Geophysical Research Letters (Nov 2023)

Equatorial Pacific Sea‐Air CO2 Exchange Modulated by Upper Ocean Circulation During the Last Deglaciation

  • Zhimin Jian,
  • Jimin Yu,
  • Yue Wang,
  • Haowen Dang,
  • Minhan Dai,
  • Chen Li,
  • Xuan Ji,
  • Xingxing Wang,
  • Yue Chen

DOI
https://doi.org/10.1029/2023GL105169
Journal volume & issue
Vol. 50, no. 22
pp. n/a – n/a

Abstract

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Abstract The eastern equatorial Pacific (EEP) is a source of atmospheric CO2 during the last deglaciation, but the associated oceanic dynamics in the broader low‐latitude Pacific is not fully understood. Here, we report 30,000‐year‐long surface and subsurface pCO2 records for the western equatorial Pacific (WEP), based on boron isotopes in two planktonic foraminiferal species from core MD10‐3340. Our results show that the WEP surface became a significant atmospheric CO2 sink despite that its subsurface waters were enriched by CO2 during the last deglaciation to early Holocene. Combined with EEP proxy data and model results, we suggest that a deglacial‐early Holocene zonal seesaw of sea‐air CO2 exchange across the equatorial Pacific led to a net CO2 outgassing much greater than the modern situation. This can be ascribed to strengthened Subtropical‐Tropical Circulation, resulting in stronger upper ocean stratification in the WEP concurrent with enhanced upwelling of CO2‐rich subsurface waters in the EEP.