Carbonate chemistry variability in the southern Yellow Sea and East China Sea during spring of 2017 and summer of 2018

Marginal seas are highly productive and disproportionately large contributors to global air-sea CO2 fluxes. Due to complex physical and biogeochemical conditions, the southern Yellow-East China Sea is an ideal site for studying carbonate chemistry variability. The carbonate system was investigated in the area in spring of 2017 and summer of 2018. Dissolved inorganic carbon (DIC) and total alkalinity (TA) concentrations were higher in the SYS than the ECS due to material from carbonate weathering and erosion carried by the Yellow River. High pH and low DIC and TA were observed in the Zhe-Min Coastal Current in spring due to high primary productivity caused by Changjiang River input and the Taiwan Warm Current. Temperature and biological activity were the primary drivers controlling the partial pressure of CO2 (pCO(2)) in the SYS, pCO(2) was controlled by primary productivity related to nutrients carried by the Changjiang River and physical mixing in the Changjiang River plume and inner/ middle shelves of the ECS, whereas temperature was the dominant factor determining pCO(2) distributions in the ECS outer shelf waters influenced by the Kuroshio Current. Overall, the entire study area shifted from a CO2 sink (-4.18 +/- 5.60 mmol m(-2) d(-1)) to a weak source (1.02 +/- 4.87 mmol m(-2) d(-1)) from spring to summer. Specifically, the SYS and ECS offshore waters changed from CO2 sinks in spring to sources in summer, while the Changjiang River plume was always a CO2 sink. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The study investigated the carbonate system in the southern Yellow-East China Sea area and found changes between spring and summer. The SYS and ECS offshore waters were CO2 sinks in spring and sources in summer, while the Changjiang River plume remained a CO2 sink.