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Evolution of the Upper Ocean Stratification in the Japan Sea Since the Last Glacial (2020)

Wu, Yonghua ; Shi, Xuefa ; Gong, Xun ; [et al.]

Wiley

In: EPIC3Geophysical Research Letters, Wiley, 47(16), pp. e2020GL088255, ISSN: 0094-8276

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Publication Date: 2021-08-05

Description: Paleoceanographic evidence commonly indicates that Last Glacial Maximum surface temperatures in the Japan Sea were comparable to modern conditions, in striking difference to colder neighboring regions. Here, based on a core from the central Japan Sea, our results show similar UK′37‐ and TEXL86‐derived temperatures between 24.7 and 16.3 ka BP, followed by an abrupt divergence at ~16.3 ka BP and a weakening of divergence after ~8.7 ka BP. We attribute this process to a highly stratified glacial upper ocean controlled by the East Asian Summer Monsoon, increasing thermal gradient between surface and subsurface layers during the deglaciation and the intrusion of Tsushima Warm Current since the mid‐Holocene, respectively. Therefore, we suggest that threshold‐like changes in upper‐ocean temperatures linked to sea level rise and monsoon dynamics, rather than just sea surface temperatures, play a critical role in shaping the thermal and ventilation history of this NW Pacific marginal sea.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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AMOC recovery in a multi-centennial scenario using a coupled atmosphere-ocean-ice sheet model (2020)

Ackermann, Lars ; Danek, Christopher ; Gierz, Paul ; [et al.]

Wiley

In: EPIC3Geophysical Research Letters, Wiley, 47(16), pp. e2019GL086810, ISSN: 0094-8276

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Publication Date: 2020-09-14

Description: We simulate the two Coupled Model Intercomparison Project scenarios RCP4.5 and RCP8.5, to assess the effects of melt‐induced fresh water on the Atlantic meridional overturning circulation (AMOC). We use a newly developed climate model with high resolution at the coasts, resolving the complex ocean dynamics. Our results show an AMOC recovery in simulations run with and without an included ice sheet model. We find that the ice sheet adds a strong decadal variability on the freshwater release, resulting in intervals in which it reduces the surface runoff by high accumulation rates. This compensating effect is missing in climate models without dynamic ice sheets. Therefore, we argue to assess those freshwater hosing experiments critically, which aim to parameterize Greenland's freshwater release. We assume the increasing net evaporation over the Atlantic and the resulting increase in ocean salinity, to be the main driver of the AMOC recovery.

Repository Name: EPIC Alfred Wegener Institut

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Nonmonotonic Change of the Arctic Ocean Freshwater Storage Capability in a Warming Climate (2021)

Wang, Shizhu ; Wang, Qiang ; Shu, Qi ; [et al.]

Wiley

In: EPIC3Geophysical Research Letters, Wiley, 48(10), pp. e2020GL090951, ISSN: 0094-8276

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Publication Date: 2021-07-01

Description: Freshwater in the Arctic Ocean is one of the key climate components. It is not well understood how the capability of the Arctic Ocean to store freshwater will develop when freshwater supplies increase in a warming climate. By using numerical experiments, we find that this capability varies with the Arctic sea ice decline nonmonotonically, with the largest capability at intermediate strength of sea ice decline. Through enhancing the ocean surface stress, sea ice decline not only accumulates freshwater toward the Amerasian Basin but also tends to reduce the amount of freshwater in both the Eurasian and Amerasian basins by increasing the occupation of Atlantic-origin water in the upper ocean. An increase in river runoff modulates the counterbalance of the two competing effects, leading to the nonmonotonic changes of the Arctic freshwater storage capability in a warming climate.

Repository Name: EPIC Alfred Wegener Institut

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Poleward shift of the major ocean gyres detected in a warming climate (2020)

Yang, Hu ; Lohmann, Gerrit ; Krebs-Kanzow, Uta ; [et al.]

Wiley

In: EPIC3Geophysical Research Letters, Wiley, 47(5), pp. e2019GL085868, ISSN: 0094-8276

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Publication Date: 2020-09-17

Description: Recent evidence shows that wind‐driven ocean currents, like the western boundary currents, are strongly affected by global warming. However, due to insufficient observations both on temporal and spatial scales, the impact of climate change on large‐scale ocean gyres is still not clear. Here, based on satellite observations of sea surface height and sea surface temperature, we find a consistent poleward shift of the major ocean gyres. Due to strong natural variability, most of the observed ocean gyre shifts are not statistically significant, implying that natural variations may contribute to the observed trends. However, climate model simulations forced with increasing greenhouse gases suggest that the observed shift is most likely to be a response of global warming. The displacement of ocean gyres, which is coupled with the poleward shift of extratropical atmospheric circulation, has broad impacts on ocean heat transport, regional sea level rise, and coastal ocean circulation.

Repository Name: EPIC Alfred Wegener Institut

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