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Utilization of Soot and 210 Po-210 Pb Disequilibria to Constrain Particulate Organic Carbon Fluxes in the Northeastern South China Sea

Weifeng Yang, Xiufeng Zhao, Laodong Guo, Bangqin Huang, Min Chen, Ziming Fang, Xiao Zhang, Yusheng Qiu

2021Frontiers in Marine Science11 citationsDOIOpen Access PDF

Abstract

Black carbon (BC) is believed to be refractory and thus affects the timescale of organic carbon conversion into CO 2 and the magnitude of the sink of CO 2 . However, the fate of BC in the oceans remains poorly understood. Here, 210 Po and 210 Pb were measured to examine the export of soot in the northeastern South China Sea (SCS). Concentrations of soot decreased from 0.141 ± 0.021 μmol-C L –1 (mean ± SD) in the mixed layer (0–30 m) to 0.087 μmol-C L –1 at the euphotic base (150 m) due to potential photodegradation within the euphotic zone. In the twilight zone, however, the soot showed an increasing pattern along with the total particulate matter and total particulate organic carbon (POC) contents, corresponding to additions from the shelf/slope sediment resuspension through lateral transport. Using the deficits of 210 Po, the export flux of soot from the euphotic zone was calculated to be 0.172 ± 0.016 mmol-C m –2 d –1 and increased with depth. Assuming that the soot is entirely refractory below the euphotic zone, the sediment-derived soot fluxes were estimated based on the increase in soot fluxes relative to the base of the euphotic zone, with values varying from 0.149 ± 0.030 to 0.96 ± 0.10 μmol-C L –1 . This indicates that sediment resuspension is an important source of soot to the ocean interior in the SCS. Coupling the sediment-derived soot and 210 Po-derived POC fluxes gave rise to a Martin Curve-like flux attenuation of local euphotic zone-derived POC in the twilight zone with b value of 0.70 ± 0.01. These results suggest that soot could be useful for constraining in situ POC fluxes and their transport.

Topics & Concepts

Photic zoneSootParticulatesTotal organic carbonSedimentEnvironmental chemistryEnvironmental scienceOceanographyMineralogyChemistryGeologyNutrientPhytoplanktonGeomorphologyOrganic chemistryCombustionMarine and coastal ecosystemsAtmospheric chemistry and aerosolsOcean Acidification Effects and Responses
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