Influence of a Decaying Cyclonic Eddy on Biogenic Silica and Particulate Organic Carbon in the Tropical South China Sea Based on 234Th-238U Disequilibrium.

Weifeng Yang,Wangjiang Hu,Lili Ma,Xinxing Zhang,Jian Zeng,Wangbin Xu,Zhigang He,Minfang Zheng,Yusheng Qiu,Zhiyu Lin,Min Chen,Jonathan A Coles

doi:10.1371/journal.pone.0136948

Abstract

Eddies play a critical role in regulating the biological pump by pumping new nutrients to the euphotic zone. However, the effects of cyclonic eddies on particle export are not well understood. Here, biogenic silica (BSi) and particulate organic carbon (POC) exports were examined inside and outside a decaying cyclonic eddy using 234Th-238U disequilibria in the tropical South China Sea. For the eddy and outside stations, the average concentrations of BSi in the euphotic zone were 0.17±0.09 μmol L-1 (mean±sd, n = 20) and 0.21±0.06 μmol L-1 (n = 34). The POC concentrations were 1.42±0.56 μmol L-1 (n = 34) and 1.30±0.46 μmol L-1 (n = 51). Both BSi and POC abundances did not show change at the 95% confidence level. Based on the 234Th-238U model, BSi export fluxes in the eddy averaged 0.18±0.15 mmol Si m-2 d-1, which was comparable with the 0.40±0.20 mmol Si m-2 d-1 outside the eddy. Similarly, the average POC export fluxes were 1.5±1.4 mmol C m-2 d-1 and 1.9±1.3 mmol C m-2 d-1 for the eddy and outside stations. From these results we concluded that cyclonic eddies in their decaying phase have little effect on the abundance and export of biogenic particles.

Highlights

Mesoscale eddies significantly affect biogeochemical processes in the upper ocean especially in oligotrophic oceanic settings [1,2,3,4]
To examine the possible influence of a cyclonic eddy on biological particle abundance and export, stations in the eddy were separated from those located outside the eddy based on the Sea-level anomaly (SLA) with weekly resolution obtained from the Global Delayed-Time merged SLA Data (Fig 1)
SLA represents the variations of the sea surface height (SSH) relative to a mean sea surface (MSS)

Summary

Introduction

Mesoscale eddies significantly affect biogeochemical processes in the upper ocean especially in oligotrophic oceanic settings [1,2,3,4]. I.e., cyclonic, anticyclonic and modewater eddies, are reported [5], all of which supply new nutrients to the euphotic zone either through uplift of isopycnals [6] or through horizontal advection between the eddy center and edge [7]. Cyclonic eddy-induced nutrients stimulate phytoplankton growth, the production of particulate organic carbon (POC) and biogenic silica (BSi) at the early life-stage of the eddy [8,9]. POC export shows little variation an increase of BSi export is commonly observed [3,4, 10,11] In these case studies, diatom groups make up the PLOS ONE | DOI:10.1371/journal.pone.0136948. Diatom groups make up the PLOS ONE | DOI:10.1371/journal.pone.0136948 August 28, 2015

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Results

Conclusion