Spatiotemporal Characterization Of Land Surface Temperature In Relation Landuse/Cover: A Spatial Autocorrelation Approach

Q3 Environmental Science Journal of Landscape Ecology(Czech Republic) Pub Date : 2023-03-08 DOI:10.2478/jlecol-2023-0001

Diksha, Maya Kumari, R. Kumari

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引用次数: 6

Abstract

Abstract The land use and land cover (LULC) characteristics of Ghaziabad have experienced dynamic changes because of the city’s ongoing industrialization and urbanisation processes. These shifts can be directly attributed to human actions. These shifts can be directly attributed to human actions. Thermal variation in the study area necessitates LULC analysis. Landsat and Sentinel satellite data for 2011 and 2021 were used to map LULC, estimate land surface temperature (LST) and analysis spatial autocorrelation among the variables using ArcGIS software and the Google Earth Engine (GEE) cloud platform. A sharp descent is observed in the cropland while built-up area has increased during the study period. With the increase in the built-up surface in the area, the ambient temperatures have also increased from 18.70 °C in 2011 to 21.81 °C in 2021 leading to urban heat island effect. At all spatial scales, spatial autocorrelation is a characteristic property of most ecological parameters. The spatial clustering of LST in an ecosystem can play a crucial role in determining the dynamics of LULC.The Moran’s, I show that there is a considerable level of spatial autocorrelation in the values of LST and highly clustered pattern for both the years. Monitoring and understanding the surface thermal environment is crucial to discerning the causes of climate change.

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土地利用/覆被关系下地表温度的时空特征:空间自相关方法

摘要由于城市持续的工业化和城市化进程，加齐阿巴德的土地利用和土地覆盖特征经历了动态变化。这些变化可以直接归因于人类的行为。这些变化可以直接归因于人类的行为。研究区域的热变化需要进行LULC分析。2011年和2021年的Landsat和Sentinel卫星数据用于绘制LULC地图，估计地表温度（LST），并使用ArcGIS软件和谷歌地球引擎（GEE）云平台分析变量之间的空间自相关。在研究期间，农田急剧下降，而建成区面积增加。随着该地区建成区面积的增加，环境温度也从2011年的18.70°C上升到2021年的21.81°C，导致城市热岛效应。在所有空间尺度上，空间自相关是大多数生态参数的特征性质。LST在生态系统中的空间聚类可以在决定LULC的动力学方面发挥关键作用。Moran的研究表明，这两年的LST值和高度聚类模式都存在相当程度的空间自相关。监测和了解地表热环境对于查明气候变化的原因至关重要。

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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来源期刊

Journal of Landscape Ecology(Czech Republic) Environmental Science-Nature and Landscape Conservation

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Journal of Landscape Ecology is a fully reviewed scientific journal published by Czech National Chapter of the Association for Landscape Ecology (CZ-IALE). Our international editorial board has ambition to fill up a gap in the ecological field scope covered by the European scientific journals and mainly those among them which are produced in the Czech Republic. Subjects of papers are not limited teritorially, however, emphasis is given to the Middle-European landscape-ecological themes. The journal is not preferentially theoretical or applied, it is prepared to serve as a bridge between both levels of knowledge. The effort will be developed to increase gradually its quality level and to reach for acceptation by databases of scientific journals with IF. The first issue of JLE was published in 2008. Recently, three issues of JLE are published per year.