1. Improving ecophysiological simulation models to predict the impact of elevated atmospheric CO2 concentration on crop productivity
- Author
-
Xinyou Yin
- Subjects
Crops, Agricultural ,winter-wheat ,Nitrogen ,Climate Change ,climate-change impacts ,Climate change ,Plant Science ,Agricultural engineering ,Biology ,open-top chambers ,Crop ,carbon-dioxide enrichment ,Leaf area index ,Photosynthesis ,open-air conditions ,photosynthetic capacity ,Phenotypic plasticity ,maintenance respiration ,c-3 plants ,Impact assessment ,Simulation modeling ,fungi ,food and beverages ,Carbon Dioxide ,Models, Theoretical ,PE&RC ,Photosynthetic capacity ,Carbon ,Plant Leaves ,Viewpoints ,Agronomy ,stomatal conductance ,Photosynthetic acclimation ,Plant Stomata ,Centre for Crop Systems Analysis ,leaf-area index - Abstract
Background - Process-based ecophysiological crop models are pivotal in assessing responses of crop productivity and designing strategies of adaptation to climate change. Most existing crop models generally over-estimate the effect of elevated atmospheric [CO2], despite decades of experimental research on crop growth response to [CO2]. Analysis - A review of the literature indicates that the quantitative relationships for a number of traits, once expressed as a function of internal plant nitrogen status, are altered little by the elevated [CO2]. A model incorporating these nitrogen-based functional relationships and mechanisms simulated photosynthetic acclimation to elevated [CO2], thereby reducing the chance of over-estimating crop response to [CO2]. Robust crop models to have small parameterization requirements and yet generate phenotypic plasticity under changing environmental conditions need to capture the carbon–nitrogen interactions during crop growth. Conclusions - The performance of the improved models depends little on the type of the experimental facilities used to obtain data for parameterization, and allows accurate projections of the impact of elevated [CO2] and other climatic variables on crop productivity.
- Published
- 2013