Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities

Urban universities are a microcosm of urban built-up areas, such as cities, but with a much smaller scale of spatial resolution. Within universities, there are many types of landscape features exhibiting different heat absorption and transmission capacities. These landscape features generate spatial...

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Main Authors: Wibowo, Adi, Salleh, Khairulmaini Osman
Format: Article
Published: Springer Verlag (Germany) 2018
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Online Access:http://eprints.um.edu.my/20377/
https://doi.org/10.1007/s11069-018-3363-3
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Institution: Universiti Malaya
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spelling my.um.eprints.203772019-02-18T05:55:27Z http://eprints.um.edu.my/20377/ Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities Wibowo, Adi Salleh, Khairulmaini Osman G Geography. Anthropology. Recreation Urban universities are a microcosm of urban built-up areas, such as cities, but with a much smaller scale of spatial resolution. Within universities, there are many types of landscape features exhibiting different heat absorption and transmission capacities. These landscape features generate spatial–temporal heat signatures, and the knowledge about landscape features and urban heat hazard on university campuses is limited. The objective of this research is an assessment of landscape features and the potential heat hazard threats of two urban universities in ASEAN, located in the centre of the equatorial region. The focus of this research is on urban heat hazards in two urban universities in ASEAN, the University of Malaysia in Kuala Lumpur and the University of Indonesia in Jakarta, within the context of the spatial–temporal behaviour of urban heat and the urban heat effects on the environment and human well-being on campuses. The spatial and temporal analysis used to answer the objective of this research via data-gathering methods from image satellite, ground trough, and human perception study. The UM campus and UI campus, both urban campuses, had similar landscape features but had different total percentage areas of these features. The UM campus was 59.1% covered by the densely vegetated surface landscape feature, a percentage lower than that of the UI campus, which was 65.3% vegetation covered. The temporal results for the UHS of the UM campus in 2013–2016 show a maximum temperature of 39 °C. Therefore, the UHS of the UI campus demonstrated temporal behaviour in 2013–2016, with a maximum temperature of 38 °C. The UHS behaviour of the UM campus and UI campus had an air surface temperature with a maximum average temperature of 33 °C. The air surface temperatures exceeding 32 °C at the UM campus (12 pm until 6 pm = 5 h) lasted for a longer time than those at the UI campus (12 pm until 3 pm = 3 h). This study showed that, based on the perceptions on both campuses, if temperatures exceeded 30 °C, respondents were very hot and very uncomfortable, which will impact health and decrease work or academic achievements, as perceptions of heat intensity impact human well-being. Students perceived that heat intensity impacted their health and they reported becoming tired and lethargic under maximum temperatures and were very hot and very uncomfortable, and this condition impacted their work activity. These results indicated that, at both the UM and UI campuses, heat intensity impacts human well-being, with risks associated with hot temperatures. These two urban campuses are significant for ASEAN university awareness of the urban heat hazard of the equatorial area. Springer Verlag (Germany) 2018 Article PeerReviewed Wibowo, Adi and Salleh, Khairulmaini Osman (2018) Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities. Natural Hazards, 92 (3). pp. 1267-1286. ISSN 0921-030X https://doi.org/10.1007/s11069-018-3363-3 doi:10.1007/s11069-018-3363-3
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic G Geography. Anthropology. Recreation
spellingShingle G Geography. Anthropology. Recreation
Wibowo, Adi
Salleh, Khairulmaini Osman
Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
description Urban universities are a microcosm of urban built-up areas, such as cities, but with a much smaller scale of spatial resolution. Within universities, there are many types of landscape features exhibiting different heat absorption and transmission capacities. These landscape features generate spatial–temporal heat signatures, and the knowledge about landscape features and urban heat hazard on university campuses is limited. The objective of this research is an assessment of landscape features and the potential heat hazard threats of two urban universities in ASEAN, located in the centre of the equatorial region. The focus of this research is on urban heat hazards in two urban universities in ASEAN, the University of Malaysia in Kuala Lumpur and the University of Indonesia in Jakarta, within the context of the spatial–temporal behaviour of urban heat and the urban heat effects on the environment and human well-being on campuses. The spatial and temporal analysis used to answer the objective of this research via data-gathering methods from image satellite, ground trough, and human perception study. The UM campus and UI campus, both urban campuses, had similar landscape features but had different total percentage areas of these features. The UM campus was 59.1% covered by the densely vegetated surface landscape feature, a percentage lower than that of the UI campus, which was 65.3% vegetation covered. The temporal results for the UHS of the UM campus in 2013–2016 show a maximum temperature of 39 °C. Therefore, the UHS of the UI campus demonstrated temporal behaviour in 2013–2016, with a maximum temperature of 38 °C. The UHS behaviour of the UM campus and UI campus had an air surface temperature with a maximum average temperature of 33 °C. The air surface temperatures exceeding 32 °C at the UM campus (12 pm until 6 pm = 5 h) lasted for a longer time than those at the UI campus (12 pm until 3 pm = 3 h). This study showed that, based on the perceptions on both campuses, if temperatures exceeded 30 °C, respondents were very hot and very uncomfortable, which will impact health and decrease work or academic achievements, as perceptions of heat intensity impact human well-being. Students perceived that heat intensity impacted their health and they reported becoming tired and lethargic under maximum temperatures and were very hot and very uncomfortable, and this condition impacted their work activity. These results indicated that, at both the UM and UI campuses, heat intensity impacts human well-being, with risks associated with hot temperatures. These two urban campuses are significant for ASEAN university awareness of the urban heat hazard of the equatorial area.
format Article
author Wibowo, Adi
Salleh, Khairulmaini Osman
author_facet Wibowo, Adi
Salleh, Khairulmaini Osman
author_sort Wibowo, Adi
title Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
title_short Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
title_full Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
title_fullStr Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
title_full_unstemmed Landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
title_sort landscape features and potential heat hazard threat: a spatial–temporal analysis of two urban universities
publisher Springer Verlag (Germany)
publishDate 2018
url http://eprints.um.edu.my/20377/
https://doi.org/10.1007/s11069-018-3363-3
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