Abstract
The terrestrial carbon and water cycles are strongly coupled. As atmospheric carbon dioxide concentration increases, climate and the coupled hydrologic cycle are modified, thus altering the terrestrial water cycle and the availability of soil moisture necessary for plants’ carbon dioxide uptake. Concomitantly, rising surface carbon dioxide concentrations also modify stomatal (small pores at the leaf surface) regulation as well as biomass, thus altering ecosystem photosynthesis and transpiration rates. Those coupled changes have profound implications for the predictions of the carbon and water cycles. This paper reviews the main mechanisms behind the coupling of the terrestrial water and carbon cycles. We especially focus on the key role of dryness (atmospheric dryness and terrestrial water availability) on carbon uptake, as well as the predicted impact of rising carbon dioxide on the water cycle. Challenges related to this coupling and the necessity to constrain it based on observations are finally discussed.
Highlights
This review aims at describing recent findings on the coupling between the terrestrial carbon and water cycles
We especially focus on the key role of dryness on carbon uptake, as well as the predicted impact of rising carbon dioxide on the water cycle
Based on this review we argue that the terrestrial water–carbon cycles have to be studied as an interconnected system, given the very large impact they have on each other
Summary
Pierre Gentine , Julia K Green, Marceau Guérin , Vincent Humphrey, Sonia I Seneviratne, Yao Zhang and Sha Zhou.
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