Leading modes and feature zones of sea ice concentration in North Pacific during Spring seasons of 2000–2020

Li Xu; James Crabbe

doi:10.1142/S2630534823500055

Leading modes and feature zones of sea ice concentration in North Pacific during Spring seasons of 2000–2020

Li Xu
, James Crabbe

Institute of Biomedical and Environmental Science & Technology (IBEST)

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Abstract

Under the influence of the Arctic amplification, sea ice variability in North Pacific is becoming a key indicator of global climate changes. Due to the widespread and complex impacts of North Pacific sea ice variations, the understanding of its dynamic changes, especially its spatial and temporal evolution patterns, has great significance. In this study, we used the rotated empirical orthogonal decomposition to divide the whole North Pacific into six feature zones on the evolution sea ice concentration under the recent global warming and highlighted the complexity and diversity of sea ice variations in the offshore waters.

Original language	English
Article number	2350005
Journal	International Journal of Big Data Mining for Global Warming
Volume	5
Issue number	2
DOIs	https://doi.org/10.1142/S2630534823500055
Publication status	Published - 23 Jan 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

Environment
Environmental management practices
Oceans and Inland Waters

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10.1142/S2630534823500055

Xu-jcfinreofAccepted author manuscript, 960 KBLicence: CC BY-NC-ND

https://www.worldscientific.com/doi/abs/10.1142/S2630534823500055

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abstract = "Under the influence of the Arctic amplification, sea ice variability in North Pacific is becoming a key indicator of global climate changes. Due to the widespread and complex impacts of North Pacific sea ice variations, the understanding of its dynamic changes, especially its spatial and temporal evolution patterns, has great significance. In this study, we used the rotated empirical orthogonal decomposition to divide the whole North Pacific into six feature zones on the evolution sea ice concentration under the recent global warming and highlighted the complexity and diversity of sea ice variations in the offshore waters.",

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N2 - Under the influence of the Arctic amplification, sea ice variability in North Pacific is becoming a key indicator of global climate changes. Due to the widespread and complex impacts of North Pacific sea ice variations, the understanding of its dynamic changes, especially its spatial and temporal evolution patterns, has great significance. In this study, we used the rotated empirical orthogonal decomposition to divide the whole North Pacific into six feature zones on the evolution sea ice concentration under the recent global warming and highlighted the complexity and diversity of sea ice variations in the offshore waters.

AB - Under the influence of the Arctic amplification, sea ice variability in North Pacific is becoming a key indicator of global climate changes. Due to the widespread and complex impacts of North Pacific sea ice variations, the understanding of its dynamic changes, especially its spatial and temporal evolution patterns, has great significance. In this study, we used the rotated empirical orthogonal decomposition to divide the whole North Pacific into six feature zones on the evolution sea ice concentration under the recent global warming and highlighted the complexity and diversity of sea ice variations in the offshore waters.

KW - Environment

KW - Environmental management practices

KW - Oceans and Inland Waters

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DO - 10.1142/S2630534823500055

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ER -

Leading modes and feature zones of sea ice concentration in North Pacific during Spring seasons of 2000–2020

Abstract

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Keywords

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