Global‐scale environmental control of plant photosynthetic capacity

光合作用 光合能力 氮气 羧化 陆生植物 植物 环境科学 农学 化学 生物 有机化学 生物化学 催化作用
作者
Ashehad A. Ali,Chonggang Xu,Alistair Rogers,N. G. McDowell,Belinda E. Medlyn,Rosie A. Fisher,Stan D. Wullschleger,Peter B. Reich,Jasper A. Vrugt,William L. Bauerle,Louis S. Santiago,Cathy J. Wilson
出处
期刊:Ecological Applications [Wiley]
卷期号:25 (8): 2349-2365 被引量:145
标识
DOI:10.1890/14-2111.1
摘要

Photosynthetic capacity, determined by light harvesting and carboxylation reactions, is a key plant trait that determines the rate of photosynthesis; however, in Earth System Models (ESMs) at a reference temperature, it is either a fixed value for a given plant functional type or derived from a linear function of leaf nitrogen content. In this study, we conducted a comprehensive analysis that considered correlations of environmental factors with photosynthetic capacity as determined by maximum carboxylation ( V c,m ) rate scaled to 25°C (i.e., V c,25 ; μmol CO 2 ·m −2 ·s −1 ) and maximum electron transport rate ( J max) scaled to 25°C (i.e., J 25 ; μmol electron·m −2 ·s −1 ) at the global scale. Our results showed that the percentage of variation in observed V c,25 and J 25 explained jointly by the environmental factors (i.e., day length, radiation, temperature, and humidity) were 2–2.5 times and 6–9 times of that explained by area‐based leaf nitrogen content, respectively. Environmental factors influenced photosynthetic capacity mainly through photosynthetic nitrogen use efficiency, rather than through leaf nitrogen content. The combination of leaf nitrogen content and environmental factors was able to explain ~56% and ~66% of the variation in V c,25 and J 25 at the global scale, respectively. Our analyses suggest that model projections of plant photosynthetic capacity and hence land–atmosphere exchange under changing climatic conditions could be substantially improved if environmental factors are incorporated into algorithms used to parameterize photosynthetic capacity in ESMs.
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