蒸腾作用
拦截
光合作用
环境科学
气孔导度
农学
生物
植物
生态学
作者
E. T. Kanemasu,Ghassem Asrar,Mika Yoshida
出处
期刊:Hortscience
[American Society for Horticultural Science]
日期:1985-12-01
卷期号:20 (6): 1043-1046
被引量:19
标识
DOI:10.21273/hortsci.20.6.1043
摘要
Abstract Water availability and temperature are 2 primary environmental parameters that frequently limit plant growth. The effects of these factors are difficult to separate; however, this paper will be directed primarily at water deficit. Plant responses to water deficit have been difficult to model because of different response times involved and the problem of quantifying water deficit (severity vs. duration). For example, response times for cell enlargement and leaf abscission are much different and yet their direct effects on transpiration and photosynthesis may be the same. Transpiration and photosynthesis are key processes in crop yield models. Transpiration is an energy-consuming process, which is strongly controlled by leaf area and stomatal conductance. Photosynthesis, on the other hand, is a quantum-requiring process, which is dependent to a large extent upon the interception of visible light and the diffusive conductance of CO 2 . Solar radiation provides both energy for transpiration and quanta for photosynthesis.
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