Spatio-temporal analysis of diurnal air temperature parameterization in Weather Stations over Iran

Desert Pub Date : 2018-06-20 DOI:10.22059/JDESERT.2018.66366

M. Gholamnia, R. Khandan, A. D. Boloorani, S. Hamzeh, M. Gharaylou, S. Duan, S. K. A. Panah

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引用次数: 3

Abstract

Diurnal air temperature modeling is a beneficial experimental and mathematical approach which can be used in many fields related to Geosciences. The modeling and spatio-temporal analysis of air Diurnal Temperature Cycle (DTC) was conducted using data obtained from 105 synoptic stations in Iran during the years 2013-2014 for the first time; the key variable for controlling the cosine term in DTC modeling known as β was analyzed and considered both as monthly and annual parameter. The effect of environmental variables of humidity, pressure, diurnal air temperature range, and wind speed were analyzed on β. The results showed that there is no significant difference between considering β as monthly (dynamic) or annual (constant) parameter through the year. The RMSE of approach with dynamic β was 2.1 °C and with constant 2.2 °C at 95% percent of whole data in all stations. The analysis of environmental variables showed that humidity had an indirect effect on β. Low pressure areas showed higher β values but high pressure areas showed higher variability in β and lower mean values. In areas with high air diurnal temperature range, lower β values with less standard deviation were observed. High wind areas showed positive effect on β values.

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伊朗上空气象站昼夜气温参数化的时空分析

日气温建模是一种有益的实验和数学方法，可用于地球科学的许多领域。首次利用2013-2014年伊朗105个天气站的数据，对日气温循环（DTC）进行了建模和时空分析；分析了DTC建模中控制余弦项的关键变量β，并将其视为月度和年度参数。分析了湿度、气压、日气温范围和风速等环境变量对β的影响。结果表明，将β作为全年的月度（动态）参数和年度（恒定）参数没有显著差异。在所有站点中，动态β方法的均方根误差为2.1°C，恒定2.2°C，占总数据的95%。对环境变量的分析表明，湿度对β有间接影响。低压区的β值较高，但高压区的β变化较大，平均值较低。在空气昼夜温度范围较高的地区，观察到β值较低，标准偏差较小。大风区对β值有积极影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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32 weeks