Evaluation and projection of circulation conditions tied to summertime compound drought and heatwave frequency over the Yangtze River Delta, China, for the carbon neutrality period based on CMIP6 GCMs

Evaluation and projection of circulation conditions tied to summertime compound drought and heatwave frequency over the Yangtze River Delta, China, for the carbon neutrality period based on CMIP6 GCMs

Frequent occurrences of compound droughts and heatwaves (CDHWs) may have considerable adverse impacts on human health and socioeconomic development. To project future summertime CDHWs over the Yangtze River Delta (YRD) of China under carbon neutrality (CN) for policymakers, we used nine global clima...

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Veröffentlicht in:International journal of climatology 2024-06, Vol.44 (8), p.2739-2757
Hauptverfasser: Wang, Jing, Liang, Ping, Cheng, Fei, Liu, Yanju, Song, Chengyu, Wu, Wei, Zheng, Qingfeng, Zhang, Tianyu, Qu, Ping, Li, Yujie, Ding, Yihui
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Carbon
Carbon neutrality
Circulation
circulation conditions
Circulation patterns
Climate models
CMIP6
Drought
Global climate
Global climate models
Greenhouse effect
Greenhouse gases
Heat waves
Heatwaves
Intercomparison
projection
Rivers
Summer
Summer circulation
summer compound drought and heatwave frequency
Sustainable development
Yangtze River Delta
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container_end_page 2757
container_issue 8
container_start_page 2739
container_title International journal of climatology
container_volume 44
creator Wang, Jing
Liang, Ping
Cheng, Fei
Liu, Yanju
Song, Chengyu
Wu, Wei
Zheng, Qingfeng
Zhang, Tianyu
Qu, Ping
Li, Yujie
Ding, Yihui
description Frequent occurrences of compound droughts and heatwaves (CDHWs) may have considerable adverse impacts on human health and socioeconomic development. To project future summertime CDHWs over the Yangtze River Delta (YRD) of China under carbon neutrality (CN) for policymakers, we used nine global climate models (GCMs) from the Coupled Model Intercomparison Project Phase 6 (CMIP6) and evaluated and projected circulation conditions tied to the summer YRD CDHW frequency in the boreal summer. The results show that a marked mid‐tropospheric regional‐scale anticyclonic anomaly centred over the East China Sea can be deemed the dominant system linking the more frequent occurrence of YRD CDHWs. Our selected nine CMIP6 GCMs better captured the observed climatological and anomalous spatial circulation patterns connected to the summer YRD CDHW frequency. Moreover, the nine models' multi‐model ensemble mean (9MME) was better than most of the individual models regarding the related climatological circulation simulations. The 9MME‐projected changes in circulation conditions tied to summer YRD CDHWs during the carbon neutrality period (2050–2060) under SSP119 favour the comparable occurrence of the YRD with that for the same period under the medium greenhouse gas (GHG) warming scenario (SSP245), but the intensities of the CDHWs are the least severe. However, the highest number of YRD CDHWs is driven by the high GHG warming scenario (SSP585), and these CDHWs feature the most severe intensity. Our research identified a new paradigm regarding the frequency and intensity of the summer YRD CDHW under SSP119, highlighting the potential role of the newly accessible CN‐oriented sustainable development pathway in alleviating compound extremes. A new paradigm in terms of the frequency and intensity of the summertime YRD CDHW is identified, which is driven by a newly accessible sustainable development pathway of SSP119.
doi_str_mv 10.1002/joc.8478
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The 9MME‐projected changes in circulation conditions tied to summer YRD CDHWs during the carbon neutrality period (2050–2060) under SSP119 favour the comparable occurrence of the YRD with that for the same period under the medium greenhouse gas (GHG) warming scenario (SSP245), but the intensities of the CDHWs are the least severe. However, the highest number of YRD CDHWs is driven by the high GHG warming scenario (SSP585), and these CDHWs feature the most severe intensity. Our research identified a new paradigm regarding the frequency and intensity of the summer YRD CDHW under SSP119, highlighting the potential role of the newly accessible CN‐oriented sustainable development pathway in alleviating compound extremes. 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The 9MME‐projected changes in circulation conditions tied to summer YRD CDHWs during the carbon neutrality period (2050–2060) under SSP119 favour the comparable occurrence of the YRD with that for the same period under the medium greenhouse gas (GHG) warming scenario (SSP245), but the intensities of the CDHWs are the least severe. However, the highest number of YRD CDHWs is driven by the high GHG warming scenario (SSP585), and these CDHWs feature the most severe intensity. Our research identified a new paradigm regarding the frequency and intensity of the summer YRD CDHW under SSP119, highlighting the potential role of the newly accessible CN‐oriented sustainable development pathway in alleviating compound extremes. 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To project future summertime CDHWs over the Yangtze River Delta (YRD) of China under carbon neutrality (CN) for policymakers, we used nine global climate models (GCMs) from the Coupled Model Intercomparison Project Phase 6 (CMIP6) and evaluated and projected circulation conditions tied to the summer YRD CDHW frequency in the boreal summer. The results show that a marked mid‐tropospheric regional‐scale anticyclonic anomaly centred over the East China Sea can be deemed the dominant system linking the more frequent occurrence of YRD CDHWs. Our selected nine CMIP6 GCMs better captured the observed climatological and anomalous spatial circulation patterns connected to the summer YRD CDHW frequency. Moreover, the nine models' multi‐model ensemble mean (9MME) was better than most of the individual models regarding the related climatological circulation simulations. The 9MME‐projected changes in circulation conditions tied to summer YRD CDHWs during the carbon neutrality period (2050–2060) under SSP119 favour the comparable occurrence of the YRD with that for the same period under the medium greenhouse gas (GHG) warming scenario (SSP245), but the intensities of the CDHWs are the least severe. However, the highest number of YRD CDHWs is driven by the high GHG warming scenario (SSP585), and these CDHWs feature the most severe intensity. Our research identified a new paradigm regarding the frequency and intensity of the summer YRD CDHW under SSP119, highlighting the potential role of the newly accessible CN‐oriented sustainable development pathway in alleviating compound extremes. A new paradigm in terms of the frequency and intensity of the summertime YRD CDHW is identified, which is driven by a newly accessible sustainable development pathway of SSP119.</abstract><cop>Chichester, UK</cop><pub>John Wiley &amp; Sons, Ltd</pub><doi>10.1002/joc.8478</doi><tpages>19</tpages><orcidid>https://orcid.org/0000-0003-1462-743X</orcidid><orcidid>https://orcid.org/0000-0001-6246-8897</orcidid><orcidid>https://orcid.org/0000-0001-9289-8505</orcidid><orcidid>https://orcid.org/0000-0002-6293-6176</orcidid></addata></record>
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subjects Carbon
Carbon neutrality
Circulation
circulation conditions
Circulation patterns
Climate models
CMIP6
Drought
Global climate
Global climate models
Greenhouse effect
Greenhouse gases
Heat waves
Heatwaves
Intercomparison
projection
Rivers
Summer
Summer circulation
summer compound drought and heatwave frequency
Sustainable development
Yangtze River Delta
title Evaluation and projection of circulation conditions tied to summertime compound drought and heatwave frequency over the Yangtze River Delta, China, for the carbon neutrality period based on CMIP6 GCMs
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