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Heatwaves and Coastal Vulnerability in Southeast Asia

Published online by Cambridge University Press:  29 August 2023

Jan Gresil Kahambing Open the ORCID record for Jan Gresil Kahambing [Opens in a new window]
Jan Gresil Kahambing*
Affiliation:
Department of Philosophy and Religious Studies, University of Macau, SAR China
*
Correspondence: Jan Gresil Kahambing, PHL Department of Philosophy and Religious Studies University of Macau, SAR China E-mail: yc07706@umac.mo
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Abstract

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Keywords

climate changecoastline vulnerabilitiesheatwavesSoutheast Asia
Type
Article Commentary
Information
Prehospital and Disaster Medicine , Volume 38 , Issue 5 , October 2023 , pp. 691 - 692
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Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

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References

Hasan, S, Tamim, AR, Patwary, MM, et al. Heatwaves and air pollution: a deadly combination for human health in South Asia. Prehosp Disaster Med. 2023;38(2):274275.CrossRefGoogle ScholarPubMed
World Meteorological Organization. Global temperatures set to reach new records in next five years. 2023. https://public.wmo.int/en/media/press-release/global-temperatures-set-reach-new-records-next-five-years. Accessed May 30, 2023.Google Scholar
Noor, NM, Abdul Maulud, KN. Coastal vulnerability: a brief review on integrated assessment in Southeast Asia. Journal of Marine Science and Engineering. 2022;10(5):595.10.3390/jmse10050595CrossRefGoogle Scholar
Roukounis, CN, Tsihrintzis, VA. Indices of coastal vulnerability to climate change: a review. Environmental Processes. 2022;9(2):29.CrossRefGoogle Scholar
World Meteorological Organization. Air and sea surface temperatures hit new records. 2023. https://public.wmo.int/en/media/news/air-and-sea-surface-temperatures-hit-new-records. Accessed June 17, 2023.Google Scholar
Llorca, SM, Abiera, A, Gazo, D, Edilo-Astronomo, S, Kahambing, JG. Bioethics as mental health? The core response on Typhoon Rai in Southern Leyte, Philippines. MALIM [Journal of Southeast Asian General Studies]. 2022;23:214224.Google Scholar
Abiera, A, Kahambing, JG. Loss, trauma, and the future for college students during Super Typhoon Rai. Journal of Loss and Trauma. 2023;28(7):647649.CrossRefGoogle Scholar
Gong, L. Climate-induced disasters as an evolving threat to Southeast Asia’s maritime security. Asia Maritime Transparency Initiative. 2022. https://amti.csis.org/climate-induced-disasters-as-an-evolving-threat-to-southeast-asias-maritime-security/. Accessed May 30, 2023.Google Scholar
Dotto, C, Shveda, K, Robinson, L. A ‘once-in-200 years’ heat wave caught Southeast Asia off guard. Climate change will make them more common. CNN World. https://edition.cnn.com/2023/06/06/asia/southeast-asia-heat-wave-humidity-climate-intl-hnk-dst-scn-dg/index.html. Accessed June 10, 2023.Google Scholar
South-East Asia is in the grip of a record-breaking heatwave. The Economist. 2023. https://www.economist.com/graphic-detail/2023/05/17/south-east-asia-is-in-the-grip-of-a-record-breaking-heatwave. Accessed May 30, 2023.Google Scholar
Igini, M. Vietnam, Laos, and Thailand Set New All-Time National Heat Records as Prolonged Asian Heatwave Concerns Scientists. Earth.Org. 2023. https://earth.org/southeast-asia-heatwave/. Accessed May 28, 2023.Google Scholar
Li, X-X, Yuan, C, Hang, J. Heat wave trends in Southeast Asia: comparison of results from observation and reanalysis data. Geophysical Research Letters. 2022;49(4):e2021GL097151.CrossRefGoogle Scholar
Androulidakis, YS, Kourafalou, V. Marine heat waves over natural and urban coastal environments of South Florida. Water. 2022;14(23):3840.10.3390/w14233840CrossRefGoogle Scholar
Dong, Z, Wang, L, Sun, Y, et al. Heatwaves in Southeast Asia and their changes in a warmer world. Earth’s Future. 2021;9(7):e2021EF001992.10.1029/2021EF001992CrossRefGoogle Scholar
Edullantes, B, Concolis, BM, Quilestino-Olario, R, Atup, DP, Cortes, A, Yñiguez, A. Characteristics of marine heatwaves in the Philippines. Regional Studies in Marine Science. 2023;62:102934.CrossRefGoogle Scholar
Rouleau, T, Stuart, J, Call, M, et al. The climate and ocean risk vulnerability index: measuring coastal city resilience to inform action. Front Sustain Cities. 2022;4:884212.10.3389/frsc.2022.884212CrossRefGoogle Scholar
Leal Filho, W, Sima, M, Sharifi, A, et al. Handling climate change education at universities: an overview. Environ Sci Eur. 2021;33(1):109.10.1186/s12302-021-00552-5CrossRefGoogle ScholarPubMed
Kahambing, JG, Lao, TW. The value of museums in averting a planetary health crisis. Ethics, Medicine, and Public Health. 2023;26:100866.10.1016/j.jemep.2022.100866CrossRefGoogle Scholar