The impact of climate change on droughts is typically attributed to rising temperatures and altered precipitation patterns. Yet, most drought projections overlook a major climate-induced mechanism: the effect of elevated CO₂ on plant physiology, leading to a significant potential overestimation of droughts magnitudes and impacts. In fact, elevated CO₂ enhances biomass production and reduces stomatal conductance, thereby increasing water-use efficiency . Our systematic review reveals that nearly 90% of evapotranspiration-based drought projections omit CO₂-driven vegetation feedback, and only 10% acknowledge this limitation. Neglecting vegetation response to CO2 can overestimate future drought-affected areas by up to 17.4 ± 10.6% under high-emission scenarios (CO₂ > 900 ppm), and in some regions even reverse the projected direction of change. This widespread oversight can hamper the robustness of global drought projections. Accounting for vegetation–CO₂ interactions is therefore crucial to avoid systematic bias and produce reliable predictions of water availability in a warming world.
Neglecting plant physiology: systematic overestimation of drought projections / Villani, Lorenzo; Piemontese, Luigi; Castelli, Giulio; Borgo, Andrea; Ghilain, Nicolas; Van Schaeybroeck, Bert; Lucca, Enrico; Aslam, Muhammad Faizan; Debolini, Marta; Bouizrou, Ismail; Yimer, Estifanos Addisu; Baudewyn, Miriam; Jaramillo, Fernando; Trabucco, Antonio; van Griensven, Ann; Penna, Daniele; Bresci, Elena. - In: ENVIRONMENTAL RESEARCH. CLIMATE. - ISSN 2752-5295. - ELETTRONICO. - (In corso di stampa), pp. 0-0. [10.1088/2752-5295/ae583c]
Neglecting plant physiology: systematic overestimation of drought projections
Villani, Lorenzo
;Piemontese, Luigi;Castelli, Giulio;Lucca, Enrico;Bouizrou, Ismail;Jaramillo, Fernando;Penna, Daniele;Bresci, Elena
In corso di stampa
Abstract
The impact of climate change on droughts is typically attributed to rising temperatures and altered precipitation patterns. Yet, most drought projections overlook a major climate-induced mechanism: the effect of elevated CO₂ on plant physiology, leading to a significant potential overestimation of droughts magnitudes and impacts. In fact, elevated CO₂ enhances biomass production and reduces stomatal conductance, thereby increasing water-use efficiency . Our systematic review reveals that nearly 90% of evapotranspiration-based drought projections omit CO₂-driven vegetation feedback, and only 10% acknowledge this limitation. Neglecting vegetation response to CO2 can overestimate future drought-affected areas by up to 17.4 ± 10.6% under high-emission scenarios (CO₂ > 900 ppm), and in some regions even reverse the projected direction of change. This widespread oversight can hamper the robustness of global drought projections. Accounting for vegetation–CO₂ interactions is therefore crucial to avoid systematic bias and produce reliable predictions of water availability in a warming world.
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