@Article{Li_NatWater_20230901,
 author		= {Yue Li and Jessica C. A. Baker and Paulo M. Brando and Forrest M. Hoffman and David M. Lawrence and Douglas C. Morton and Abigail L. S. Swann and Maria del Rosario Uribe and James T. Randerson},
 title		= {Future Increases in {A}mazonia Water Stress from {CO$_2$} Physiology and Deforestation},
 journal	= NatWater,
 volume		= 1,
 number		= 9,
 pages		= {769--777},
 doi		= {10.1038/s44221-023-00128-y},
 day		= 1,
 month		= sep,
 year		= 2023,
 abstract	= {Several different drivers are contributing to climate change within the Amazon basin, including forcing from greenhouse gases and aerosols, plant physiology responses to rising CO$_2$, and deforestation. Attribution among these drivers has not been quantified for Shared Socioeconomic Pathway (SSP) climate simulations. Here we identify the contribution of CO$_2$ physiology and deforestation to future hydroclimate change in the Amazon basin by combining information from four experiments and eight different Earth system models in Coupled Model Intercomparison Project Phase 6. Together, forcing from CO$_2$ physiology and deforestation account for about 44\% of the projected annual precipitation decline, 48\% of surface relative humidity decline and 11\% of warming over the Amazon basin by 2100 for SSP3-7.0. Other Coupled Model Intercomparison Project Phase 6 SSP simulations have similar contributions from the two drivers. Insight from our attribution analysis can aid in identifying research priorities aimed at reducing uncertainty in future projections of water availability, carbon dynamics and wildfire risk.}
}