Warming Band in Southern Ocean’s Indian Sector: The Role of Remote Atlantic Buoyancy Forcing via Poleward-Shifting Circulation Response

气候学 海洋学 强迫(数学) 浮力 循环(流体动力学) 温盐循环 关闭温盐循环 地质学 洋流 环境科学 北大西洋深水区 量子力学 热力学 物理
作者
Benjamin A. Taylor,Jia‐Rui Shi,Shang‐Ping Xie,Lynne D. Talley,Matthew T. Luongo,Qihua Peng
出处
期刊:Journal of Climate [American Meteorological Society]
标识
DOI:10.1175/jcli-d-24-0425.1
摘要

Abstract Deep-reaching warming along the boundary of the Antarctic Circumpolar Current and the subtropical gyre is a consistent feature of multidecadal observational estimates and projections of future climate. In the Indian basin, maximum ocean heat content change is collocated with the powerful Agulhas Return Current (ARC) in the west and Subantarctic Front (SAF) to the east, forming a southeastward band we denote as the ARC-SAF. We find that this jet-confined warming is linked to a poleward shift of these strong currents via the thermal wind relation. Using a suite of idealized ocean-only and partially-coupled climate model experiments, we show that strong global buoyancy flux anomalies consistently drive a poleward shift of the ARC-SAF circulation and the associated heat content change maximum. To better understand how buoyancy addition modifies this circulation in the absence of wind stress change, we next apply buoyancy perturbations only to certain regions. Buoyancy addition across the Indian and Pacific Oceans (including the ARC-SAF) gives rise to a strong baroclinic circulation response and modest poleward shift. In contrast, buoyancy addition in the North Atlantic drives a vertically coherent poleward shift of the ARC-SAF, which we suggest is associated with a sea surface height perturbation communicated to the Southern Ocean via planetary waves and advected eastward along the ARC-SAF. Whereas poleward shifting circulation and banded warming under climate change have been previously attributed to poleward-shifting winds in the Southern Ocean, we show that buoyancy addition can drive this circulation change in the Indian sector independent of changing wind stress.

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