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Understanding climate change from a global analysis of city analogues

Author

Listed:
  • Jean-Francois Bastin
  • Emily Clark
  • Thomas Elliott
  • Simon Hart
  • Johan van den Hoogen
  • Iris Hordijk
  • Haozhi Ma
  • Sabiha Majumder
  • Gabriele Manoli
  • Julia Maschler
  • Lidong Mo
  • Devin Routh
  • Kailiang Yu
  • Constantin M Zohner
  • Thomas W Crowther

Abstract

Combating climate change requires unified action across all sectors of society. However, this collective action is precluded by the ‘consensus gap’ between scientific knowledge and public opinion. Here, we test the extent to which the iconic cities around the world are likely to shift in response to climate change. By analyzing city pairs for 520 major cities of the world, we test if their climate in 2050 will resemble more closely to their own current climate conditions or to the current conditions of other cities in different bioclimatic regions. Even under an optimistic climate scenario (RCP 4.5), we found that 77% of future cities are very likely to experience a climate that is closer to that of another existing city than to its own current climate. In addition, 22% of cities will experience climate conditions that are not currently experienced by any existing major cities. As a general trend, we found that all the cities tend to shift towards the sub-tropics, with cities from the Northern hemisphere shifting to warmer conditions, on average ~1000 km south (velocity ~20 km.year-1), and cities from the tropics shifting to drier conditions. We notably predict that Madrid’s climate in 2050 will resemble Marrakech’s climate today, Stockholm will resemble Budapest, London to Barcelona, Moscow to Sofia, Seattle to San Francisco, Tokyo to Changsha. Our approach illustrates how complex climate data can be packaged to provide tangible information. The global assessment of city analogues can facilitate the understanding of climate change at a global level but also help land managers and city planners to visualize the climate futures of their respective cities, which can facilitate effective decision-making in response to on-going climate change.

Suggested Citation

  • Jean-Francois Bastin & Emily Clark & Thomas Elliott & Simon Hart & Johan van den Hoogen & Iris Hordijk & Haozhi Ma & Sabiha Majumder & Gabriele Manoli & Julia Maschler & Lidong Mo & Devin Routh & Kail, 2019. "Understanding climate change from a global analysis of city analogues," PLOS ONE, Public Library of Science, vol. 14(7), pages 1-13, July.
    • Handle: RePEc:plo:pone00:0217592
    DOI: 10.1371/journal.pone.0217592
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    References listed on IDEAS

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    1. Marek Smid & Ana Cristina Costa, 2018. "Climate projections and downscaling techniques: a discussion for impact studies in urban systems," International Journal of Urban Sciences, Taylor & Francis Journals, vol. 22(3), pages 277-307, July.
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    2. Pajek, Luka & Košir, Mitja, 2021. "Strategy for achieving long-term energy efficiency of European single-family buildings through passive climate adaptation," Applied Energy, Elsevier, vol. 297(C).
    3. Lynn Reuter & Alexander Graf & Klaus Goergen & Niels Döscher & Michael Leuchner, 2023. "Modelling climate analogue regions for a central European city," Climatic Change, Springer, vol. 176(5), pages 1-22, May.
    4. Carlos F. Mena & Fátima L. Benitez & Carolina Sampedro & Patricia Martinez & Alex Quispe & Melinda Laituri, 2022. "Modeling Urban Growth and the Impacts of Climate Change: The Case of Esmeraldas City, Ecuador," Sustainability, MDPI, vol. 14(8), pages 1-22, April.
    5. Vernon L. Scarborough, 2021. "What ancient landscapes contribute to climate change," Economic Anthropology, Wiley Blackwell, vol. 8(1), pages 161-167, January.
    6. Skandalos, Nikolaos & Wang, Meng & Kapsalis, Vasileios & D'Agostino, Delia & Parker, Danny & Bhuvad, Sushant Suresh & Udayraj, & Peng, Jinqing & Karamanis, Dimitris, 2022. "Building PV integration according to regional climate conditions: BIPV regional adaptability extending Köppen-Geiger climate classification against urban and climate-related temperature increases," Renewable and Sustainable Energy Reviews, Elsevier, vol. 169(C).

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