Multi-proxy reconstructions of productivity on the continental slope off the Mekong River in the southern South China Sea over the past 30,000 years

Abstract

Marine productivity is a key process in controlling the global carbon cycle. To understand the paleo-productivity behavior in the southern South China Sea, multiple geochemical analyses on Core SO18383–3 recovered from the continental slope off the Mekong River were integrated to reveal the response of paleo-productivity to environmental change. The elemental ratios of Bio/Al, bBa/Al, Zn/Al, and Sr/Al allowed the reconstruction of paleo-productivity evolution. The results show that the paleo-productivity was low around the Last Glacial Maximum (LGM) and early deglaciation (29.9–14.8 cal ka BP), then increased during the main deglaciation period (14.8–8.0 cal ka BP), before gradually declining during the Holocene (8.0–1.1 cal ka BP). This variation in paleo-productivity intensity was significantly controlled by the change in phosphorus input driven by the East Asian summer monsoon. Moreover, the opal/CaCO3 proxy, which reflects the relative abundance of siliceous versus calcareous phytoplankton, showed a higher siliceous phytoplankton dominance in the latest Pleistocene (29.9–10.8 cal ka BP) than in the Holocene. This was possibly governed by the upwelling process with cold waters forced by a cold-core eddy during the strengthening of the East Asian winter monsoon. This study greatly increased our understanding of the principal forcing factors on paleo-productivity in the southern South China Sea over the last 30 ka.