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生物扰动、增温和海平面上升对红树林湿地沉积物孔隙水中硫化物和类金属迁移性的综合影响。

Integrated effects of bioturbation, warming and sea-level rise on mobility of sulfide and metalloids in sediment porewater of mangrove wetlands.

机构信息

State Key Laboratory of Marine Environmental Science, College of the Environment & Ecology, Xiamen University, Xiamen 361102, PR China.

School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, PR China.

出版信息

Water Res. 2023 Apr 15;233:119788. doi: 10.1016/j.watres.2023.119788. Epub 2023 Feb 24.

DOI:10.1016/j.watres.2023.119788
PMID:36863280
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11238571/
Abstract

Global warming and sea-level rise exert profound impacts on coastal mangrove ecosystems, where widespread benthic crabs change sediment properties and regulate material cycles. How crab bioturbation perturbs the mobilities of bioavailable arsenic (As), antimony (Sb) and sulfide in sediment-water systems and their variability in response to temperature and sea-level rise is still unknown. By combining field monitoring and laboratory experiments, we found that As was mobilized under sulfidic conditions while Sb was mobilized under oxic conditions in mangrove sediments. Crab burrowing greatly enhanced oxidizing conditions, resulting in enhanced Sb mobilization and release but As sequestration by iron/manganese oxides. In control experiments with non-bioturbation, the more sulfidic conditions triggered the contrasting situation of As remobilization and release but Sb precipitation and burial. Moreover, the bioturbated sediments were highly heterogeneous for spatial distributions of labile sulfide, As and Sb as presented by 2-D high-resolution imaging and Moran's Index (patchy at the <1 cm scale). Warming stimulated stronger burrowing activities, which led to more oxic conditions and further Sb mobilization and As sequestration, whilst sea-level rise did the opposite via suppressing crab burrowing activity. This work highlights that global climate changes have the potential to significantly alter element cycles in coastal mangrove wetlands by regulating benthic bioturbation and redox chemistry.

摘要

全球变暖和海平面上升对沿海红树林生态系统产生了深远的影响,广泛存在的底栖蟹改变了沉积物的性质并调节了物质循环。然而,蟹类生物扰动如何干扰沉积物-水系统中生物可利用的砷(As)、锑(Sb)和硫化物的迁移性,以及它们对温度和海平面上升变化的响应仍不清楚。通过结合野外监测和实验室实验,我们发现,在红树林沉积物中,硫化物条件下会使 As 发生迁移,而在氧化条件下 Sb 会发生迁移。蟹类的掘洞活动大大增强了氧化条件,导致 Sb 的迁移和释放增强,但被铁/锰氧化物固定的 As 增加。在没有生物扰动的对照实验中,更硫化的条件会触发相反的情况,即 As 的再迁移和释放,但 Sb 的沉淀和埋藏。此外,由于二维高分辨率成像和 Moran 指数(<1 cm 尺度下呈斑块状)揭示的可利用硫化物、As 和 Sb 的空间分布高度不均匀,生物扰动的沉积物具有高度的异质性。变暖刺激了更强的掘洞活动,导致更多的氧化条件和 Sb 的进一步迁移以及 As 的固定,而海平面上升则通过抑制蟹类的掘洞活动产生相反的影响。这项工作强调了全球气候变化通过调节底栖生物扰动和氧化还原化学,有可能显著改变沿海红树林湿地的元素循环。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1833/11238571/36d1c1a02087/nihms-1896644-f0008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1833/11238571/36d1c1a02087/nihms-1896644-f0008.jpg

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