Modeling the Surface Thermal Discomfort Index (STDI) in a Tropical Environments using Multi Sensors: A Case Study of East Kalimantan, The Future New Capital City of Indonesia

IF 2.2 4区地球科学 Q3 ENVIRONMENTAL SCIENCES

Journal of the Indian Society of Remote Sensing Pub Date : 2024-06-18 DOI:10.1007/s12524-024-01919-w

Parwati Sofan, Khalifah Insan Nur Rahmi, Nurwita Mustika Sari, Jalu Tejo Nugroho, Trinah Wati, Anjar Dimara Sakti

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Abstract

Thermal Discomfort Index has traditionally relied on parameters such as air temperature and relative humidity, obtained either from meteorological ground stations or through land-physical approaches estimated independently by satellites. These methods often fall short in adequately capturing both seasonal and detailed local spatial variations. This study addresses these limitations by establishing the Surface Thermal Discomfort Index (STDI), a composite of the Meteorological Discomfort Index (MDI) and the Discomfort Index over the land surface (DI_-Land). Focused on Ibu Kota Negara Nusantara (IKN) in East Kalimantan and neighboring cities, MDI is derived from reanalysis data (ERA5-Land), validated with ground station data, while DI_-Land is produced primarily from Landsat-8. An equal weighting factor was applied to MDI and DI_-Land for estimating STDI. Results indicate that STDI captures both seasonal and spatial variations, reaching peak level in May and October, and hitting a low point in July. The spatial distribution of STDI is influenced by landuse types. In 2023, IKN experienced an STDI of 26.2 °C, while Balikpapan and Samarinda recorded at 26.5 and 26.4 °C, respectively. Compared to previous study in Jakarta, IKN and neighboring cities’s STDI are higher up to 0.2 °C, remaining within the partially comfortable range in the tropics. Projecting IKN’s development until 2045, an annual MDI increase of 0.01 °C is anticipated. Moreover, a 4% rise in built-up areas is expected to elevate STDI by 0.1–0.2 °C. This study provides insights into the thermal discomfort status in cities across East Kalimantan, anticipating a gradual increase in discomfort levels during the development of IKN.

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利用多种传感器模拟热带环境中的地表热不舒适指数（STDI）：印度尼西亚未来新首都东加里曼丹案例研究

热舒适度指数传统上依赖于空气温度和相对湿度等参数，这些参数可以从地面气象站获得，也可以通过卫星独立估算的陆地物理方法获得。这些方法往往无法充分捕捉季节性和详细的局部空间变化。本研究通过建立地表热不舒适指数（STDI）来解决这些局限性，STDI 是气象不舒适指数（MDI）和地表不舒适指数（DI-Land）的综合。MDI 以东加里曼丹的 Ibu Kota Negara Nusantara（IKN）及邻近城市为重点，来自再分析数据（ERA5-Land），并与地面站数据进行了验证，而 DI-Land 主要来自 Landsat-8。在估算 STDI 时，对 MDI 和 DI-Land 采用了相同的权重系数。结果表明，STDI 可捕捉季节和空间变化，在 5 月和 10 月达到峰值，在 7 月达到低点。STDI 的空间分布受到土地利用类型的影响。2023 年，IKN 的 STDI 为 26.2 °C，而 Balikpapan 和 Samarinda 分别为 26.5 和 26.4 °C。与之前在雅加达进行的研究相比，IKN 和邻近城市的 STDI 高出 0.2 °C，仍处于热带地区的部分舒适范围内。预计到 2045 年，IKN 的发展每年将增加 0.01 °C。此外，建筑面积每增加 4%，STDI 预计将上升 0.1-0.2 °C。这项研究深入探讨了东加里曼丹各城市的热不适状况，预计在 IKN 的发展过程中，不适程度会逐渐增加。

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来源期刊

Journal of the Indian Society of Remote Sensing ENVIRONMENTAL SCIENCES-REMOTE SENSING

CiteScore

4.80

自引率

8.00%

发文量

163

审稿时长

7 months

期刊介绍： The aims and scope of the Journal of the Indian Society of Remote Sensing are to help towards advancement, dissemination and application of the knowledge of Remote Sensing technology, which is deemed to include photo interpretation, photogrammetry, aerial photography, image processing, and other related technologies in the field of survey, planning and management of natural resources and other areas of application where the technology is considered to be appropriate, to promote interaction among all persons, bodies, institutions (private and/or state-owned) and industries interested in achieving advancement, dissemination and application of the technology, to encourage and undertake research in remote sensing and related technologies and to undertake and execute all acts which shall promote all or any of the aims and objectives of the Indian Society of Remote Sensing.