Spatial analysis of flash flood and Drought impact from Climate Change in Phongsaly District, Phogsaly Province, by using Geo-Informatics Technology and Modelling

Authors

  • Sanxay Boutsamaly Environmental Engineering Department, Faculty of Engineering, National University of Laos https://orcid.org/0009-0005-8914-5082
  • Chankhachone Sonemanivong Civil Engineering Department, Faculty of Engineering, National University of Laos
  • Soulyphan Kannitha Civil Engineering Department, Faculty of Engineering, National University of Laos
  • phoummixay siharath Department of Environmental Engineering, Faculty of Engineering, National University of Laos https://orcid.org/0000-0001-9261-6387
  • Somchay Vilaychaleun Environmental Engineering Department, Faculty of Engineering, National University of Laos
  • Khampasith Thammathevo Environmental Engineering Department, Faculty of Engineering, National University of Laos
  • Amphayvanh Oudomdeth Department of Climate Change, Ministry of Natural Resources and Environment, Laos
  • Tavanh Kittiphone Department of Climate Change, Ministry of Natural Resources and Environment, Laos

DOI:

https://doi.org/10.56556/gssr.v2i3.515

Keywords:

drought, flood, flash flood, model, climate change, IPCC

Abstract

A method for predicting the water resource in the region in the future to be used as a basis for mitigating the consequences is to study how climate change affects hydrology. The purpose of this study is to i). choose a global climate model that is suitable for the area, ii). rainfall run-off modelling, iii). drought and flood hazard index map. The SSP-126, SSP-245, and SSP-585 scenarios were chosen as the most appropriate global climate model among the four institutes, with efficiency criteria using the coefficient of Nash-Sutcliffe and Kling-Gupta and then calibrate the data with the Bias Correction Linear Scaling method which divides the analysis period into 2 periods for Near-Future and Far-Future from analyzing Rainfall Run-off Modeling from Rainfall Concentration 1-hours, 3-hours and 6-hours. It was found that the SSP-585 scenario in the Rainfall Concentration 1-hours model has the most dangerous area for very high risk until the end of the 21st century. For the analysis of drought indices SPI_1, SPI_3 and SPI_6 in Near-Future, it was found that the frequency of droughts is increasing according to the worst scenario, the scenario with the most drought is SSP-585 and in the Far-Future, the frequency of drought is decreasing according to the worst scenario, the scenario with the most drought is SSP-126.

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Published

2023-06-22

How to Cite

Sanxay Boutsamaly, Chankhachone Sonemanivong, Soulyphan Kannitha, siharath, phoummixay, Somchay Vilaychaleun, Khampasith Thammathevo, … Tavanh Kittiphone. (2023). Spatial analysis of flash flood and Drought impact from Climate Change in Phongsaly District, Phogsaly Province, by using Geo-Informatics Technology and Modelling. Global Sustainability Research , 2(3), 1–20. https://doi.org/10.56556/gssr.v2i3.515

Issue

Section

Research Articles