中度水文干旱使中国最大洪泛平原湖泊的一氧化碳汇最大化。

Moderate Hydrological Droughts Maximized CO Sink in China's Largest Floodplain Lake.

作者信息

Zhao Lejun, Zhao Xiaosong, Fan Xingwang, Zhang Jiaye, Gan Guojing, Tan Zhiqiang, Yao Jing, Wan Rongrong, Xu Ligang, Yang Guishan

机构信息

Key Laboratory of Lake and Watershed Science for Water Security, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 211135, China.

University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Environ Sci Technol. 2025 Aug 26;59(33):17606-17616. doi: 10.1021/acs.est.5c06316. Epub 2025 Aug 13.

DOI:10.1021/acs.est.5c06316

PMID:40804244

Abstract

Carbon dynamics in floodplain lakes are critical to gaining a full understanding of the global carbon budget. Here, we constructed a spatially explicit carbon dioxide (CO) flux data set covering 2003-2022 for China's largest floodplain lake ( = 0.86, RMSE = 0.49 gC m d). The annual fluxes varied from 52.57 ± 4.71 gC m in 2010 to -186.36 ± 7.27 gC m in 2011. Temporal variations in CO flux were primarily driven by changes in the hydrological regime and wetland vegetation conditions. Specifically, water rise onset and recession onset emerged as the two most influential factors. A 10-day delay in lake water rise enhanced CO uptake by 19.20 gC m, whereas a 10-day advance in lake water recession increased uptake by 11.63 gC m. However, the enhancement of the CO sink can be impaired in the case of excessively early or rapid lake water level decline. For example, the extreme drought in 2022 reduced CO uptake by over 20% compared to moderate drought years due to plant water stress and increased ecosystem respiration. The findings offer insights into fully evaluating the ecological consequences of lake and water resource management from the perspective of carbon neutrality.

摘要

洪泛平原湖泊中的碳动态对于全面了解全球碳预算至关重要。在此，我们构建了一个涵盖2003 - 2022年的空间明确的二氧化碳（CO₂）通量数据集，该数据集针对中国最大的洪泛平原湖泊（R² = 0.86，RMSE = 0.49 gC m⁻² d⁻¹）。年通量从2010年的52.57 ± 4.71 gC m⁻²变化到2011年的 - 186.36 ± 7.27 gC m⁻²。CO₂通量的时间变化主要受水文状况和湿地植被条件变化的驱动。具体而言，水位上升起始点和下降起始点是两个最具影响力的因素。湖水上升延迟10天可使CO₂吸收量增加19.20 gC m⁻²，而湖水下降提前10天可使吸收量增加11.63 gC m⁻²。然而，在湖水水位下降过早或过快的情况下，CO₂汇的增强可能会受到损害。例如，2022年的极端干旱使CO₂吸收量比中度干旱年份减少了20%以上，原因是植物水分胁迫和生态系统呼吸增加。这些发现为从碳中和角度全面评估湖泊和水资源管理的生态后果提供了见解。

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中度水文干旱使中国最大洪泛平原湖泊的一氧化碳汇最大化。

Moderate Hydrological Droughts Maximized CO Sink in China's Largest Floodplain Lake.

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