Effects of fiddler crab bioturbation on the geochemical migration and bioavailability of heavy metals in coastal wetlands

Fiddler crabs, found in coastal wetlands worldwide, function as ecosystem engineers. Their burrowing activity can significantly alter biogeochemistry at the local scale, however, the mobility of heavy metals (HMs) in burrow sediments remains unclear. Here, we used diffusive gradients in thin-film pro...

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Veröffentlicht in:Journal of hazardous materials 2022-09, Vol.437, p.129380-129380, Article 129380
Hauptverfasser: Pan, Feng, Xiao, Kai, Guo, Zhanrong, Li, Hailong
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Sprache:eng
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Zusammenfassung:Fiddler crabs, found in coastal wetlands worldwide, function as ecosystem engineers. Their burrowing activity can significantly alter biogeochemistry at the local scale, however, the mobility of heavy metals (HMs) in burrow sediments remains unclear. Here, we used diffusive gradients in thin-film probes to obtain bioavailable Fe and HMs (Cu, Zn, Ni, Cd, Pb, Co, and Mo) in crab burrows from coastal wetlands (mudflats, salt marshes, and mangroves). The depth-profile results showed that most HMs were enriched at shallow and deep depths but deficient at middle depths. We highlighted that bioturbation improved oxic conditions, enhanced HM concentrations, and favored dissolved HM retention in burrow sediments, which served as a sink for overlying water HMs via burrow flushing but a potential source of particle HMs via enhanced resuspension. In deep anoxic layers, Fe(III) reduction drove the remobilization of HMs, except Cu and Mo, leading to the co-release of HMs with Fe. This Fe-HM coupling/decoupling was verified using enhanced two-dimensional high-resolution imaging, which revealed highly spatial heterogeneity of multiple HMs. Moreover, the hydrological conditions regulating bioturbation effects on HM behavior varied across different coastal wetlands. With coastal environmental changes, the key role of ubiquitous bioturbation in HM migration and bioavailability should be reconsidered. [Display omitted] •In-situ high-resolution probe was employed in fiddler crab burrows in different coastal habitats.•Crab burrow acted as a sink of heavy metals for overlying water, but a release barrier for surrounding sediment matrix.•Crab bioturbation disrupted the coupling relationships between Fe and other heavy metals in sediment porewater.•Surface hydrological conditions triggered diverse effects of bioturbation on metal behaviors.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2022.129380