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Onshore intensification of subtropical western boundary currents in a warming climate

Haiyuan Yang, Haihong Guo, Zhaohui Chen, Wenju Cai, Lixin Wu, Jinzhuo Cai, Tao Geng, Zhao Jing, Bolan Gan, Xiaohui Ma, Yinghong Wang

2025Nature Climate Change12 citationsDOIOpen Access PDF

Abstract

Subtropical western boundary currents (WBCs) refer to swift narrow oceanic currents that flow along the western edges of global subtropical ocean basins. Earlier studies indicated that the WBCs are extending poleward under a warming climate. However, owing to limited observations and coarse resolution of climate models, how greenhouse warming may affect the zonal structure of the WBCs remains unknown. Here, using seven high-resolution climate models, we find an onshore intensification of the WBCs in a warming climate. The multimodel ensemble mean of onshore acceleration ranges from 0.10 ± 0.08 to 0.51 ± 0.24 cm s−1 per decade over 1950–2050. Enhanced oceanic stratification associated with fast surface warming induces an uplift of the WBCs, leading to the projected change. The onshore intensification could induce anomalous warming that exacerbates coastal marine heatwaves, reduces ability of the coastal oceans to absorb anthropogenic carbon dioxide and destabilizes methane hydrate stored below the sea floor of shelf regions. Western boundary currents flow along the western edge of subtropical oceans, transporting heat polewards, and are integral in the climate system. Using high-resolution models, this work shows that western boundary currents will shift shorewards as a result of increased stratification driven by climate change.

Topics & Concepts

SubtropicsClimatologyEnvironmental scienceGlobal warmingBoundary currentClimate changeBoundary (topology)OceanographyGeologyOcean currentEcologyBiologyMathematicsMathematical analysisOceanographic and Atmospheric ProcessesGeology and Paleoclimatology ResearchGeological and Geophysical Studies
Onshore intensification of subtropical western boundary currents in a warming climate | Litcius