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Resource grain scales mobility and adult morphology in butterflies

Bibliographic reference Turlure, Camille ; Schtickzelle, Nicolas ; Baguette, Michel. Resource grain scales mobility and adult morphology in butterflies. In: Landscape Ecology, Vol. 25, no. 1, p. 95-108 (2010)
Permanent URL http://hdl.handle.net/2078.1/34264
  1. Anderson DR (2008) Model based inference in the life sciences: a primer on evidence. Springer, New York
  2. Baguette M (2003) Long distance dispersal and landscape occupancy in a metapopulation of the cranberry fritillary butterfly. Ecography 26:153–160
  3. Baguette M, Mennechez G (2004) Resource and habitat patches, landscape ecology and metapopulation biology: a consensual viewpoint. Oikos 106:399–403
  4. Baguette M, Nève G (1994) Adult movements between populations in the specialist butterfly Proclossiana eunomia (Lepidoptera, Nymphalidae). Ecol Entomol 19:1–5
  5. Baguette Michel, Schtickzelle Nicolas, Local population dynamics are important to the conservation of metapopulations in highly fragmented landscapes : Local population dynamics and conservation, 10.1046/j.1365-2664.2003.00791.x
  6. Baguette M, Van Dyck H (2007) Landscape connectivity and animal behavior: functional grain as a key determinant for dispersal. Landscape Ecol 22:1117–1129
  7. Bell WJ (1991) Searching behaviour. The behavioural ecology of finding resources. Chapman and Hall, London
  8. Benard MF, McCauley SJ (2008) Integrating across life-history stages: consequences of natal habitat effects on dispersal. Am Nat 171:553–567
  9. Berwaerts K, Aerts P, Van Dyck H (2006) On the sex-specific mechanisms of butterfly flight: flight performance relative to flight morphology, wing kinematics, and sex in Pararge aegeria. Biol J Linn Soc 89:675–687
  10. Betts CR, Wootton RJ (1988) Wing shape and flight behaviour in butterflies (Lepidoptera Papilionidae and Hesperioidiae): a preliminary analysis. J Exp Biol 138:271–288
  11. Blondel J, Thomas DW, Charmantier A et al (2006) A thirty-year study of phenotypic and genetic variation of Blue Tits in mediterranean habitat mosaics. Bioscience 56:661–673
  12. Bowne DR, Bowers MA (2004) Interpatch movements in spatially structured populations: a literature review. Landscape Ecol 19:1–20
  13. Brommer JE, Fred MS (2001) Movement of the Apollo butterfly Parnassius apollo related to host plant and nectar plant patches. Ecol Entomol 24:125–131
  14. Burnham KP, Anderson DR (2002) Model selection and multimodel inference: a practical information-theoretic approach. Springer, New York
  15. Cook LM, Dennis RLH, Hardy PB (2001) Butterfly-hostplant fidelity, vagrancy and measuring mobility from distribution maps. Ecography 24:497–504
  16. DEMPSTER J.P., Fragmentation, Isolation and Mobility of Insect Populations, The Conservation of Insects and their Habitats (1991) ISBN:9780121813703 p.143-153, 10.1016/b978-0-12-181370-3.50013-0
  17. Dempster JP, King ML, Lakhani KH (1976) The status of the swallowtail butterfly in Britain. Ecol Entomol 1:71–84
  18. Dennis RLH, Shreeve TG, Van Dyck H (2003) Towards a functional resource-based concept for habitat: a butterfly biology viewpoint. Oikos 102:417–426
  19. Dennis RLH, Shreeve TG, Arnold HR et al (2005) Does diet breadth control herbivorous insect distribution size? Life history and resource outlets for specialist butterflies. J Insect Conserv 9:187–200
  20. Dingle H (1996) Migration. The biology of life on the move. Oxford University Press, New York
  21. Dudley R (1991) Biomechanics of flight in Neotropical butterflies: aerodynamics and mechanical power requirements. J Exp Biol 150:335–357
  22. Edwards JW, Heckel DG, Guynn DC (1998) Niche overlap in sympatric populations of fox and gray squirrels. J Wildl Manage 62:354–363
  23. Guisan A, Thuiller W (2005) Predicting species distribution: offering more than simple habitat models. Ecol Lett 8:993–1009
  24. Hanski I, Saastamoinen M, Ovaskainen O (2006) Dispersal-related life-history trade-offs in a butterfly metapopulation. J Anim Ecol 75:91–100
  25. Heino M, Hanski I (2001) Evolution of migration rate in a spatially realistic metapopulation model. Am Nat 157:495–511
  26. Hill JK, Thomas CD, Lewis OT (1999) Flight morphology in fragmented populations of a rare British butterfly, Hesperia comma. Biol Conserv 87:277–283
  27. Hirzel AH, Le Lay G (2008) Habitat suitability modelling and niche theory. J Appl Ecol 45:1372–1381
  28. Hovestadt Thomas, Nowicki Piotr, Investigating Movement within Irregularly Shaped Patches: Analysis of Mark-Release-Recapture Data Using Randomization Procedures, 10.1560/ijee.54.1.137
  29. Johnson CG (1969) Migration and dispersal by flight. Methuen, London
  30. Jones RE (1977) Movements patterns and egg distribution in cabbage butterflies. J Anim Ecol 46:195–212
  31. Lenoir J, Gégout JC, de Ruffay PA et al (2008) A significant upward shift in plant species optimum elevation during the 20th century. Science 320:1768–1771
  32. Linton LR, Davies RW, Wrona FJ (1981) Resource utilization indices: an assessment. J Anim Ecol 50:283–292
  33. Murphy DD, Menninger MS, Ehrlich PR (1984) Nectar source distribution as a determinant of oviposition host species in Euphydryas chalcedona. Oecologia 62:269–271
  34. Nathan R, Getz WM, Revilla E et al (2008) A movement ecology paradigm for unifying organismal movement research. Proc Natl Acad Sci 105:19052–19059
  35. Norberg U, Leimar O (2002) Spatial and temporal variation in flight morphology in the butterfly Melitaea cinxia (Lepidoptera: Nymphalidae). Biol J Linn Soc 77:445–453
  36. Peixoto PEC, Benson WW (2008) Body mass and not wing length predicts territorial success in a tropical Satyrine butterfly. Ethology 114:1069–1077
  37. Pfeifer MA, Henle K, Settele J (2007) Populations with explicit borders in space and time: concept, terminology, and estimation of characteristic parameters. Acta Biotheor 55:305–316
  38. Pollard E, Yates TJ (1993) Monitoring butterflies for ecology and conservation. Chapman & Hall, London
  39. Revilla E, Wiegand T, Palomares F et al (2004) Effects of the matrix heterogeneity on animal dispersal: from individual behavior to metapopulation-level parameters. Am Nat 164:E130–E153
  40. Roff DA, Fairbairn D (2001) The genetic basis of dispersal and migration, and its consequences for evolution of correlated traits. In: Clobert J, Danchin E, Dhondt AA, Nichols JD (eds) Dispersal. Oxford University Press, Oxford, pp 191–202
  41. Romero S, Campbell JF, Nechols JR et al (2009) Movement behavior in response to landscape structure: the role of functional grain. Landscape Ecol 24:39–51
  42. Ronce O (2007) How does it feel to be like a rolling stone? Ten questions about dispersal evolution. Annu Rev Ecol Evol Syst 38:231–253
  43. Ruckelshaus M, Hartway C, Kareiva P (1999) Dispersal and landscape errors in spatially explicit population models: a reply. Conserv Biol 13:1223–1224
  44. Schtickzelle N, WallisDeVries MF, Baguette M (2005) Using surrogate data in population viability analysis: the case of the critically endangered cranberry fritillary butterfly. Oikos 109:89–100
  45. Schtickzelle N, Mennechez G, Baguette M (2006) Dispersal depression with habitat fragmentation in the bog fritillary butterfly. Ecology 87:1057–1065
  46. Schultz CB, Dlugosch KM (1999) Nectar and hostplant scarcity limit populations of an endangered Oregon butterfly. Oecologia 119:231–238
  47. Singer MC, Thomas CD (1996) Evolutionary responses of a butterfly metapopulation to human- and climate-caused environmental variation. Am Nat 148:S9–S39
  48. Singer MC, Thomas CD, Parmesan C (1993) Rapid human-induced evolution of insect–host associations. Nature 366:681–693
  49. Southwood TRE (1977) Habitat, the templet for ecological strategies? J Anim Ecol 46:365–377
  50. Stanton ML (1982) Searching in a patchy environment: foodplant selection by Colias P. eriphyle butterflies. Ecology 63:839–853
  51. Thomas CD, Hill JK, Lewis OT (1998) Evolutionary consequences of habitat fragmentation in a localized butterfly. J Anim Ecol 67:485–497
  52. Thomas CD, Cameron A, Green RE et al (2004) Extinction risk from climate change. Nature 427:145–148
  53. Thuiller W, Albert C, Araujo MB et al (2008) Predicting global change impacts on plant species’ distributions: future challenges. Perspect Plant Ecol Evol Syst 9:137–152
  54. Turlure C, Van Dyck H (2009) On the consequences of aggressive male mate locating behaviour and microclimate for female host plant use in the butterfly Lycaena hippothoe. Behav Ecol Sociobiol 63:1581–1591
  55. Turlure C, Van Dyck H, Schtickzelle N et al (2009) Resource-based definition of the habitat, niche overlap and conservation of two glacial relict butterflies. Oikos 118:950–960
  56. Van Dyck H, Baguette M (2005) Dispersal behaviour in fragmented landscapes: routine or special movements? Basic Appl Ecol 6:535–545
  57. Van Dyck H, Matthysen E (1999) Habitat fragmentation and insect flight: a changing ‘design’ in a changing landscape? Trends Ecol Evol 14:172–174
  58. Wickman PO (1992) Sexual selection and butterfly design—a comparative study. Evolution 46:1525–1536
  59. Wiklund C, Ahrberg C (1978) Host plants, nectar source plants, and habitat selection of males and females of Anthocharis cardamines (Lepidoptera). Oikos 31:169–183
  60. Wilson RJ, Gutierrez D, Gutierrez J et al (2007) An elevational shift in butterfly species richness and composition accompanying recent climate change. Glob Chang Biol 13:1873–1887
  61. Zera AJ, Denno RF (1997) Physiology and ecology of dispersal polymorphism in insects. Annu Rev Entomol 42:207–230