Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx

Understanding the driving factors for precipitation extremes matters for adaptation and mitigation measures against the changing hydrometeorological hazards in Yangtze River basin, a habitable area that provides water resources for domestic, farming, and industrial needs. However, the region is natu...

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Main Authors: Nergui Nanding (9683420), Yang Chen (9737), Huan Wu (617276), Buwen Dong (557113), Fangxing Tian (9683423), Fraser C. Lott (9683426), Simon F. B. Tett (9683429), Miguel Angel Rico-Ramirez (9683432), Yiheng Chen (3079203), Zhijun Huang (841940), Yan Yan (208529), Delei Li (3370511), Rouke Li (9683435), Xuan Wang (55634), Xuewei Fan (4815234)
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Environmental Science
Climate Science
Environmental Impact Assessment
Environmental Management
Soil Biology
Water Treatment Processes
Environmental Engineering Design
Environmental Engineering Modelling
Environmental Technologies
precipitation extreme events
climate change
Yangtze (Changjiang) catchment
attribution studies
anthropogenic influence
Sea ice
Online Access:https://doi.org/10.3389/fenvs.2020.603061.s001
id ftsmithonian:oai:figshare.com:article/13705285
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/13705285 2023-05-15T18:18:46+02:00 Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx Nergui Nanding (9683420) Yang Chen (9737) Huan Wu (617276) Buwen Dong (557113) Fangxing Tian (9683423) Fraser C. Lott (9683426) Simon F. B. Tett (9683429) Miguel Angel Rico-Ramirez (9683432) Yiheng Chen (3079203) Zhijun Huang (841940) Yan Yan (208529) Delei Li (3370511) Rouke Li (9683435) Xuan Wang (55634) Xuewei Fan (4815234) 2021-02-03T15:20:20Z https://doi.org/10.3389/fenvs.2020.603061.s001 unknown https://figshare.com/articles/dataset/Data_Sheet_1_Anthropogenic_Influences_on_2019_July_Precipitation_Extremes_Over_the_Mid_Lower_Reaches_of_the_Yangtze_River_docx/13705285 doi:10.3389/fenvs.2020.603061.s001 CC BY 4.0 CC-BY Environmental Science Climate Science Environmental Impact Assessment Environmental Management Soil Biology Water Treatment Processes Environmental Engineering Design Environmental Engineering Modelling Environmental Technologies precipitation extreme events climate change Yangtze (Changjiang) catchment attribution studies anthropogenic influence Dataset 2021 ftsmithonian https://doi.org/10.3389/fenvs.2020.603061.s001 2021-02-26T12:24:06Z Understanding the driving factors for precipitation extremes matters for adaptation and mitigation measures against the changing hydrometeorological hazards in Yangtze River basin, a habitable area that provides water resources for domestic, farming, and industrial needs. However, the region is naturally subject to major floods linked to monsoonal heavy precipitation during May–September. This study aims to quantify anthropogenic influences on the changing risk of 2-week-long precipitation extremes such as the July 2019 extreme cases, as well as events of shorter durations, over the middle and lower reaches of Yangtze River basin (MLYRB). Precipitation extremes with different durations ranging from 1-day to 14-days maximum precipitation accumulations are investigated. Gridded daily precipitations based on nearly 2,400 meteorological stations across China are used to define maximum accumulated precipitation extremes over the MLYRB in July during 1961–2019. Attribution analysis is conducted by using the Met Office HadGEM3-GA6 modeling system, which comprises two sets of 525-member ensembles for 2019. One is forced with observed sea-surface temperatures (SSTs), sea-ice and all forcings, and the other is forced with preindustrialized SSTs and natural forcings only. The risk ratio between the exceedance probabilities estimated from all-forcing and natural-forcing simulations is calculated to quantify the anthropogenic contribution to the changing risks of the July 2019–like precipitation extremes. The results reveal that anthropogenic warming has reduced the likelihood of 2019-like 14-days heavy precipitation over the mid–lower reaches of the Yangtze River by 20%, but increased that of 2-days extremes by 30%. Dataset Sea ice Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Environmental Science
Climate Science
Environmental Impact Assessment
Environmental Management
Soil Biology
Water Treatment Processes
Environmental Engineering Design
Environmental Engineering Modelling
Environmental Technologies
precipitation extreme events
climate change
Yangtze (Changjiang) catchment
attribution studies
anthropogenic influence
spellingShingle Environmental Science
Climate Science
Environmental Impact Assessment
Environmental Management
Soil Biology
Water Treatment Processes
Environmental Engineering Design
Environmental Engineering Modelling
Environmental Technologies
precipitation extreme events
climate change
Yangtze (Changjiang) catchment
attribution studies
anthropogenic influence
Nergui Nanding (9683420)
Yang Chen (9737)
Huan Wu (617276)
Buwen Dong (557113)
Fangxing Tian (9683423)
Fraser C. Lott (9683426)
Simon F. B. Tett (9683429)
Miguel Angel Rico-Ramirez (9683432)
Yiheng Chen (3079203)
Zhijun Huang (841940)
Yan Yan (208529)
Delei Li (3370511)
Rouke Li (9683435)
Xuan Wang (55634)
Xuewei Fan (4815234)
Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
topic_facet Environmental Science
Climate Science
Environmental Impact Assessment
Environmental Management
Soil Biology
Water Treatment Processes
Environmental Engineering Design
Environmental Engineering Modelling
Environmental Technologies
precipitation extreme events
climate change
Yangtze (Changjiang) catchment
attribution studies
anthropogenic influence
description Understanding the driving factors for precipitation extremes matters for adaptation and mitigation measures against the changing hydrometeorological hazards in Yangtze River basin, a habitable area that provides water resources for domestic, farming, and industrial needs. However, the region is naturally subject to major floods linked to monsoonal heavy precipitation during May–September. This study aims to quantify anthropogenic influences on the changing risk of 2-week-long precipitation extremes such as the July 2019 extreme cases, as well as events of shorter durations, over the middle and lower reaches of Yangtze River basin (MLYRB). Precipitation extremes with different durations ranging from 1-day to 14-days maximum precipitation accumulations are investigated. Gridded daily precipitations based on nearly 2,400 meteorological stations across China are used to define maximum accumulated precipitation extremes over the MLYRB in July during 1961–2019. Attribution analysis is conducted by using the Met Office HadGEM3-GA6 modeling system, which comprises two sets of 525-member ensembles for 2019. One is forced with observed sea-surface temperatures (SSTs), sea-ice and all forcings, and the other is forced with preindustrialized SSTs and natural forcings only. The risk ratio between the exceedance probabilities estimated from all-forcing and natural-forcing simulations is calculated to quantify the anthropogenic contribution to the changing risks of the July 2019–like precipitation extremes. The results reveal that anthropogenic warming has reduced the likelihood of 2019-like 14-days heavy precipitation over the mid–lower reaches of the Yangtze River by 20%, but increased that of 2-days extremes by 30%.
format Dataset
author Nergui Nanding (9683420)
Yang Chen (9737)
Huan Wu (617276)
Buwen Dong (557113)
Fangxing Tian (9683423)
Fraser C. Lott (9683426)
Simon F. B. Tett (9683429)
Miguel Angel Rico-Ramirez (9683432)
Yiheng Chen (3079203)
Zhijun Huang (841940)
Yan Yan (208529)
Delei Li (3370511)
Rouke Li (9683435)
Xuan Wang (55634)
Xuewei Fan (4815234)
author_facet Nergui Nanding (9683420)
Yang Chen (9737)
Huan Wu (617276)
Buwen Dong (557113)
Fangxing Tian (9683423)
Fraser C. Lott (9683426)
Simon F. B. Tett (9683429)
Miguel Angel Rico-Ramirez (9683432)
Yiheng Chen (3079203)
Zhijun Huang (841940)
Yan Yan (208529)
Delei Li (3370511)
Rouke Li (9683435)
Xuan Wang (55634)
Xuewei Fan (4815234)
author_sort Nergui Nanding (9683420)
title Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
title_short Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
title_full Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
title_fullStr Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
title_full_unstemmed Data_Sheet_1_Anthropogenic Influences on 2019 July Precipitation Extremes Over the Mid–Lower Reaches of the Yangtze River.docx
title_sort data_sheet_1_anthropogenic influences on 2019 july precipitation extremes over the mid–lower reaches of the yangtze river.docx
publishDate 2021
url https://doi.org/10.3389/fenvs.2020.603061.s001
genre Sea ice
genre_facet Sea ice
op_relation https://figshare.com/articles/dataset/Data_Sheet_1_Anthropogenic_Influences_on_2019_July_Precipitation_Extremes_Over_the_Mid_Lower_Reaches_of_the_Yangtze_River_docx/13705285
doi:10.3389/fenvs.2020.603061.s001
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fenvs.2020.603061.s001
_version_ 1766195466457841664

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