Unraveling the complexities of land transformation and its impact on urban sustainability through land surface temperature analysis

IF 2.3 Q2 REMOTE SENSING Applied Geomatics Pub Date : 2023-08-29 DOI:10.1007/s12518-023-00521-y
Saleha Jamal, Mohd Saqib, Wani Suhail Ahmad, Manal Ahmad, Md Ashif Ali, Md Babor Ali
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Abstract

Due to the ongoing population increase over the past years, fast and unchecked urbanization has been occurring in the urban centers of developing nations like India. As a result, land transformation is taking place at a fast pace leading to the creation of urban heat island (UHI). Urban heat island (UHI) constitutes a significant human alteration to the Earth system. Hence, this study presents a rigorous and comprehensive analysis of the impact of land use and cover on land surface temperature (LST) in Aligarh City, Uttar Pradesh, India, using multi-dimensional satellite data. The research collected Landsat data for four different phases (1991, 2001, 2011, and 2021) and analyzed it in conjunction with land use and cover (LULC) data to identify trends and variations. The result shows a consistent increase in LST since 1991, with built-up and bare land areas exhibiting the highest temperatures across all phases. Moreover, the study found that impervious land had the most significant effect on LST, followed by water bodies and vegetation cover. The analysis of the proportion of the area with the lowest and highest LST showed interesting trends, with a greater portion of Aligarh City experiencing a temperature range between 15 and 16 °C in 2021 compared to previous years. However, the study also found that 13.55% of the area had a maximum LST of over 17 °C, which is higher than the previous measurement of 9.04%, and has been steadily increasing since 1991. The accuracy of the study was verified by detecting elevated temperatures in non-porous areas and cooler temperatures near green zones and water bodies. This study’s contribution to the research community lies in the data-driven, systematic analysis of the complex relationship between land use and cover and LST in an urban environment. The study’s findings suggest that alterations in land use/cover patterns have a significant impact on LST, which has important implications for urban planning policies. The research provides valuable insights for urban planners, policymakers, and city officials, as it highlights the need for sustainable and efficient urban planning policies to mitigate the effects of urban heat islands and rising temperatures. The study’s results have broader implications beyond Aligarh City and can inform land-use planning and policymaking in other cities facing similar challenges. This research presents a comprehensive analysis that can serve as a framework to inform land-use planning and policymaking, contributing to the development of sustainable and efficient urban environments.

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通过地表温度分析揭示土地转型的复杂性及其对城市可持续性的影响
由于过去几年人口的持续增长,印度等发展中国家的城市中心出现了快速而不受控制的城市化。因此,土地转型正在快速进行,导致城市热岛效应的产生。城市热岛(UHI)是人类对地球系统的重大改变。因此,本研究利用多维卫星数据,对印度北方邦阿里加尔市土地利用和覆盖对地表温度的影响进行了严格而全面的分析。该研究收集了四个不同阶段(1991年、2001年、2011年和2021年)的陆地卫星数据,并结合土地利用和覆盖(LULC)数据进行分析,以确定趋势和变化。结果显示,自1991年以来,地表温度持续上升,建成区和裸露区在所有阶段都表现出最高的温度。此外,研究发现,不透水土地对地表温度的影响最为显著,其次是水体和植被覆盖。对LST最低和最高地区比例的分析显示了有趣的趋势,与往年相比,2021年阿利加尔市的大部分地区的温度范围在15至16°C之间。然而,该研究还发现,13.55%的地区的最高LST超过17°C,高于之前9.04%的测量值,并且自1991年以来一直在稳步增加。通过检测无孔区域的高温和绿化带和水体附近的低温,验证了该研究的准确性。这项研究对研究界的贡献在于对城市环境中土地利用、覆盖和地表温度之间复杂关系的数据驱动、系统分析。研究结果表明,土地利用/覆盖模式的改变对地表温度有重大影响,这对城市规划政策具有重要意义。这项研究为城市规划者、政策制定者和城市官员提供了宝贵的见解,因为它强调了可持续和高效的城市规划政策的必要性,以减轻城市热岛效应和气温上升的影响。这项研究的结果在阿利加尔市之外具有更广泛的影响,可以为其他面临类似挑战的城市的土地利用规划和政策制定提供信息。这项研究提供了一个全面的分析,可以作为土地利用规划和政策制定的框架,有助于发展可持续和高效的城市环境。
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来源期刊
Applied Geomatics
Applied Geomatics REMOTE SENSING-
CiteScore
5.40
自引率
3.70%
发文量
61
期刊介绍: Applied Geomatics (AGMJ) is the official journal of SIFET the Italian Society of Photogrammetry and Topography and covers all aspects and information on scientific and technical advances in the geomatics sciences. The Journal publishes innovative contributions in geomatics applications ranging from the integration of instruments, methodologies and technologies and their use in the environmental sciences, engineering and other natural sciences. The areas of interest include many research fields such as: remote sensing, close range and videometric photogrammetry, image analysis, digital mapping, land and geographic information systems, geographic information science, integrated geodesy, spatial data analysis, heritage recording; network adjustment and numerical processes. Furthermore, Applied Geomatics is open to articles from all areas of deformation measurements and analysis, structural engineering, mechanical engineering and all trends in earth and planetary survey science and space technology. The Journal also contains notices of conferences and international workshops, industry news, and information on new products. It provides a useful forum for professional and academic scientists involved in geomatics science and technology. Information on Open Research Funding and Support may be found here: https://www.springernature.com/gp/open-research/institutional-agreements
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