气候变化导致全球潮汐湿地地下水碳排放减少

IF 15.1 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES One Earth Pub Date : 2024-08-06 DOI:10.1016/j.oneear.2024.07.009
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摘要

海洋酸化是对可持续海洋管理的巨大挑战。潮汐湿地分布在从极地到热带的各个地区,提供独特的生态系统服务,如地下水碳输出。输出溶解碳中的碳酸盐和碳酸氢盐代表总碱度,可缓冲海洋酸化。然而,人们对地下水向沿岸海洋排放溶解碳的量级和可变性知之甚少。在这里,我们结合潮汐湿地 337 个地点的数据,估算了地下水溶解碳和总碱度的排放量。全球潮汐湿地的年均地下水总碱度和溶解碳排放量分别达到 16.2(0.1-77.9)和 20.1(0.1-96.6)Tmol,其中 83.4%以溶解无机碳(DIC)的形式输出。由于蒸散量增加、降雨量变化和海平面相对上升,未来地下水 DIC 排放量将减少 9.02%-28.91% 。我们的研究表明,潮汐湿地向沿岸海洋输出了 30% 以上的陆地溶解碳。
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Climate change decreases groundwater carbon discharges in global tidal wetlands

Ocean acidification is a grand challenge to sustainable ocean management. Tidal wetlands are distributed from the polar to the tropical domain and provide unique ecosystem services such as groundwater carbon export. The carbonate and bicarbonate of exported dissolved carbon represent total alkalinity and buffer ocean acidification. However, the magnitude and variability of the dissolved carbon discharge from groundwater to the coastal ocean are poorly understood. Here, we estimate groundwater dissolved carbon and total alkalinity discharge by combining data from 337 locations in tidal wetlands. The average annual groundwater total alkalinity and dissolved carbon discharge in global tidal wetlands reach 16.2 (0.1–77.9) and 20.1 (0.1–96.6) Tmol, respectively, of which 83.4% is exported as dissolved inorganic carbon (DIC). Future groundwater DIC discharge decreases by 9.02%–28.91% due to increasing evapotranspiration, changing rainfall regimes, and relative sea level rise. Our study suggests that tidal wetlands export over 30% of terrestrial dissolved carbon to the coastal ocean.

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来源期刊
One Earth
One Earth Environmental Science-Environmental Science (all)
CiteScore
18.90
自引率
1.90%
发文量
159
期刊介绍: One Earth, Cell Press' flagship sustainability journal, serves as a platform for high-quality research and perspectives that contribute to a deeper understanding and resolution of contemporary sustainability challenges. With monthly thematic issues, the journal aims to bridge gaps between natural, social, and applied sciences, along with the humanities. One Earth fosters the cross-pollination of ideas, inspiring transformative research to address the complexities of sustainability.
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