@misc{zhou_soil_moistureatmosphere_2021, author={Zhou, S., William, A., Lintner, B., Berg, A., Zhang, Y., Keenan, T., Cook, B., Hagemann, S., Seneviratne, S., Gentine, P.}, title={Soil moisture–atmosphere feedbacks mitigate declining water availability in drylands}, year={2021}, howpublished = {journal article}, doi = {https://doi.org/10.1038/s41558-020-00945-z}, abstract = {Global warming alters surface water availability (precipitation minus evapotranspiration, P–E) and hence freshwater resources. However, the influence of land–atmosphere feedbacks on future P–E changes and the underlying mechanisms remain unclear. Here we demonstrate that soil moisture (SM) strongly impacts future P–E changes, especially in drylands, by regulating evapotranspiration and atmospheric moisture inflow. Using modelling and empirical approaches, we find a consistent negative SM feedback on P–E, which may offset ~60% of the decline in dryland P–E otherwise expected in the absence of SM feedbacks. The negative feedback is not caused by atmospheric thermodynamic responses to declining SM; rather, reduced SM, in addition to limiting evapotranspiration, regulates atmospheric circulation and vertical ascent to enhance moisture transport into drylands. This SM effect is a large source of uncertainty in projected dryland P–E changes, underscoring the need to better constrain future SM changes and improve the representation of SM–atmosphere processes in models.}, note = {Online available at: \url{https://doi.org/10.1038/s41558-020-00945-z} (DOI). Zhou, S.; William, A.; Lintner, B.; Berg, A.; Zhang, Y.; Keenan, T.; Cook, B.; Hagemann, S.; Seneviratne, S.; Gentine, P.: Soil moisture–atmosphere feedbacks mitigate declining water availability in drylands. Nature Climate Change. 2021. vol. 11, 38-44. DOI: 10.1038/s41558-020-00945-z}}