SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Rosa Menéndez, Adela González-Megías, Pierre Jay-Robert, Rocío Marquéz-Ferrando, Climate change and elevational range shifts: evidence from dung beetles in two European mountain ranges, Global Ecology and Biogeography, 2014, 23, 6
  2. 2
    David Gutiérrez, Robert J. Wilson, Climate conditions and resource availability drive return elevational migrations in a single-brooded insect, Oecologia, 2014, 175, 3, 861

    CrossRef

  3. 3
    José Miguel Barea-Azcón, Blas M. Benito, Francisco J. Olivares, Helena Ruiz, Javier Martín, Antonio L. García, Rogelio López, Distribution and conservation of the relict interaction between the butterfly Agriades zullichi and its larval foodplant (Androsace vitaliana nevadensis), Biodiversity and Conservation, 2014, 23, 4, 927

    CrossRef

  4. 4
    Jan Hanspach, Oliver Schweiger, Ingolf Kühn, Matthias Plattner, Peter B. Pearman, Niklaus E. Zimmermann, Josef Settele, Host plant availability potentially limits butterfly distributions under cold environmental conditions, Ecography, 2014, 37, 3
  5. 5
    Leandro Melendez, Paola Laiolo, The role of climate in constraining the elevational range of the Water Pipit Anthus spinoletta in an alpine environment, Ibis, 2014, 156, 2
  6. 6
    Melinda L. Moir, Lesley Hughes, Peter A. Vesk, Mei Chen Leng, Which host-dependent insects are most prone to coextinction under changed climates?, Ecology and Evolution, 2014, 4, 8
  7. 7
    Lee Dyer, Deborah Letourneau, Can Climate Change Trigger Massive Diversity Cascades in Terrestrial Ecosystems?, Diversity, 2013, 5, 3, 479

    CrossRef

  8. 8
    Pedro Aragón, David Sánchez-Fernández, Can we disentangle predator–prey interactions from species distributions at a macro-scale? A case study with a raptor species, Oikos, 2013, 122, 1
  9. You have free access to this content9
    Janneke HilleRisLambers, Melanie A. Harsch, Ailene K. Ettinger, Kevin R. Ford, Elinore J. Theobald, How will biotic interactions influence climate change–induced range shifts?, Annals of the New York Academy of Sciences, 2013, 1297, 1
  10. 10
    Sydne Record, Matthew C. Fitzpatrick, Andrew O. Finley, Sam Veloz, Aaron M. Ellison, Should species distribution models account for spatial autocorrelation? A test of model projections across eight millennia of climate change, Global Ecology and Biogeography, 2013, 22, 6
  11. 11
    Loïc Pellissier, Jean-Nicolas Pradervand, Julien Pottier, Anne Dubuis, Luigi Maiorano, Antoine Guisan, Climate-based empirical models show biased predictions of butterfly communities along environmental gradients, Ecography, 2012, 35, 8
  12. 12
    JAVIER GUTIÉRREZ ILLÁN, DAVID GUTIÉRREZ, SONIA B. DÍEZ, ROBERT J. WILSON, Elevational trends in butterfly phenology: implications for species responses to climate change, Ecological Entomology, 2012, 37, 2
  13. 13
    Oliver Schweiger, Risto K. Heikkinen, Alexander Harpke, Thomas Hickler, Stefan Klotz, Otakar Kudrna, Ingolf Kühn, Juha Pöyry, Josef Settele, Increasing range mismatching of interacting species under global change is related to their ecological characteristics, Global Ecology and Biogeography, 2012, 21, 1
  14. 14
    Jacques Régnière, Rémi St-Amant, Pierre Duval, Predicting insect distributions under climate change from physiological responses: spruce budworm as an example, Biological Invasions, 2012, 14, 8, 1571

    CrossRef

  15. 15
    Jessica J. Hellmann, Kirsten M. Prior, Shannon L. Pelini, The influence of species interactions on geographic range change under climate change, Annals of the New York Academy of Sciences, 2012, 1249, 1
  16. 16
    Erika L. Rowland, Jennifer E. Davison, Lisa J. Graumlich, Approaches to Evaluating Climate Change Impacts on Species: A Guide to Initiating the Adaptation Planning Process, Environmental Management, 2011, 47, 3, 322

    CrossRef

  17. 17
    JAMES S. CLARK, DAVID M. BELL, MICHELLE H. HERSH, LAUREN NICHOLS, Climate change vulnerability of forest biodiversity: climate and competition tracking of demographic rates, Global Change Biology, 2011, 17, 5
  18. 18
    Arndt Hampe, Alistair S. Jump, Climate Relicts: Past, Present, Future, Annual Review of Ecology, Evolution, and Systematics, 2011, 42, 1, 313

    CrossRef

  19. 19
    Constanti Stefanescu, Jofre Carnicer, Josep Peñuelas, Determinants of species richness in generalist and specialist Mediterranean butterflies: the negative synergistic forces of climate and habitat change, Ecography, 2011, 34, 3
  20. 20
    Andrew J. Suggitt, Phillipa K. Gillingham, Jane K. Hill, Brian Huntley, William E. Kunin, David B. Roy, Chris D. Thomas, Habitat microclimates drive fine-scale variation in extreme temperatures, Oikos, 2011, 120, 1
  21. 21
    Constantí Stefanescu, Ignasi Torre, Jordi Jubany, Ferran Páramo, Recent trends in butterfly populations from north-east Spain and Andorra in the light of habitat and climate change, Journal of Insect Conservation, 2011, 15, 1-2, 83

    CrossRef

  22. 22
    Robert Wilson, David Gutiérrez, Ecological Consequences of Climate Change, 2011,

    CrossRef

  23. You have free access to this content23
    Ary A Hoffmann, A genetic perspective on insect climate specialists, Australian Journal of Entomology, 2010, 49, 2
  24. 24
    Peter B. Hardy, Phillip M. Kinder, Tim H. Sparks, Roger L. H. Dennis, Elevation and habitats: the potential of sites at different altitudes to provide refuges for phytophagous insects during climatic fluctuations, Journal of Insect Conservation, 2010, 14, 3, 297

    CrossRef

  25. 25
    Javier Gutiérrez Illán, David Gutiérrez, Robert J. Wilson, Fine-scale determinants of butterfly species richness and composition in a mountain region, Journal of Biogeography, 2010, 37, 9
  26. 26
    Warsito Tantowijoyo, Ary A. Hoffmann, Identifying factors determining the altitudinal distribution of the invasive pest leafminers Liriomyza huidobrensis and Liriomyza sativae, Entomologia Experimentalis et Applicata, 2010, 135, 2
  27. 27
    Javier Gutiérrez Illán, David Gutiérrez, Robert J. Wilson, The contributions of topoclimate and land cover to species distributions and abundance: fine-resolution tests for a mountain butterfly fauna, Global Ecology and Biogeography, 2010, 19, 2
  28. 28
    ERICA FLEISHMAN, DENNIS D. MURPHY, A Realistic Assessment of the Indicator Potential of Butterflies and Other Charismatic Taxonomic Groups, Una Evaluación Realista del Potencial Indicador de Mariposas y Otros Grupos Taxonómicos Carismáticos, Conservation Biology, 2009, 23, 5
  29. 29
    Stephen G. Willis, Jane K. Hill, Chris D. Thomas, David B. Roy, Richard Fox, David S. Blakeley, Brian Huntley, Assisted colonization in a changing climate: a test-study using two U.K. butterflies, Conservation Letters, 2009, 2, 1
  30. 30
    Matthew J. Carroll, Barbara J. Anderson, Tom M. Brereton, Sarah J. Knight, Ottakar Kudrna, Chris D. Thomas, Climate change and translocations: The potential to re-establish two regionally-extinct butterfly species in Britain, Biological Conservation, 2009, 142, 10, 2114

    CrossRef

  31. 31
    LUIGI PONTI, Q. ANTONIO COSSU, ANDREW PAUL GUTIERREZ, Climate warming effects on the Olea europaeaBactrocera oleae system in Mediterranean islands: Sardinia as an example, Global Change Biology, 2009, 15, 12
  32. 32
    B.J Anderson, H.R Akcakaya, M.B Araujo, D.A Fordham, E Martinez-Meyer, W Thuiller, B.W Brook, Dynamics of range margins for metapopulations under climate change, Proceedings of the Royal Society B: Biological Sciences, 2009, 276, 1661, 1415

    CrossRef

  33. 33
    SARAH ASHTON, DAVID GUTIÉRREZ, ROBERT J. WILSON, Effects of temperature and elevation on habitat use by a rare mountain butterfly: implications for species responses to climate change, Ecological Entomology, 2009, 34, 4
  34. 34
    J. E Lee, C. Janion, E. Marais, B. Jansen van Vuuren, S. L Chown, Physiological tolerances account for range limits and abundance structure in an invasive slug, Proceedings of the Royal Society B: Biological Sciences, 2009, 276, 1661, 1459

    CrossRef

  35. You have free access to this content35
    S. A. Estay, M. Lima, F. A. Labra, Predicting insect pest status under climate change scenarios: combining experimental data and population dynamics modelling, Journal of Applied Entomology, 2009, 133, 7
  36. 36
    W. E Kunin, P. Vergeer, T. Kenta, M. P Davey, T. Burke, F. I. Woodward, P. Quick, M.-E. Mannarelli, N. S Watson-Haigh, R. Butlin, Variation at range margins across multiple spatial scales: environmental temperature, population genetics and metabolomic phenotype, Proceedings of the Royal Society B: Biological Sciences, 2009, 276, 1661, 1495

    CrossRef

  37. 37
    T. R. New, Conserving narrow range endemic insects in the face of climate change: options for some Australian butterflies, Journal of Insect Conservation, 2008, 12, 6, 585

    CrossRef

  38. 38
    B. CHRIS GRÖBLER, OWEN T. LEWIS, Response of native parasitoids to a range-expanding host, Ecological Entomology, 2008, 33, 4
  39. 39
    Jessica J. Hellmann, Shannon L. Pelini, Kirsten M. Prior, Jason D. K. Dzurisin, The response of two butterfly species to climatic variation at the edge of their range and the implications for poleward range shifts, Oecologia, 2008, 157, 4, 583

    CrossRef

  40. 40
    D. Nogués-Bravo, J. I. López-Moreno, S. M. Vicente-Serrano, Climate Change and its Impact,
  41. 41
    Erik E Stange, Matthew P Ayres, Climate Change Impacts: Insects, eLS,