Abstract
Twin climate cities are pairs of cities for which it is appropriate to assume that the future climate of a city “A” will be significantly similar to the current climate of another city “B”. In this paper, we explore the potential use of the climate twins approach for the development of adaptation strategies to climate change in urban areas. We propose an innovative and robust climate-matching method that is suitable to link cities’ current and future climates. Of the 100 cities investigated, 70 have at least one twin climate region, and 39 have a twin climate city. The case-study revealed a highly significant similarity for temperature variables and heat-related indices, but a less significant similarity for precipitation variables. The Climate Twins approach appears to be a potentially effective mechanism for raising awareness about the pace of climate change and for easily identifying (1) future impacts and vulnerabilities associated with climate change as well as (2) policies, infrastructure, and best practices that should be implemented in a city in order to cope efficiently with future extreme temperature events.
Similar content being viewed by others
References
Akerlof K, DeBono R, Berry P, Leiserowitz A, Roser-Renouf C, Clarke KL, Rogaeva A, Nisbet MC, Weathers MR, Maibach EW (2010) Public perceptions of climate change as a human health risk: surveys of the United States, Canada and Malta. Int J Environ Res Public Health 7(6):2559–2606
Aylett A (2015) Institutionalizing the urban governance of climate change adaptation: results of an international survey. Urban Clim 14:4–16
Beniston M (2012) Changements climatiques et impacts: De l’échelle globale à l’échelle locale. 2° édition revue et mise à jour. Presses Polytechniques et Universitaires Romandes, Lausanne
Beniston M (2014) European isotherms move northwards by up to 15 km year−1: using climate analogues for awareness-raising. Int J Climatol 34(6):1838–1844
Carter JG (2011) Climate change adaptation in European cities. Curr Opin Environ Sustain 3:193–198
CGIAR – CCAFS (2014) Analogues: blogs and stories. In: Consultative Group on International Agricultural Research, Research Program on Climate Change, Agriculture and Food Security. http://ccafs.cgiar.org/blogs/analogues. Cited 11 Aug 2015
Charron I (2014) A guidebook on climate scenarios: using climate information to guide adaptation research and decisions. Ouranos. http://www.ouranos.ca/media/publication/352_GuideCharron_ENG.pdf. Cited 11 Aug 2015
Christensen JH, Christensen OB, Lopez P, Van Meijgaard E and Botzet M (1996) The HIRHAM4 Regional Atmospheric Climate Model. Scientific Report n° 96–4, Danish Meteorological Institute. http://www.dmi.dk/fileadmin/Rapporter/SR/sr96-4.pdf. Cited 11 Aug 2015
Climate Communication (2014) Climate communication: science and outreach. http://www.climatecommunication.org/. Cited 11 Aug 2015
CSIRO (2015) Climate Analogues Explorer. In: Climate change in Australia. http://www.climatechangeinaustralia.gov.au/en/climate-projections/climate-analogues/analogues-explorer/. Cited 11 Aug 2015
Dilling L, Berggren J (2015) What do stakeholders need to manage for climate change and variability? A document-based analysis from three mountain states in the Western USA. Reg Environ Chang 15(4):657–667
EEA (2012) Climate change, impacts and vulnerability in Europe 2012, an indicator-based report. In: European Environment Agency Publications. http://www.eea.europa.eu/publications/climate-impacts-and-vulnerability-2012. Cited 11 Aug 2015
Elliott S, Decker E, Smith FA, Blake DR, Simpson IJ, Rowland FS (2000) Cities in the earth system. Environ Sci Pol 3(4):157–160
Fünfgeld H (2015) Facilitating local climate change adaptation through transnational municipal networks. Curr Opin Environ Sustain 12:67–73
Grenier P, Parent AC, Huard D, Anctil F, Chaumont D (2013) An assessment of six dissimilarity metrics for climate analogs. J Clim Appl Meteorol 52:733–752
Hallegatte S, Hourcade JC, Ambrosi P (2007) Using climate analogues for assessing climate change economics impacts in urban areas. Climate Change 82:47–60
Harlan S, Ruddell D (2011) Climate change and health in cities: impacts of heat and air pollution and potential co benefits from mitigation and adaptation. Curr Opin Environ Sustain 3:126–134
Heidrich O, Reckien D, Olazabal M, Foley A, Salvia M, de Gregorio Hurtado S, Orru H, Flacke J, Geneletti D, Pietrapertosa F, Hamann JJP, Tiwary A, Feliu E, Dawson RJ (2016) National climate policies across Europe and their impacts on cities strategies. J Environ Manag 168:36–45
Holdridge LR (1947) Determination of world plant formations from simple climatic data. Science 105:367–368
Hoornweg D, Sugar L, Freire M, Anderson C, Bhada P, Trejos CL, Dave R, Lee M (2011) Cities and climate change: responding to an urgent agenda, v2. The World Bank Publisher, Washington
IPCC (2001) Appendix I: glossary. In: Climate Change 2001: the physical science basis, contribution of working group I to the 3rd assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge and New-York
IPCC (2014) Summary for policymakers. In: Climate Change 2014: impacts, adaptation and vulnerability, contribution of working group II to the 5th assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge and New-York
Ipsos (2014) Global trends 2014 on Environment. Ipsos MORI Surveys. http://www.ipsosglobaltrends.com/environment.html. Cited 11 Aug 2015
Ishizaki N, Shiogama H, Takahashi K, Emori S, Dairaku K, Kusaka H (2012) An attempt to estimate probabilistic regional climate analogue in a warmer Japan. J Meteorol Soc Jpn 90B:65–74
Jylhä K, Tuomenvirta H, Ruosteenoja K, Niemi-Hugaerts H, Keisu K, Karhu JA (2010) Observed and projected future shifts of climatic zones in Europe and their use to visualize climate change information. Weath Clim and Soc 2:148–167
Kaufmann A, Peters-Anders J, Yurtsever S, Petronzio L (2013) Automated semantic validation of crowd sourced local information—the case of the web application ‘climate twins’. In: Hrebicek J, Schimak G, Kubasek M, Rizzolio AE (eds) Environmental software systems. Fostering information sharing – 10th IFIP WG 5.11 international symposium, Austria, October 2013, vol 413, IFIP advances in information and communication technology. Springer, Berlin, 23
Kellett J, Ness D, Hamilton C, Pullen S and Leditschke A (2011) Learning from regional climate analogues. NCCARF National Climate Change Adaptation Research Facility. https://www.nccarf.edu.au/publications/learning-regional-analogues-final-report. Cited 11 Aug 2015
Kellett J, Hamilton C, Ness D, Pullen S (2015) Testing the limits of regional climate analogue studies: an Australian example. Land Use Policy 44:54–61
Kern K, Bulkeley H (2009) Cities, Europeanization and multi-level governance: governing climate change through transnational municipal networks. J Common Mark Stud 47(2):309–332
Kopf S, Ha-Duong M, Hallegatte S (2008) Using maps of city analogues to display climate change scenarios and their uncertainty. Nat Hazards Earth Syst Sci 8(4):905–918
Koven C and Godwin M (2013) Climate Analog Tracker: where will the world’s climates go with global warming? Earth Sciences Division, Berkeley University, California. http://esd.lbl.gov/about/staff/charleskoven/climate_vectors.html. Cited 11 Aug 2015
Landsberg HE (1981) The urban climate. Academic Press Inc, New-York
Leibing C, Signer J, Van Zonneveld M, Jarvis A, Dvorak W (2013) Selection of provenances to adapt tropical pine forestry to climate change on the basis of climate analogs. Forests 4:155–178
Loibl W, Peters-Anders J, Ungar J and Züger J (2010) Climate Twins Viewer v3.0 beta. Austrian Institute of Technology. http://sf5.arcs.ac.at/jsp-examples/ct_3/flamingo-mc_3/index_new.html#. Cited 11 Aug 2015
Lu X (2008) Applying climate information for adaptation decision-making: a guidance and resource document. UNDP/UNEP/GEP National Communications Support Programme. https://unfccc.int/files/adaptation/sbsta_agenda_item_adaptation/application/pdf/ncsp_guidance_adaptationdecisionmaking.pdf. Cited 11 Aug 2015
Marshall NA, Park S, Howden SM, Dowd AB, Jakku ES (2013) Climate change awareness is associated with enhanced adaptive capacity. Agric Syst 117:30–34
O’Neill S, Nicholson-Cole S (2009) Fear won’t do it: promoting positive engagement with climate change through visual and iconic representations. Sci Commun 30(3):355–379
Peacock L, Worner S (2006) Using analogous climates and global insect distribution data to identify potential sources of new invasive insect pests in New Zealand. New Zeal J Zool 33(2):141–145
Peterson TC, Folland C, Gruza G, Hogg W, Mokssit A and Plummer N (2001) Report on the activities of the working group on climate change detection and related rapporteurs 1998–2001, World Meteorological Organisation Rep. WCDMP-47, WMO-TD 1071
PRUDENCE (2004) predictions of regional scenarios and uncertainties for defining European climate change risks and effects. http://prudence.dmi.dk/. Cited 11 Aug 2015
Ramirez-Villegas J, Lau C, Köhler AK, Signer J, Jarvis A, Arnell N, Osborn T and Hooker J (2011) Climate analogues: finding tomorrow’s agriculture today. Working Paper n°12 CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS). https://ccafs.cgiar.org/sites/default/files/assets/docs/ccafs-wp-12-climate-analogues-web.pdf. Cited 11 Aug 2015
Ramirez-Villegas J, Lau C, Köhler AK, Signer J, Jarvis A, Arnell N, Osborn T and Hooker J (2012) Analogues: a glimpse of tomorrow’s climate, today. In: CGIAR Research Program on Climate Change, Agriculture and Food Security. http://code.google.com/p/ccafs-analogues/. Cited 11 Aug 2015
Reckien D, Flacke J, Dawson RJ, Heidrich O, Olazabal M, Foley A, Hamann JJP, Orru H, Salvia M, De Gregorio HS, Geneletti D, Pietrapertosa F (2014) Climate change response in Europe: what’s the reality? Analysis of adaptation and mitigation plans from 200 urban areas in 11 countries. Climate Change 122(1–2):331–340. doi:10.1007/s10584-013-0989-8
Reckien D, Flacke J, Olazabal M, Heidrich O (2015) The influence of drivers and barriers on urban adaptation and mitigation plans—an empirical analysis of European cities. PLoS ONE 10(8), e0135597. doi:10.1371/journal.pone.0135597
Rosenzweig C, Solecki W, Hammer SA, Mehrotra S (2010) Cities lead the way in climate-change action. Nature 467:909–911
Saxon E, Baker B, Hargrove W, Hoffman F, Zganjar C (2005) Mapping environments at risk under different global climate change scenarios. Ecol Lett 8:53–60
Semenza JC, Ploubidis GB, George LA (2011) Climate change and climate variability: personal motivation for adaptation and mitigation. Environ Heal 10(46):1–12. doi:10.1186/1476-069X-10-46
Sheppard SRJ (2012) Visualizing climate change: a guide to visual communication of climate change and developing local solutions. Routledge, New-York
UNEP (2006) Raising awareness of climate change: a handbook for government focal points. United Nations Environment Programme’s Division of Environmental Law and Conventions, Nairobi, Kenya
Ungar J, Peters-Anders J and Loibl W (2011) Climate Twins—an attempt to quantify climatological similarities. In: Hrebicek J, Schimak G and Denzer R (eds) Environmental Software Systems, Frameworks of Environment, IFIP Advances in Information and Communication Technology vol 359, p428
United Nations-Habitat (2011) Global report on human settlements: cities and climate change. United Nations Human Settlements Program. Earthscan Publisher, London and New-York
Van der Linden SL, Leiserowitz AA, Feinberg GD, Maibach EW (2014) How to communicate the scientific consensus on climate change: plain facts, pie charts or metaphors? Climate Change 126:255–262
Veloz S, Williams JW, Lorenz D, Notaro M, Vavrus S, Vimont DJ (2012a) Identifying climatic analogs for Wisconsin under 21st century climate change scenarios. Climate Change 112:1037–1058
Veloz S, Williams JW, Blois JL, He F, Otto-Bliesner B, Liu Z (2012b) No-analog climates and shifting realized niches during the late quaternary: implications for 21st-century predictions by species distribution models. Glob Chang Biol 18:1698–1713
Webb LB, Watterson I, Bhend J, Whetton PH, Barlow EW (2013) Global climate analogues for winegrowing regions in future periods: projections of temperature and precipitation. Aust J Grape Wine Res 19:331–341
Williams JW, Jackson ST (2007) Novel climates, no-analog communities and ecological surprises. Front Ecol Environ 5:475–482
Acknowledgments
The authors wish to thank the anonymous reviewers for their comments that helped improving the quality of this paper and Martin Lacayo for valuable language editing and proofreading.
Author information
Authors and Affiliations
Corresponding author
Electronic supplementary material
Below is the link to the electronic supplementary material.
Supplementary material 1
(DOCX 11 kb)
Supplementary material 2
(DOCX 18 kb)
Supplementary material 3
(DOCX 10 kb)
Supplementary material 4
(DOCX 1682 kb)
Rights and permissions
About this article
Cite this article
Rohat, G., Goyette, S. & Flacke, J. Twin climate cities—an exploratory study of their potential use for awareness-raising and urban adaptation. Mitig Adapt Strateg Glob Change 22, 929–945 (2017). https://doi.org/10.1007/s11027-016-9708-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11027-016-9708-x