level,and the non-linear complex interaction between source,sink, and flow. Finally, we propose the development of systems models of source, sink and flow, together with a detailed simulation of interactions between them and their surrounding environments, to guide effective use of the identified elements in modern rice breeding. These systems models will contribute directly to the definition of crop ideotype and also identification of critical features and parameters that limit the yield potential in current cultivars. 展开更多
关键词 Systems model-guided rice yield improvements based on genes controlling source
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