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Rapid responses of British butterflies to opposing forces of climate and habitat change

Author

Listed:
  • M. S. Warren

    (Butterfly Conservation)

  • J. K. Hill

    (University of York, PO Box 373
    Environmental Research Centre, University of Durham)

  • J. A. Thomas

    (Centre for Ecology and Hydrology, Dorset Laboratory, Winfrith Technology Centre)

  • J. Asher

    (Butterfly Conservation)

  • R. Fox

    (Butterfly Conservation)

  • B. Huntley

    (Environmental Research Centre, University of Durham)

  • D. B. Roy

    (Centre for Ecology and Hydrology)

  • M. G. Telfer

    (Centre for Ecology and Hydrology)

  • S. Jeffcoate

    (Butterfly Conservation)

  • P. Harding

    (Centre for Ecology and Hydrology)

  • G. Jeffcoate

    (Butterfly Conservation)

  • S. G. Willis

    (Environmental Research Centre, University of Durham)

  • J. N. Greatorex-Davies

    (Centre for Ecology and Hydrology)

  • D. Moss

    (Centre for Ecology and Hydrology)

  • C. D. Thomas

    (Centre for Biodiversity and Conservation, School of Biology, University of Leeds)

Abstract

Habitat degradation and climate change are thought to be altering the distributions and abundances of animals and plants throughout the world, but their combined impacts have not been assessed for any species assemblage1,2,3,4. Here we evaluated changes in the distribution sizes and abundances of 46 species of butterflies that approach their northern climatic range margins in Britain—where changes in climate and habitat are opposing forces. These insects might be expected to have responded positively to climate warming over the past 30 years, yet three-quarters of them declined: negative responses to habitat loss have outweighed positive responses to climate warming. Half of the species that were mobile and habitat generalists increased their distribution sites over this period (consistent with a climate explanation), whereas the other generalists and 89% of the habitat specialists declined in distribution size (consistent with habitat limitation). Changes in population abundances closely matched changes in distributions. The dual forces of habitat modification and climate change are likely to cause specialists to decline, leaving biological communities with reduced numbers of species and dominated by mobile and widespread habitat generalists.

Suggested Citation

  • M. S. Warren & J. K. Hill & J. A. Thomas & J. Asher & R. Fox & B. Huntley & D. B. Roy & M. G. Telfer & S. Jeffcoate & P. Harding & G. Jeffcoate & S. G. Willis & J. N. Greatorex-Davies & D. Moss & C. D, 2001. "Rapid responses of British butterflies to opposing forces of climate and habitat change," Nature, Nature, vol. 414(6859), pages 65-69, November.
    • Handle: RePEc:nat:nature:v:414:y:2001:i:6859:d:10.1038_35102054
    DOI: 10.1038/35102054
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    Cited by:

    1. McRae, Brad H. & Schumaker, Nathan H. & McKane, Robert B. & Busing, Richard T. & Solomon, Allen M. & Burdick, Connie A., 2008. "A multi-model framework for simulating wildlife population response to land-use and climate change," Ecological Modelling, Elsevier, vol. 219(1), pages 77-91.
    2. Felix Neff & Fränzi Korner-Nievergelt & Emmanuel Rey & Matthias Albrecht & Kurt Bollmann & Fabian Cahenzli & Yannick Chittaro & Martin M. Gossner & Carlos Martínez-Núñez & Eliane S. Meier & Christian , 2022. "Different roles of concurring climate and regional land-use changes in past 40 years’ insect trends," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Luke Shoo & Ary Hoffmann & Stephen Garnett & Robert Pressey & Yvette Williams & Martin Taylor & Lorena Falconi & Colin Yates & John Scott & Diogo Alagador & Stephen Williams, 2013. "Making decisions to conserve species under climate change," Climatic Change, Springer, vol. 119(2), pages 239-246, July.
    4. Wesley R. Brooks & Stephen C. Newbold, 2013. "Ecosystem damages in integrated assessment models of climate change," NCEE Working Paper Series 201302, National Center for Environmental Economics, U.S. Environmental Protection Agency, revised Mar 2013.
    5. Roubicek, A.J. & VanDerWal, J. & Beaumont, L.J. & Pitman, A.J. & Wilson, P. & Hughes, L., 2010. "Does the choice of climate baseline matter in ecological niche modelling?," Ecological Modelling, Elsevier, vol. 221(19), pages 2280-2286.
    6. Tereza Cristina Giannini & Wilian França Costa & Guaraci Duran Cordeiro & Vera Lucia Imperatriz-Fonseca & Antonio Mauro Saraiva & Jacobus Biesmeijer & Lucas Alejandro Garibaldi, 2017. "Projected climate change threatens pollinators and crop production in Brazil," PLOS ONE, Public Library of Science, vol. 12(8), pages 1-13, August.
    7. Bhowmick, Amiya Ranjan & Saha, Bapi & Chattopadhyay, Joydev & Ray, Santanu & Bhattacharya, Sabyasachi, 2015. "Cooperation in species: Interplay of population regulation and extinction through global population dynamics database," Ecological Modelling, Elsevier, vol. 312(C), pages 150-165.
    8. Minke B. W. Langenhof & Jan Komdeur, 2013. "Coping with Change: A Closer Look at the Underlying Attributes of Change and the Individual Response to Unstable Environments," Sustainability, MDPI, vol. 5(5), pages 1-25, April.
    9. Sangdon Lee & Hyeyoung Jeon & Minkyung Kim, 2020. "Spatial Distribution of Butterflies in Accordance with Climate Change in the Korean Peninsula," Sustainability, MDPI, vol. 12(5), pages 1-18, March.
    10. Cormont, Anouk & Jochem, René & Malinowska, Agnieszka & Verboom, Jana & WallisDeVries, Michiel F. & Opdam, Paul, 2012. "Can phenological shifts compensate for adverse effects of climate change on butterfly metapopulation viability?," Ecological Modelling, Elsevier, vol. 227(C), pages 72-81.
    11. Dubravka Milić & Snežana Radenković & Dimitrije Radišić & Andrijana Andrić & Tijana Nikolić & Ante Vujić, 2019. "Stability and changes in the distribution of Pipiza hoverflies (Diptera, Syrphidae) in Europe under projected future climate conditions," PLOS ONE, Public Library of Science, vol. 14(9), pages 1-19, September.
    12. Pavoine, Sandrine & Bonsall, Michael B., 2009. "Biological diversity: Distinct distributions can lead to the maximization of Rao’s quadratic entropy," Theoretical Population Biology, Elsevier, vol. 75(2), pages 153-163.
    13. Sabrina Kumschick & Stefan Fronzek & Martin Entling & Wolfgang Nentwig, 2011. "Rapid spread of the wasp spider Argiope bruennichi across Europe: a consequence of climate change?," Climatic Change, Springer, vol. 109(3), pages 319-329, December.

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