Yuta Kuniyoshi scite author profile

Yuta Kuniyoshi

2Publications

26Citation Statements Received

104Citation Statements Given

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The University of Tokyo

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Effect of Climatic Precession on Dansgaard‐Oeschger‐Like Oscillations

Kuniyoshi

Abe‐Ouchi

Sherriff‐Tadano

et al. 2022

Geophysical Research Letters

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Using the climate model MIROC4m, we simulate self‐sustained oscillations of millennial‐scale periodicity in the climate and Atlantic meridional overturning circulation under glacial conditions. We show two cases of extreme climatic precession and examine the mechanism of these oscillations. When the climatic precession corresponds to strong (weak) boreal seasonality, the period of the oscillation is about 1,500 (3,000) years. During the stadial, hot (cool) summer conditions in the Northern Hemisphere contribute to thin (thick) sea ice, which covers the deep convection sites, triggering early (late) abrupt climate change. During the interstadial, as sea ice is thin (thick), cold deep‐water forms and cools the subsurface quickly (slowly), which influences the stratification of the North Atlantic Ocean. We show that the oscillations are explained by the internal feedbacks of the atmosphere‐sea ice‐ocean system, especially subsurface ocean temperature change and salt advection feedback with a positive feedback between the subpolar gyre and deep convection.

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Effect of Climatic Precession on Dansgaard-Oeschger-like oscillations 

Kuniyoshi

Abe‐Ouchi

Sherriff‐Tadano

et al. 2022

Preprint

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<p><span>Using the climate model MIROC4m, we simulate self-sustained oscillations of millennial-scale periodicity in the climate and Atlantic meridional overturning circulation under glacial conditions. We show two cases of extreme climatic precession and examine the mechanism of these oscillations. When the climatic precession corresponds to strong (weak) boreal seasonality, the period of the oscillation is about 1,500 (3,000) years. During the stadial, hot (cool) summer conditions in the Northern Hemisphere contribute to thin (thick) sea ice, which covers the deep convection sites, triggering early (late) abrupt climate change. During the interstadial, as sea ice is thin (thick), cold deep-water forms and cools the subsurface quickly (slowly), which influences the stratification of the North Atlantic Ocean. We show that the oscillations are explained by the internal feedbacks of the atmosphere-sea ice-ocean system, especially subsurface ocean temperature change and salt advection feedback with a positive feedback between the subpolar gyre and deep convection. </span></p>

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Yuta Kuniyoshi

Effect of Climatic Precession on Dansgaard‐Oeschger‐Like Oscillations

Effect of Climatic Precession on Dansgaard-Oeschger-like oscillations

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Yuta Kuniyoshi

Effect of Climatic Precession on Dansgaard‐Oeschger‐Like Oscillations

Effect of Climatic Precession on Dansgaard-Oeschger-like oscillations&#160;

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Effect of Climatic Precession on Dansgaard-Oeschger-like oscillations