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Modeling of Organ Morphology and Biomass Dynamics in Rice

Modeling of Organ Morphology and Biomass Dynamics in Rice
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摘要 Physiological processes governing rice plant light capture and subsequent crop growth and development are intimately tied to canopy architecture. Conversely, the production and spatial orientation of organs are dependent on the underlying physiological processes. An integrated functional-architectural modeling system would allow greater refinement of intra- and inter-plant interactions, facilitate the incorporation of additional mechanistic processes, allow greater integration of processes across multiple structural scales, and improve the accuracy of predictions. The objective of this study is to quantify the physiological bases for organ morphological development of 3 rice cultivars (Banks, IR68886B, and their hybrid Banks × IR68886A). Detailed organ morphological data were obtained through repeated field observations and destructive samplings over the growing season, including leaf length, width, area, mass, and leaf phyllochron; sheath length, diameter and mass; internode length, diameter and mass; panicle length; stem and tiller number. The result showed that the plant age (GDD, 〉 10 ℃ d) at the first full leaf initiation (node = 2) was 147.92, 154.35, 166.23 for Banks, IR68886B, and Banks × IR68886A respectively. Banks × IR68886A produced 18 nodes, while IR68886B produced 17 nodes, and Banks 16 nodes. The Specific Leaf Weight (SLW, mg cm2) was fairly constant (about 6 mg cm2) during the growing season for the 3 cultivars, and appears to slowly increase for the latter nodes. The leaf length and SLW of Banks × IR68886A was more than Banks and IR68886B. Specific internodes weight of Banks x IR68886A was higher than IR68886B ×and Banks. Growing duration for Banks × IR68886A is longer than Banks and IR68886B. Banks × IR68886A shows positive heterosis,, and the mid-parent heterosis (MPH) for panicle length was 26.74% and that for stem and tiller number was 135.00%. Results from the experiments were used to parameterize a rice functional-architectural model that simulates organ dynamics and renders organ growth in a 3-dimensional space over the rice growing season.
出处 《Journal of Agricultural Science and Technology(B)》 2011年第7期1013-1024,共12页 农业科学与技术(B)
基金 Acknowledgments The authors acknowledge the help of Kade and Gary and the financial support of National Natural Science Foundation of China (31101084) and Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry.
关键词 RICE leaf SHEATH INTERNODE PANICLE MORPHOLOGY development. 水稻品种 器官形态 动态建模 生物量 作物生长发育 节间长度 生理过程 冠层结构
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