This study was part of the PhD thesis research of the first author. Financial support was provided by the Ministry of Science and Technology in China (Project nos. 2009CB118603 and 2011BAD16B14) and the Ministry of Agriculture in China (Project no. 201103003). Bill Hardy from IRRI is thanked for editing the manuscript.
机构署名:
本校为第一且通讯机构
院系归属:
农学院
摘要:
Optimizing resource use options to achieve high NUE and grain yield.Large sink size in super rice hybrids disadvantage under short grain-filling duration.Post-flowering wetting and drying enhanced N and assimilate partitioning into grains."Climatic yield potential" over "actual attained yield" a realistic estimate. Options to increase resource use efficiency and climatic yield potential of locally adapted super rice hybrids including combined water, nutrient and other agronomic management are limited. Hence, the aim of our three-year (six seaso...