Projected shifts in Köppen climate zones over China and their temporal evolution in CMIP5 multi-model simulations
Projected shifts in Köppen climate zones over China and their temporal evolution in CMIP5 multi-model simulations
Previous studies have examined the projected climate types in China by 2100. This study identified the emergence time of climate shifts at a 1◦ scale over China from 1990 to 2100 and investigated the temporal evolution of Köppen–Geiger climate classifications computed from CMIP5 multi-model outputs. Climate shifts were detected in transition regions (7%–8% of China’s land area) by 2010, including rapid replacement of mixed forest (Dwb) by deciduous forest (Dwa) over Northeast China, strong shrinkage of alpine climate type (ET) on the Tibetan Plateau, weak northward expansion of subtropical winterdry climate (Cwa) over Southeast China, and contraction of oceanic climate (Cwb) in Southwest China. Under all future RCP (Representative Concentration Pathway) scenarios, the reduction of Dwb in Northeast China and ET on the Tibetan Plateau was projected to accelerate substantially during 2010–30, and half of the total area occupied by ET in 1990 was projected to be redistributed by 2040. Under the most severe scenario (RCP8.5), sub-polar continental winter dry climate over Northeast China would disappear by 2040–50, ET on the Tibetan Plateau would disappear by 2070, and the climate types in 35.9% and 50.8% of China’s land area would change by 2050 and 2100, respectively. The results presented in this paper indicate imperative impacts of anthropogenic climate change on China’s ecoregions in future decades.
283-293
Chan, Duo
4c1278dc-7f39-4b67-b1cd-3f81f55f4906
Wu, Qigang
cea7cc67-4b76-4f50-8d92-fe46b32d8bfe
Jiang, Guixiang
c15dd3be-4640-4eaa-856e-12096c6851f9
Dai, Xianglin
23a21416-b6ed-42c9-adf2-fa5af7ab9a05
1 March 2016
Chan, Duo
4c1278dc-7f39-4b67-b1cd-3f81f55f4906
Wu, Qigang
cea7cc67-4b76-4f50-8d92-fe46b32d8bfe
Jiang, Guixiang
c15dd3be-4640-4eaa-856e-12096c6851f9
Dai, Xianglin
23a21416-b6ed-42c9-adf2-fa5af7ab9a05
Chan, Duo, Wu, Qigang, Jiang, Guixiang and Dai, Xianglin
(2016)
Projected shifts in Köppen climate zones over China and their temporal evolution in CMIP5 multi-model simulations.
Advances in Atmospheric Sciences, 33, .
(doi:10.1007/s00376-015-5077-8).
Abstract
Previous studies have examined the projected climate types in China by 2100. This study identified the emergence time of climate shifts at a 1◦ scale over China from 1990 to 2100 and investigated the temporal evolution of Köppen–Geiger climate classifications computed from CMIP5 multi-model outputs. Climate shifts were detected in transition regions (7%–8% of China’s land area) by 2010, including rapid replacement of mixed forest (Dwb) by deciduous forest (Dwa) over Northeast China, strong shrinkage of alpine climate type (ET) on the Tibetan Plateau, weak northward expansion of subtropical winterdry climate (Cwa) over Southeast China, and contraction of oceanic climate (Cwb) in Southwest China. Under all future RCP (Representative Concentration Pathway) scenarios, the reduction of Dwb in Northeast China and ET on the Tibetan Plateau was projected to accelerate substantially during 2010–30, and half of the total area occupied by ET in 1990 was projected to be redistributed by 2040. Under the most severe scenario (RCP8.5), sub-polar continental winter dry climate over Northeast China would disappear by 2040–50, ET on the Tibetan Plateau would disappear by 2070, and the climate types in 35.9% and 50.8% of China’s land area would change by 2050 and 2100, respectively. The results presented in this paper indicate imperative impacts of anthropogenic climate change on China’s ecoregions in future decades.
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s00376-015-5077-8
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Accepted/In Press date: 27 August 2015
Published date: 1 March 2016
Identifiers
Local EPrints ID: 484272
URI: http://eprints.soton.ac.uk/id/eprint/484272
ISSN: 0256-1530
PURE UUID: 9f124b81-15d0-477a-ba4a-8b730c0412f2
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Date deposited: 13 Nov 2023 18:55
Last modified: 18 Mar 2024 04:15
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Author:
Duo Chan
Author:
Qigang Wu
Author:
Guixiang Jiang
Author:
Xianglin Dai
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