Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China

Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China

Extreme hydrometeorological events have far-reaching impacts on our daily life and may occur more frequently with rising global temperatures. The probability of the concurrence of these extreme events in the upper reaches of the river network is of particular importance for the lower reaches, which...

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Main Authors: Mengyang Liu, Yixing Yin, Xieyao Ma, Zengxin Zhang, Guojie Wang, Shenmin Wang
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Water
Subjects:
flood and drought encounter
statistical downscaling model
xin’anjiang model
copula function
Online Access:https://www.mdpi.com/2073-4441/12/1/104
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spelling doaj-d28a0857d3df4967b734613233152db32020-11-25T02:18:24ZengMDPI AGWater2073-44412019-12-0112110410.3390/w12010104w12010104Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, ChinaMengyang Liu0Yixing Yin1Xieyao Ma2Zengxin Zhang3Guojie Wang4Shenmin Wang5School of Atmospheric Sciences, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaSchool of Hydrology and Water Resources, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaSchool of Hydrology and Water Resources, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaJoint Innovation Center for Modern Forestry Studies, Nanjing Forestry University, Nanjing 210037, ChinaSchool of Geographical Sciences, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaSchool of Geographical Sciences, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaExtreme hydrometeorological events have far-reaching impacts on our daily life and may occur more frequently with rising global temperatures. The probability of the concurrence of these extreme events in the upper reaches of the river network is of particular importance for the lower reaches, which is referred to as the encounter probability of extreme events, and may have even stronger socio-economic impacts. In this study, the Rao River basin in China is selected as an example to explore the encounter probability and risk of future flood and drought based on the encounter probability model. The reference period was 1971−2000, and the future prediction periods were 2020−2049 and 2070−2099. The calibrated and validated statistical downscaling model (SDSM) was used to generate future daily precipitation and daily mean temperature. The calibrated and validated Xin’anjiang model was used to predict future daily mean streamflow in the basin. In addition, the encounter probability model was established using the joint distribution of occurrence dates and magnitudes of daily mean streamflow to investigate the encounter probabilities of flood and drought under future climate change. Results show that, for flood occurrence dates, the encounter probability during the flood season would decrease in the two future periods while the dates would generally be earlier. For flood magnitudes, the encounter probability of the two tributaries’ floods and the probability of flood at each tributary would decrease (e.g., the encounter probability with the same-frequency of 100-years would reduce by 53% to 95%), which indicates reduced risk of future major floods in the study area. For drought occurrence dates, the encounter probability during the non-flood season would decrease. For drought magnitudes, the encounter probability would decrease (e.g., the encounter probability with the same-frequency of 100-years would reduce by 18% to 33%), even though the probability of future drought at each tributary would increase. Such analyses provide important probabilistic information to help us prepare for the upcoming extreme events.https://www.mdpi.com/2073-4441/12/1/104flood and drought encounterstatistical downscaling modelxin’anjiang modelcopula function
collection DOAJ
language English
format Article
sources DOAJ
author Mengyang Liu
Yixing Yin
Xieyao Ma
Zengxin Zhang
Guojie Wang
Shenmin Wang
spellingShingle Mengyang Liu
Yixing Yin
Xieyao Ma
Zengxin Zhang
Guojie Wang
Shenmin Wang
Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
Water
flood and drought encounter
statistical downscaling model
xin’anjiang model
copula function
author_facet Mengyang Liu
Yixing Yin
Xieyao Ma
Zengxin Zhang
Guojie Wang
Shenmin Wang
author_sort Mengyang Liu
title Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
title_short Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
title_full Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
title_fullStr Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
title_full_unstemmed Encounter Probability and Risk of Flood and Drought under Future Climate Change in the Two Tributaries of the Rao River Basin, China
title_sort encounter probability and risk of flood and drought under future climate change in the two tributaries of the rao river basin, china
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2019-12-01
description Extreme hydrometeorological events have far-reaching impacts on our daily life and may occur more frequently with rising global temperatures. The probability of the concurrence of these extreme events in the upper reaches of the river network is of particular importance for the lower reaches, which is referred to as the encounter probability of extreme events, and may have even stronger socio-economic impacts. In this study, the Rao River basin in China is selected as an example to explore the encounter probability and risk of future flood and drought based on the encounter probability model. The reference period was 1971−2000, and the future prediction periods were 2020−2049 and 2070−2099. The calibrated and validated statistical downscaling model (SDSM) was used to generate future daily precipitation and daily mean temperature. The calibrated and validated Xin’anjiang model was used to predict future daily mean streamflow in the basin. In addition, the encounter probability model was established using the joint distribution of occurrence dates and magnitudes of daily mean streamflow to investigate the encounter probabilities of flood and drought under future climate change. Results show that, for flood occurrence dates, the encounter probability during the flood season would decrease in the two future periods while the dates would generally be earlier. For flood magnitudes, the encounter probability of the two tributaries’ floods and the probability of flood at each tributary would decrease (e.g., the encounter probability with the same-frequency of 100-years would reduce by 53% to 95%), which indicates reduced risk of future major floods in the study area. For drought occurrence dates, the encounter probability during the non-flood season would decrease. For drought magnitudes, the encounter probability would decrease (e.g., the encounter probability with the same-frequency of 100-years would reduce by 18% to 33%), even though the probability of future drought at each tributary would increase. Such analyses provide important probabilistic information to help us prepare for the upcoming extreme events.
topic flood and drought encounter
statistical downscaling model
xin’anjiang model
copula function
url https://www.mdpi.com/2073-4441/12/1/104
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