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Mechanisms Controlling Carbon Sinks in Semi‐Arid Mountain Ecosystems

Weichao Guo, Mohammad Safeeq, Hongyan Liu, Xiuchen Wu, Guotao Cui, Qin Ma, Michael L. Goulden, Mats Lindeskog, Roger C. Bales

2022Global Biogeochemical Cycles19 citationsDOIOpen Access PDF

Abstract

Abstract Feedbacks between the intertwined water and carbon cycles in semi‐arid mountain ecosystems can introduce large uncertainties into projections of carbon storage. In this study, we sought to understand the influence of key mechanisms on carbon balances, focusing on an ecosystem whose complex terrain and large interannual variability in precipitation adds to its vulnerability to warming. We applied a dynamic vegetation‐ecosystem model (Lund‐Potsdam‐Jena General Ecosystem Simulator) to simulate water‐carbon interactions in the 104,512 km 2 Mediterranean‐climate ecosystems of California's Sierra Nevada for 1950–2099. Our 48 scenarios include a combination of carbon dioxide (CO 2 ) increase, air temperature change, and varying plant rooting depths. We found that with warming (+2 and +5°C), water limitations on growth and enhanced soil respiration reduce carbon storage; however, CO 2 fertilization and associated enhanced water‐use efficiency offset this loss. Using the 4 km model resolution to capture steep mountain precipitation gradients, plus accounting for the several meters of actual root‐accessible water storage in the region, were also important. With warming accompanied by CO 2 fertilization our projections show that the Sierra Nevada sequestering at least 200 Tg (2 kg m −2 ) carbon, versus carbon loss with warming alone. The increase reflects coniferous forests growing at high elevations, and some increase in broadleaved forests at low‐to‐intermediate elevations. Importantly, uncertainty in fire disturbance could shift our finding from carbon sink to source. The improved mechanistic understanding of these feedbacks can advance modeling of carbon‐water interactions in mountain‐ecosystem under a warmer and potentially drier climate.

Topics & Concepts

Environmental scienceEcosystemCarbon sinkAridEcosystem respirationCarbon cycleSink (geography)Climate changeCarbon sequestrationGlobal warmingHydrology (agriculture)Atmospheric sciencesCarbon dioxideEcologyPrimary productionGeologyGeographyBiologyGeotechnical engineeringCartographyPlant Water Relations and Carbon DynamicsFire effects on ecosystemsClimate variability and models
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