Impact of urban land cover change on the garden city status and land surface temperature of Kumasi

Q2 Environmental Science

Cogent Environmental Science Pub Date : 2020-01-01 DOI:10.1080/23311843.2020.1787738

C. Mensah, Julia Atayi, A. T. Kabo-bah, Marian Švik, D. Acheampong, R. Kyere-boateng, Nana Agyemang Prempeh, M. Marek

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引用次数: 17

Abstract

Abstract Rapid urban expansion and development have resulted in the conversion of many natural green surfaces within cities to non-transpiring built-up surfaces, such as concrete and asphalt. These artificial urban surfaces cause substantial variation in land surface temperatures that affect the urban microclimate. Thus, there is the need to substantially quantify the extent of green cover loss within growing cities and its impact on surface temperatures. This study used LANDSAT data to spatially assess the extent of urban expansion and its effect on land surface temperature within Kumasi, Ghana. Subsequently, the results showed significant changes in the land cover, which had an effect on the observed land surface temperatures from 1986 to 2015. Generally, there was an overall increase in the built-up areas by 24.13% (55.81 km2) from 1986 to 2015, with a corresponding increase in the mean land surface temperature by 4.16°C. As such, there is the need for the adoption of sustainable urban planning strategies with green vegetation conservation initiatives for modern city planners. This would help reduce urban land surface temperatures while promoting clean air circulation within the city.

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城市土地覆被变化对库马西园林城市地位和地表温度的影响

快速的城市扩张和发展导致城市中许多天然绿色表面转变为非蒸腾的建筑表面，如混凝土和沥青。这些人工城市地表引起地表温度的显著变化，从而影响城市小气候。因此，有必要大量量化发展中城市绿化覆盖损失的程度及其对地表温度的影响。本研究利用LANDSAT数据对加纳库马西的城市扩张程度及其对地表温度的影响进行了空间评估。结果表明，1986 - 2015年土地覆被变化显著，影响了地表温度的变化。总体而言，1986 - 2015年建成区面积增加24.13% (55.81 km2)，地表平均温度升高4.16℃。因此，现代城市规划者有必要采用可持续的城市规划战略和绿色植被保护倡议。这将有助于降低城市地表温度，同时促进城市内的清洁空气循环。

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

Cogent Environmental Science ENVIRONMENTAL SCIENCES-

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审稿时长

13 weeks