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Heatwaves and Coastal Vulnerability in Southeast Asia

Published online by Cambridge University Press:  29 August 2023

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: [email protected]
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Abstract

Type
Article Commentary
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

In a recent article in this journal, the authors made recommendations for understanding and mitigating the fatal combined effects of heatwaves and air pollution in South Asia, among which the region’s land is vulnerable in 2050 and is predicted to have double hazards. Reference Hasan, Tamim and Patwary1 From a global perspective, the World Meteorological Organization (Geneva, Switzerland) reports that the years 2023-2027 will 98% have 1.1°C (33.98°F) and 1.8°C (35.24°F) higher temperature, with 2024 as the immediate year affected by El Niño. 2 What this means for Southeast Asian countries surrounded by waters or long maritime borders is different, which has graver synergistic effects on health more from heatwaves and coastal vulnerability.

The Southeast Asian region’s coastlines are particularly vulnerable to ocean warming brought on by climate change. The main drivers of this growing pressure are coastal industry, expanding urbanization, and population growth. Reference Noor and Abdul Maulud3 Given that human activity has been the primary cause of environmental degradation, socioeconomic growth and climate change are intricately linked. Reference Roukounis and Tsihrintzis4 May-June 2023 hit consecutive new high records of unprecedented rising global sea surface temperatures with an average of 0.2°C, which must not be under-estimated as this is already a huge amount of heat energy capable of impacts such as coral reef bleaching and cyclone intensification. 5 Last 2021, Super Typhoon Rai incurred US$794 million worth of damage to coastal areas in the Philippines, Reference Llorca, Abiera, Gazo, Edilo-Astronomo and Kahambing6 devastating lives with loss and trauma. Reference Abiera and Kahambing7 Moreover, in a catastrophic climate scenario, the increasing sea levels in Vietnam will have an impact on 90% of the population. In addition, when sea levels rise, there is a chance that maritime borders could change, which would affect people’s access to marine resources and their right to navigate. Reference Gong8 Combined with heatwaves, workers at Tuong Duong in Vietnam experiencing 44.2°C (111.6°F) risk heatstrokes Reference Dotto, Shveda and Robinson9 for a living. Nearby Southeast Asian countries had a similar experience: Luang Prabang in Laos also hit a historic high of 43.5°C (110.3°F), Ponhea Kraek in Cambodia had 41.6°C (106.9°F), and Ang Mo Kio in Singapore had 37°C (98.6°F), 10 but Thailand had 45.4°C (114°F). Reference Igini11

Heatwaves pose serious impacts on public health like morbidity and mortality. Reference Li, Yuan and Hang12 Marine heatwaves (MHWs) increase the extinction of some heat-sensitive species, harming the environment’s biodiversity and the natural coastal defenses against tropical cyclones. Reference Androulidakis and Kourafalou13 It can be noted, however, that because the Indochina Peninsula and the Maritime Continent have differing patterns of land-sea distribution, the changes are not uniform in space. But it is generally agreed that in a warmer world, heatwaves would occur more frequently, last longer, and reach higher extreme temperatures throughout the entirety of Southeast Asia. These modifications imply that in a warmer future, a rare heatwave, such as the one that happens once every 50 years in the current climate, will become wide-spread and occur more regularly. Reference Dong, Wang and Sun14 The expected significant increase in heatwave days per year is first observed over Indonesia, Malaysia, and parts of the Philippines. Reference Dong, Wang and Sun14

As MHWs potentially have negative effects not just on marine ecosystems but on coastal populations’ health and ability to support their own lives, the development of adaptive management solutions might be influenced by the identification of hotspots and the contribution of El Niño Southern Oscillation (ENSO) to the emergence of MHWs. Reference Edullantes, Concolis, Quilestino-Olario, Atup, Cortes and Yñiguez15 Aside from the recommendations of the target article, on coastal vulnerability, there should be increased considerations of integrated systems thinking in resilience planning by assessing through the Climate and Ocean Risk Vulnerability Index (CORVI) and utilizing the structured expert judgment (SEJ) for gathering information and calculating risk in data-poor contexts. Reference Rouleau, Stuart and Call16 Ultimately, the United Nations Educational, Scientific, and Cultural Organization (UNESCO; Paris, France) and United Nations Framework Convention on Climate Change (UNFCCC) highlight the role of education to promote climate action, parts of which are to be emphasized further in the COP28 2023 United Nations Climate Change Conference in Dubai, United Arab Emirates (UAE), but here to be taken as educational opportunities handled by universities Reference Leal Filho, Sima and Sharifi17 and also museums. Reference Kahambing and Lao18

Conflicts of interest

None declared.

Acknowledgments

The author thanks the course facilitators of Disaster Preparedness (University of Pittsburgh), The Challenges of Global Health (Duke University), and Health & Climate Change (World Health Organization & United Nations).

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