
Predicting the impact of climate change in Srepok river basin by LARS-WG model with CMIP5 scenarios
Author(s) -
Thi Thao Nhi Thi Thao,
Đào Nguyên Khôi
Publication year - 2021
Publication title -
khoa học và công nghệ: tự nhiên
Language(s) - English
Resource type - Journals
ISSN - 2588-106X
DOI - 10.32508/stdjns.v5i2.970
Subject(s) - precipitation , environmental science , climate change , livelihood , climatology , drainage basin , water resources , climate model , structural basin , general circulation model , meteorology , geography , agriculture , geology , cartography , ecology , paleontology , oceanography , archaeology , biology
Global warming has significantly challenged the natural environment and livelihood conditions. Understanding potential future changes of climate variables, such as temperature and precipitation, is critical for water resource management in this region. This study proposed an approach to applying LARS-WG model in CMIP5 scenarios, 9 monitoring stations with 25-year series of dately data used for calibration and validation, which were the input data of the model. Combining data from 5 outputs of general periodic model (GCMs) for the periods 2021–2020, 2041–2060, and 2061– 2080, the results showed that the CMIP5 scenarios could be used successfully in the LARS-WG model and the model worked well under the climatic conditions of the Srepok river basin (Central Highlands of Vietnam). Comparing future weather scenarios with current weather data showed that warmer transitions and reduced rainfall would be generally in the future. Future temperature and precipitation trends showed an increase in both the magnitude and frequency of extreme events. So the affects of climate change are enormous on the management of related projects. Water resources need to be considered a lot in the local decision-making.