On the Role of Eddy Mixing in the Subtropical Ocean Circulation

Liu, Tongya; Ou, Hsien-Wang; Liu, Xiaohui; Chen, Dake

doi:10.3389/fmars.2022.832992

Front. Mar. Sci.

2022

DOI: 10.3389/fmars.2022.832992

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On the Role of Eddy Mixing in the Subtropical Ocean Circulation

Tongya Liu

Hsien-Wang Ou

Xiaohui Liu

et al.

Abstract: Most of the classic wind-driven circulation theories based on Sverdrup balance have neglected the profound influence of eddy mixing on the large-scale potential vorticity (PV) distribution, thus failing to explain some prominent features of the observed circulation. In this study, using a series of numerical experiments based on the MITgcm, we diagnose the PV balance to quantify the effect of eddy mixing on the subtropical gyre. Four horizontal grid-spacings of 1°, 1/3.2°, 1/10°, and 1/32° are selected to comp… Show more

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Cited by 4 publications

References 64 publications

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Distribution and Characteristics of the Subsurface Eddies in the Aleutian Basin, Bering Sea

Zhang,

Song,

Meng

et al. 2024

JGR Oceans

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Subsurface eddies, characterized by their cores located within or below the pycnocline, can transport materials over long distances in the ocean's interior. Observations of these eddies are sparse, limiting our understanding of their regional distribution and detailed horizontal structures, particularly in high‐latitude areas. The Bering Sea, situated in the subarctic region, is among the world's most productive areas and significantly influences the Arctic Ocean's state, thereby impacting climate change. In this study, we utilize ultrahigh resolution (approximately 10 m) data to investigate the distribution and characteristics of subsurface eddies in the Aleutian Basin, Bering Sea. We detected 44 subsurface eddies in 13 survey transects and analyzed their morphological and hydrographic characteristics, spatial distribution, propagation, and transport. The results show that the average core radius of the subsurface eddies is about 11.62 km and they exhibit complex structures in both the core and flank regions. The dichothermal layer cold‐core eddies are prevalent in the deep‐water region of the Bering Sea, contributing approximately 1.76 Sv poleward and westward transport in the subsurface layer. This is the first three‐dimensional depiction of subsurface eddies in the Bering Sea, revealing that the prevalence of subsurface eddies in the Bering Sea may have been negligent, with significant implications for the hydrographic and biogeochemical properties of both the Bering Sea and the Arctic Ocean. More detailed comprehensive and long‐term observations should be made to assess the global impact of subsurface eddies in the future.

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Distribution and Characteristics of the Subsurface Eddies in the Aleutian Basin, Bering Sea

Zhang,

Song,

Meng

et al. 2024

JGR Oceans

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Northern Hemisphere Glaciation: Its Tectonic Origin in the Neogene Uplift

2024

Glacies

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The Earth has cooled since the early Pliocene, which was punctuated by accelerated cooling indicative of thresholds. I posit that the cooling was initiated when the Neogene uplift of the Tibetan highland caused it to ice over, augmenting the albedo. I formulate a minimal warm/cold/Arctic box model to test this hypothesis and prognose the Pliocene climate. In particular, based on model physics, I discern three thermal thresholds as Pliocene cools: (1) when the Arctic temperature falls below the marking temperature of the ice front, the East Greenland ice sheet would descend to the sea level and calve into the Nordic Seas; (2) when the Arctic temperature cools to the freezing point, the ice sheet would form and expand over circum-Arctic lowlands to cause a massive deposition of ice-rafted debris marking Northern Hemisphere glaciation (NHG); (3) when glacial state persists through low eccentricity, it would cause a transition from obliquity- to eccentricity-dominated glacial cycles. Aligning these thresholds with the observed ones around 3.5, 2.7, and 1 million years ago, the model produces a temporal evolution of the Pliocene temperature as well as its driving albedo change. Since the latter can be accommodated by the observed one, it supports the Neogene uplift as the tectonic origin of NHG.

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Two-Step Glaciation of Antarctica: Its Tectonic Origin in Seaway Opening and West Antarctica Uplift

2024

Glacies

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The Cenozoic glaciation of Antarctica proceeded through two distinct steps around 35 and 15 million years ago. The first icing was attributed to thermal isolation due to the opening of the Drake/Tasman passages and the development of the Antarctic circumpolar current. I also subscribe to this “thermal isolation” but posit that, although the snowline was lowered below the Antarctic plateau for it to be iced over, the glacial line remains above sea level to confine the ice sheet to the plateau, a “partial” glaciation that would be sustained over time. The origin of the second icing remains unknown, but based on the sedimentary evidence, I posit that it was triggered when the isostatic rebound of West Antarctica caused by heightened erosion rose above the glacial line to be iced over by the expanding plateau ice, and the ensuing cooling lowered the glacial line to sea level to cause the “full” glaciation of Antarctica. To test these hypotheses, I formulate a minimal box model, which is nonetheless subjected to thermodynamic closure that allows a prognosis of the Miocene climate. Applying representative parameter values, the model reproduces the observed two-step icing followed by the stabilized temperature level, in support of the model physics.

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On the Role of Eddy Mixing in the Subtropical Ocean Circulation

Cited by 4 publications

References 64 publications

Distribution and Characteristics of the Subsurface Eddies in the Aleutian Basin, Bering Sea

Distribution and Characteristics of the Subsurface Eddies in the Aleutian Basin, Bering Sea

Northern Hemisphere Glaciation: Its Tectonic Origin in the Neogene Uplift

Two-Step Glaciation of Antarctica: Its Tectonic Origin in Seaway Opening and West Antarctica Uplift

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