Trend analysis and prediction of temperature change in the continental, Thailand

Q4 Social Sciences Glasnik - Srpskog Geografskog Drustva Pub Date : 2023-01-01 DOI:10.2298/gsgd2301065p
N. Phumkokrux
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Abstract

Diurnal Temperature Range (DTR) is one of global warming indicator which using only daily minimum temperature (TMin) and daily maximum temperature (TMax) for calculation. The study aims 1) to analyse trend of TMax, TMin and DTR over the early period of 21st century (1987 - 2020) and 2) to forecast and analyse trend of TMax, TMin and DTR over the mid and late period of 21st century (2021 - 2040 and 2041-2100) using MIROC5 (rcp85) model, cooperated with EQM Statistical downscaling method. TMax, TMin, and and DTR trends of all periods were investigated by Mann Kendall Trend Test and Sen?s slope, then presented in the form of spatial maps. The most of TMax and TMin trends for all season and all regions tended to be increasing from year by year with the large increasing of changing in Northern and Northeast region especially in Winter, except for the last period which had a large increasing in Summer. However, DTR trends were quietly fluctuated with the large decreasing of changing in Eastern and Southern part, but the trends become to increase in the last period. A large DTR decreasing of changing usually occurred in Winter and Rainy season. The TMax and TMin of all periods were expanding year by year and leading the DTR decreased in the first and second period, however, a changing of TMax and TMin rate leaded DTR increasing for the last period. It is a good signal for heat transfer performance which can help the earth cooling in night time.
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泰国大陆气温变化趋势分析与预测
日温度差(DTR)是仅使用日最低温度(TMin)和日最高温度(TMax)计算的全球变暖指标之一。研究目的:1)分析21世纪前期(1987 - 2020)的TMax、TMin和DTR的变化趋势;2)利用MIROC5 (rcp85)模型,结合EQM统计降尺度方法,预测和分析21世纪中后期(2021 - 2040和2041-2100)的TMax、TMin和DTR的变化趋势。各时期TMax、TMin和DTR趋势采用Mann Kendall趋势检验和Sen?S斜率,然后以空间地图的形式呈现。各季节和各区域的TMax和TMin变化趋势大部分呈逐年增加的趋势,除末期夏季增加较多外,北方和东北地区的变化在冬季增加较多。DTR变化趋势呈平稳波动趋势,东部和南部变化幅度较大,后期呈上升趋势。DTR变化的大幅度减少通常发生在冬季和雨季。各时期的TMax和TMin均呈逐年增大趋势,并在第一、第二时期导致DTR下降,但TMax和TMin速率的变化导致DTR在最后一个时期上升。这是一个很好的传热信号,可以帮助地球在夜间降温。
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来源期刊
Glasnik - Srpskog Geografskog Drustva
Glasnik - Srpskog Geografskog Drustva Social Sciences-Education
CiteScore
0.70
自引率
0.00%
发文量
11
审稿时长
18 weeks
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