Heat and Drought Events Alter Biogenic Capacity to Balance CO2 Budget in South-Western Europe

IF 5.4 2区地球科学 Q1 ENVIRONMENTAL SCIENCES

Global Biogeochemical Cycles Pub Date : 2025-01-03 DOI:10.1029/2024GB008163

R. Segura-Barrero, T. Lauvaux, J. Lian, P. Ciais, A. Badia, S. Ventura, H. Bazzi, E. Abbessi, Z. Fu, J. Xiao, X. Li, G. Villalba

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Abstract

Heat and drought events are increasing in frequency and intensity, posing significant risks to natural and agricultural ecosystems with uncertain effects on the net ecosystem CO₂ exchange (NEE). The current Vegetation Photosynthesis and Respiration Model (VPRM) was adjusted to include soil moisture impacts on the gross ecosystem exchange (GEE) and respiration (R_ECO) fluxes to assess the temporal variability of NEE over south-western Europe for 2001–2022. Warming temperatures lengthen growing seasons, causing an increase in GEE, which is mostly compensated by a similar increment in R_ECO. As a result, there is a modest increase in the net carbon sink of 0.69 gC m⁻² yr⁻¹ but with high spatial and annual variability. The heatwave of 2022 reduced net carbon uptake by 91.7 TgC, a 26.4% decrease from the mean. The interannual variability of NEE is more influenced by drought in temperate humid regions than in Mediterranean semi-arid regions. These results emphasize the vulnerability of the net carbon sink as drying trends could revert the NEE trends, as it is happening for croplands in the French Central Massif.

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高温和干旱事件改变了欧洲西南部生物平衡二氧化碳收支的能力。

高温和干旱事件的频率和强度都在增加，对自然和农业生态系统构成重大风险，对生态系统净二氧化碳交换（NEE）的影响不确定。对现有植被光合作用和呼吸模型（VPRM）进行调整，纳入土壤湿度对生态系统总交换（GEE）和呼吸（R ECO）通量的影响，以评估2001-2022年欧洲西南部NEE的时间变异性。温度升高延长了生长季节，导致GEE增加，这主要由相似的R ECO增加所补偿。结果表明，净碳汇有0.69 gC - m-2年-1的适度增加，但具有较高的空间和年变异性。2022年的热浪使净碳吸收量减少了91.7千兆吨碳，比平均值减少了26.4%。相对于地中海半干旱区，温带湿润地区受干旱的影响更大。这些结果强调了净碳汇的脆弱性，因为干燥趋势可能会逆转东北东线趋势，正如法国中部地块的农田正在发生的那样。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Global Biogeochemical Cycles 环境科学-地球科学综合

CiteScore

8.90

自引率

7.70%

发文量

141

审稿时长

8-16 weeks

期刊介绍： Global Biogeochemical Cycles (GBC) features research on regional to global biogeochemical interactions, as well as more local studies that demonstrate fundamental implications for biogeochemical processing at regional or global scales. Published papers draw on a wide array of methods and knowledge and extend in time from the deep geologic past to recent historical and potential future interactions. This broad scope includes studies that elucidate human activities as interactive components of biogeochemical cycles and physical Earth Systems including climate. Authors are required to make their work accessible to a broad interdisciplinary range of scientists.