Increasing heat‐stress inequality in a warming climate

  • Authors: Alizadeh, Mohammad Reza; Abatzoglou, John T.; Adamowski, Jan F.; Prestemon, Jeffrey P.; Chittoori, Bhaskar; Akbari Asanjan, Ata; Sadegh, Mojtaba
  • Publication Year: 2022
  • Publication Series: Scientific Journal (JRNL)
  • Source: Earth's Future
  • DOI: 10.1029/2021EF002488

Abstract

Adaptation is key to minimizing heatwaves' societal burden; however, our understanding of adaptation capacity across the socioeconomic spectrum is incomplete. We demonstrate that observed heatwave trends in the past four decades were most pronounced in the lowest-quartile income region of the world resulting in >40% higher exposure from 2010 to 2019 compared to the highest-quartile income region. Lower-income regions have reduced adaptative capacity to warming, which compounds the impacts of higher heatwave exposure. We also show that individual contiguous heatwaves engulfed up to 2.5-fold larger areas in
the recent decade (2010–2019) as compared to the 1980s. Widespread heatwaves can overwhelm the power grid and nullify the electricity dependent adaptation efforts, with significant implications even in regions with higher adaption capacity. Furthermore, we compare projected global heatwave exposure using per-capita gross domestic product as an indicator of adaptation capacity. Hypothesized rapid adaptation in high-income regions yields limited changes in heatwave exposure through the 21st century. By contrast, lagged adaptation in the lower-income region translates to escalating heatwave exposure and increased heat-stress inequality The lowest-quartile income region is expected to experience 1.8- to 5-fold higher heatwave exposure than each
higher income region from 2060 to 2069. This inequality escalates by the end of the century, with the lowestquartile income region experiencing almost as much heatwave exposure as the three higher income regions combined from 2090 to 2099. Our results highlight the need for global investments in adaptation capabilities of low-income countries to avoid major climate-driven human disasters in the 21st century.

  • Citation: Alizadeh, Mohammad Reza; Abatzoglou, John T.; Adamowski, Jan F.; Prestemon, Jeffrey P.; Chittoori, Bhaskar; Akbari Asanjan, Ata; Sadegh, Mojtaba. 2022. Increasing heat‐stress inequality in a warming climate. Earth's Future. 10(2): 28S-. https://doi.org/10.1029/2021EF002488.
  • Keywords: Key Points: Heatwave exposure in the recent decade was 40% higher in the lowest-quartile income region of the world than the highest-quartile, Rapid adaptation capacity in higher income regions can buffer climate change-driven increases in heatwave exposure, Lagged adaptation in the lower income regions translates to escalating impacts and increasing heat-stress inequality,
  • Posted Date: February 23, 2022
  • Modified Date: February 28, 2022
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