Plant responses to increasing CO 2 reduce estimates of climate impacts on drought severity
University of Washington · Oak Ridge National Laboratory · +3 more institutions
Abstract
Rising atmospheric CO2 will make Earth warmer, and many studies have inferred that this warming will cause droughts to become more widespread and severe. However, rising atmospheric CO2 also modifies stomatal conductance and plant water use, processes that are often are overlooked in impact analysis. We find that plant physiological responses to CO2 reduce predictions of future drought stress, and that this reduction is captured by using plant-centric rather than atmosphere-centric metrics from Earth system models (ESMs). The atmosphere-centric Palmer Drought Severity Index predicts future increases in drought stress for more than 70% of global land area. This area drops to 37% with the use of precipitation…
Citation impact
- FWCI
- 108.54
- Percentile
- 100%
- References
- 59
Authors
4Topics & keywords
- Environmental science
- Climate change
- Natural resource economics
- Atmospheric sciences
- Economics
- Ecology
- Biology
- Geology