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South China Sea records Late Miocene reorganization of western Pacific deep circulation

Shan Liu, Hui Chen, Ming Su, Kunwen Luo, Jiawang Wu, Ya Gao, Zheng Meng, Sara Rodrigues, Débora Duarte, Zhi Lin Ng, Zhen Sun, Haiteng Zhuo, Xinong Xie

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

Oceanic gateways play a crucial role in controlling global ocean circulation. However, gateway effects on low-latitude deep-water circulation are poorly understood. The South China Sea, located in the western Pacific, was influenced by changes in the equatorial and low-latitude gateways, which recorded significant oceanographic variations since the Oligocene. Here, we identify contourite features in the deep South China Sea from seismic data and drill cores from Ocean Drilling Program Leg 184 and International Ocean Discovery Program Expeditions 349 and 367/368, as evidence for the influence of Circumpolar Deep Water originating from the eastern Indian Ocean until ca. 10 Ma. Final closure of the deep Indonesian Gateway at ca. 10 Ma caused disruption of the deep-water connection between the Pacific and Indian Oceans and a reorganization of global deep-water circulation. These changes in gateway tectonics may significantly contribute to the Middle to Late Miocene global climate and oceanic conditions. A disruption of deep-water exchange between the eastern Indian Ocean and western Pacific occurred at ca. 10 Ma, caused by the final closure of the deep Indonesian Gateway. This event significantly changed Miocene oceanic circulation.

Topics & Concepts

Circulation (fluid dynamics)ChinaOceanographyChina seaPacific oceanGeologyGeographyArchaeologyThermodynamicsPhysicsGeological and Geophysical StudiesMethane Hydrates and Related PhenomenaGeological formations and processes
South China Sea records Late Miocene reorganization of western Pacific deep circulation | Litcius