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Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands

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Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands. / Liu, Chengzhu; Zhao, Yunpeng; Ma, Lixiao et al.
Yn: National Science Review, 20.05.2024, t. nwae178.

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HarvardHarvard

Liu, C, Zhao, Y, Ma, L, Zhai, G, Li, X, Freeman, C & Feng, X 2024, 'Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands', National Science Review, tt. nwae178. https://doi.org/10.1093/nsr/nwae178

APA

Liu, C., Zhao, Y., Ma, L., Zhai, G., Li, X., Freeman, C., & Feng, X. (2024). Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands. National Science Review, nwae178. Cyhoeddiad ar-lein ymlaen llaw. https://doi.org/10.1093/nsr/nwae178

CBE

Liu C, Zhao Y, Ma L, Zhai G, Li X, Freeman C, Feng X. 2024. Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands. National Science Review. nwae178. https://doi.org/10.1093/nsr/nwae178

MLA

Liu, Chengzhu et al. "Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands". National Science Review. 2024, nwae178. https://doi.org/10.1093/nsr/nwae178

VancouverVancouver

Liu C, Zhao Y, Ma L, Zhai G, Li X, Freeman C et al. Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands. National Science Review. 2024 Mai 20;nwae178. Epub 2024 Mai 20. doi: 10.1093/nsr/nwae178

Author

Liu, Chengzhu ; Zhao, Yunpeng ; Ma, Lixiao et al. / Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands. Yn: National Science Review. 2024 ; tt. nwae178.

RIS

TY - JOUR

T1 - Metallic protection of soil carbon: Divergent drainage effects in Sphagnum vs. non-Sphagnum wetlands

AU - Liu, Chengzhu

AU - Zhao, Yunpeng

AU - Ma, Lixiao

AU - Zhai, Guoqing

AU - Li, Xingqi

AU - Freeman, Chris

AU - Feng, Xiaojuan

PY - 2024/5/20

Y1 - 2024/5/20

N2 - The established paradigm assumes that drainage may decrease the vast soil organic carbon (SOC) reservoir in global wetlands. Yet drainage can also promote SOC stabilization by fostering the accrual of metal-bound organic carbon (bound OC) upon oxygen exposure. Here, this emergent mechanism is tested for the first time at a regional scale, using literature data and a nationwide, pairwise survey of drained wetlands across China. We show that long-term (15–55 years) drainage largely increased metallic protection of SOC (bound OC%) in non-Sphagnum wetlands, but consistently decreased bound OC% in Sphagnum wetlands following replacement of the ‘rust engineer’ Sphagnum by herbaceous plants. Improved SOC stock estimates based on 66 soil profiles reveal that bound OC increases can compensate for the loss of unbound SOC components in non-Sphagnum wetlands with substantial accrual of reactive metals. Metallic stabilization of wetland SOC is hence a widespread but overlooked mechanism that is heavily influenced by vegetational shifts. Incorporating this novel mechanism into models will improve prediction of wetland SOC dynamics under shifting hydrological regimes.

AB - The established paradigm assumes that drainage may decrease the vast soil organic carbon (SOC) reservoir in global wetlands. Yet drainage can also promote SOC stabilization by fostering the accrual of metal-bound organic carbon (bound OC) upon oxygen exposure. Here, this emergent mechanism is tested for the first time at a regional scale, using literature data and a nationwide, pairwise survey of drained wetlands across China. We show that long-term (15–55 years) drainage largely increased metallic protection of SOC (bound OC%) in non-Sphagnum wetlands, but consistently decreased bound OC% in Sphagnum wetlands following replacement of the ‘rust engineer’ Sphagnum by herbaceous plants. Improved SOC stock estimates based on 66 soil profiles reveal that bound OC increases can compensate for the loss of unbound SOC components in non-Sphagnum wetlands with substantial accrual of reactive metals. Metallic stabilization of wetland SOC is hence a widespread but overlooked mechanism that is heavily influenced by vegetational shifts. Incorporating this novel mechanism into models will improve prediction of wetland SOC dynamics under shifting hydrological regimes.

U2 - 10.1093/nsr/nwae178

DO - 10.1093/nsr/nwae178

M3 - Article

SP - nwae178

JO - National Science Review

JF - National Science Review

SN - 2095-5138

ER -