PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Powiadomienia systemowe
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
Tytuł artykułu

Demography of a common butterfly on humid grasslands : Argynnis aglaja (Lepidoptera: Nymphalidae) studied by mark-recapture

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Much of the research into the demography of butterflies conducted in Europe during the last few decades focused on rapidly declining or, on the other hand, expanding species, whereas species with stable trend tend to be neglected by researchers. Argynnis aglaja, a widely distributed inhabitant of semi-natural grasslands, represents a suitable model for studying patterns of landscape persistence of not-yet-threatened grassland insects. Using mark-recapture method conducted for one season on humid meadows in Western Bohemia, Czech Republic, we show that this large-bodied species is capable to form large and dense populations, reaching densities of over 250 individuals per hectare. The adults were relatively long-living, an average female longevity (11.8 d) was over twice as high as an average male longevity (4.6 d), with maxima being 22 (a male) and 30 (a female) days. The prolonged female lifespan is beneficial for a species that do not emerge with fully-matured eggs and oviposits singly over large areas. Modelling mobility, well-approximated by an inverse-power function, predicted that about one individual in a thousand would cross the distance of 1000 meters. We conclude that the satisfactory conservation status of A. aglaja stems from its capability to reach high local densities combined with a good dispersal power.
Rocznik
Strony
715--727
Opis fizyczny
Bibliogr. 73 poz.,Rys., tab.,
Twórcy
autor
autor
autor
  • Faculty of Science, University of South Bohemia, Branisovska 31, CZ-37005 Ceske Budejovice ; Institute of Entomology, Biology Centre CAS, Branisovska 31, CZ-37005 Ceske Budejovice, cimmin@gmail.com
Bibliografia
  • 1. Akaike H. 1974 – A new look at the statistical model identification – IEEE T. Automat. Contr. 19: 716–723.
  • 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., Nève G. 1994 – Adult movements between populations in the specialist butterfly Proclossiana eunomia – Ecol. Entomol. 19: 1–5.
  • 4. Baguette M., Schtickzelle N. 2003 – Local population dynamics are important to the conservation of metapopulations in highly fragmented landscapes – J. Appl. Ecol. 2: 404–412.
  • 5. Baguette M., Mennechez G., Petit S., Schtickzelle N. 2003 – Effect of habitat fragmentation on dispersal in the butterfly Proclossiana eunomia – C. R. Biol. 326: 200–209.
  • 6. Beneš J., Konvička M., Dvořak J., Fric Z., Havelda Z., Pavličko A., Vrabéc V., Weidenhoffer Z. 2002 – Butterflies of the Czech Republic: Distribution and Conservation – I, II, SOM, Prague, 857 pp. (in Czech with English summaries).
  • 7. Bergman K.O., Landin J. 2002 – Population structure and movements of a threatened butterfly (Lopinga achine) in a fragmented landscape in Sweden – Biol. Conserv. 108: 361–369.
  • 8. Boggs C.L. 1987 – Within population variation in the demography of Speyeria mormonia (Lepidoptera: Nymphalidae) – Holarctic Ecology, 3: 175–184.
  • 9. Boggs C.L. 1988 – Rates of nectar feeding in butterflies: effects of sex, age and nectar concentration – Funct. Ecol. 2: 289–295.
  • 10. Boggs C.L. 1997 – Reproductive Allocation from Reserves and Income in Butterfly Species with Differing Adult Diets – Ecology, 78: 181–191.
  • 11. Boggs C.L., Ross C.L. 1993 – Effect of adult food limitation on life history traits in Speyeria mormonia (Lepidoptera: Nymphalidae) – Ecology, 74: 433–441.
  • 12. Boggs C.L., Holdren C.E., Kulahci I.G., Bonebrake T.C., Inouye B.D., Fay J.P., McMillan A., Williams E.H., Ehrlich P.R. 2006 – Delayed population explosion of an introduced butterfly – J. Anim. Ecol. 75: 466–475.
  • 13. Bulman C.R., Wilson R.J., Holt A.R., Bravo L.G., Early R.I., Warren M.S., Thomas C.D. 2007 – Minimum viable metapopulation size, extinction debt, and the conservation of a declining species – Ecol. Appl. 17: 1460–1473.
  • 14. Burnham K.P., Anderson D.R. 1998 – Model selection and inference: A practical information-theoretic approach – Springer Verlag, New York, 353 pp.
  • 15. Davies H., Brereton T.M., Roy D.B., Fox R. 2007 – Government targets for protected area management: will threatened butterflies benefit? – Biodivers. Conserv. 16: 3719–3736.
  • 16. Eichel S., Fartmann T. 2008 – Management of calcareous grasslands for Nickerl’s fritillary (Melitaea aurelia) has to consider habitat requirements of the immature stages, isolation, and patch area – J. Insect Conserv. 12: 677–688.
  • 17. Fartmann T., Hermann G. 2006 – Larvalökologie von Tagfaltern und Widderchen in Mitteleuropa, von den Anfängen bis heute (In: Larvalökologie von Tagfaltern und Widderchen in Mitteleuropa, Eds: T. Fartmann, G. Hermann) – Abhandlungen aus dem Westfälischen Museum für Naturkunde, 68: 11–57.
  • 18. Fleishman E., Ray C.H., Sjögren-Gulve P., Boggs C.L., Murphy D.D. 2002 – Assessing the roles of patch quality, area, and isolation in predicting metapopulation dynamics – Conserv. Biol. 16: 706–716.
  • 19. Fox R., Asher J., Brereton T., Roy D., Warren M. 2006 – The State of Butterflies in Britain and Ireland – Pisces Publications, Newbury Berkshire, 112 pp.
  • 20. Freese A., Benes J., Bolz R., Cizek O., Dolek M., Geyer A., Gros P., Konvička M., Liegl A., Stettmer C. 2006 – Habitat use of the endangered butterfly Euphydryas maturna and forestry in Central Europe – Anim. Conserv. 9: 388–397.
  • 21. Fric Z., Konvička M. 2007 – Dispersal kernels of butterflies: Power-law functions are invariant to marking frequency – Basic Appl. Ecol. 8: 377–386.
  • 22. Fric Z., Klímová M., Hula V., Konvička M. 2005 – Caterpillars of Argynnis aglaja (Linnaeus, 1758) (Lepidoptera, Nymphalidae) feeding on Bistorta major – Atalanta, 36: 119–121+ii.
  • 23. Gaston K.J., Fuller R.A. 2007 – Biodiversity and extinction: losing the common and the widespread – Progr. Phys. Geogr. 31: 213–225.
  • 24. Hafner S. 2005 – Neue Beobachtungen zum Vorkommen von Fabriciana niobe im Schwarzwald und auf der Schwäbischen Alb (In: Die Schmetterlinge Baden-Württembergs, Bd. 10, Ergänungsband, Ed: G. Ebert) – Eugen Ulmer, Stuttgart, pp. 46–47.
  • 25. Hill J.K., Thomas C.D., Lewis O.T. 1996 – Effects of habitat patch size and isolation on dispersal by Hesperia comma butterflies: Implications for metapopulation structure – J. Anim. Ecol. 65: 725–735.
  • 26. Hill J.K., Thomas C.D., Fox R., Telfer M.G., Willis S.G., Asher J., Huntley B. 2002 – Responses of butterflies to twentieth century climate warming: implications for future ranges – Proc. R. Soc. London B, 269: 2163–2171.
  • 27. Hill J.K., Hughes C.L., Dytham C., Searle J.B. 2006 – Genetic diversity in butterflies: interactive effects of habitat fragmentation and climate-driven range expansion – Biol. Letters, 2: 152–154.
  • 28. Hula V., Konvička M., Pavlicko A., Fric Z. 2004 – Marsh Fritillary (Euphydiyas aurinia) in the Czech Republic: monitoring, metapopulation structure, and conservation of an endangered butterfly – Entomol. Fennica, 4: 231–241.
  • 29. Konvička M., Fric Z., Benes J. 2006 – Butterfly extinctions in European states: do socioeconomic conditions matter more than physical geography? – Global Ecol. Biogeography, 15: 82–92.
  • 30. Konvička M., Novak J., Beneš J., Fric Z., Bradley J., Keil P., Hrcěk J., Chobot K., Marhoul P. 2008 – The last population of the Woodland Brown butterfly (Lopinga achine) in the Czech Republic: habitat use, demography and site management – J. Insect Conserv. 5: 549–560.
  • 31. Kubat K. 2002 – Klíč ke květeně České republiky [Key to flora of the Czech Republic] – Academia, Praha, 928 pp. (in Czech)
  • 32. Lebreton J., Burnham K.P., Clobert J., Anderson D.R. 1992 – Modelling survival and testing biological hypotheses using marked animals: a unified approach with case studies – Ecol. Monogr. 62: 67–118.
  • 33. Leon-Cortes J.L., Cowley M.J.R., Thomas C.D. 1999 – Detecting decline in a formerly widespread species: how common is the common blue butterfly Polyommatus icarus? – Ecography, 22: 643–650.
  • 34. Leon-Cortes J.L., Cowley M.J.R., Thomas C.D. 2000 – The distribution and decline of a widespread butterfly Lycaena phlaeas in a pastoral landscape – Ecol. Entomol. 25: 285–294.
  • 35. Lepidopterologen Arbeitsgruppe 1987 – Tagfalter und ihre Lebensraume: Arten, Gefährdung, Schutz – Fotorotar, Egg, 516 pp.
  • 36. Liu W.H., Wang Y.F., Xu R.M. 2007 – Habitat utilization by ovipositing females and larvae of the Marsh fritillary (Euphydryas aurinia) in a mosaic of meadows and croplands – J. Insect Conserv. 10: 351–360.
  • 37. Maes D., Van Dyck H. 2001 – Butterfly diversity loss in Flanders (north Belgium): Europe’s worst case scenario? – Biol. Conserv. 99: 263–276.
  • 38. Mennechez G., Schtickzelle N., Baguette M. 2003 – Metapopulation dynamics of the bog fritillary butterfly: comparison of demographic parameters and dispersal between a continuous and a highly fragmented landscape – Landscape Ecol. 18: 279–291.
  • 39. Merrill R.M., Gutierrez D., Lewis O.T., Gutierrez J., Diez S.B., Wilson R.J. 2008 – Combined effects of climate and biotic interactions on the elevational range of a phytophagous insect – J. Anim. Ecol. 77: 145–155.
  • 40. Mousson L., Nève G., Baguette M. 1999 – Metapopulation structure and conservation of the cranberry fritillary Boloria aquilona - Biol. Conserv. 87: 285–293.
  • 41. Nève G., Barascud B., Hughes R., Aubert J., Descimon H., Lebrun P., Baguette M. 1996 – Dispersal, colonization power and metapopulation structure in the vulnerable butterfly Proclossiana eunomia (Lepidoptera: Nymphalidae) – J. Appl. Ecol. 33: 14–22.
  • 42. Nève G., Pavlicko A., Konvička M. 2009 – Loss of genetic diversity through spontaneous colonisation in the Bog Fritillary butterfly (Proclossiana eunomia) in the Czech Republic (Lepidoptera: Nymphalidae) – Eur. J. Entomol. in press.
  • 43. O’Brien D.M., Boggs C.L., Fogel M.L. 2004 – Making eggs from nectar: the role of life history and dietary carbon turnover in butterfly reproductive resource allocation – Oikos, 105: 279–291.
  • 44. Pöyry J., Lindgren S., Salminen J., Kuussaari M. 2005 – Responses of butterfly and moth species to restored cattle grazing in seminatural grasslands – Biol. Conserv. 3: 465–478.
  • 45. Petit S., Moilanen A., Hanski I., Baguette M. 2001 – Metapopulation dynamics of the bog fritillary butterfly: movements between habitat patches – Oikos, 92: 491–500.
  • 46. Reinhardt R., Sbieschne H., Settele J., Fischer U., Fiedler G. 2007 – Tagfalter von Sachsen (In: Beiträge zur Insektenfauna Sachsen bd. 6, Eds: B. Klausnitzer, R. Reinhardt) – Entomologische Nachrichten und Berichte 11. Dresden, 695 pp.
  • 47. Roy D.B., Rothery P., Moss D., Pollard E., Thomas J.A. 2001 – Butterfly numbers and weather: predicting historical trends in abundance and the future effects of climate change – J. Anim. Ecol. 70: 201–217.
  • 48. Salz A., Fartmann T. 2009 – Coastal dunes as important strongholds for the survival of the rare Niobe fritillary (Argynnis niobe) – J. Insect Conserv. in press.
  • 49. Sawchik J., Dufrene M., Lebrun P. 2003 – Estimation of habitat quality based on plant community, and effects of isolation in a network of butterfly habitat patches – Acta Oecol. 24: 25–33.
  • 50. Schtickzelle N., Le Boulengé E., Baguette M. 2002 – Metapopulation dynamics of the bog fritillary butterfly: demographic processes in a patchy population – Oikos, 3: 349–360.
  • 51. Schtickzelle N., Mennechez G., Baguette M. 2006 – Dispersal depression with habitat fragmentation in the bog fritillary butterfly – Ecology, 87: 1057–1065.
  • 52. Schtickzelle N., Turlure C., Baguette M. 2007 – Grazing management impacts on the viability of the threatened bog fritillary butterfly Proclossiana eunomia – Biol. Conserv. 136: 651–660.
  • 53. Settele J., Feldmann R., Reinhardt R. 1999 – Die Tagfalter Deutschlands – Verlag Eugen Ulmer, Stuttgart, 452 pp.
  • 54. Simonsen T.J. 2006 – Fritillary phylogeny, classification, and larval host plants: reconstructed mainly on the basis of male and female genitalic morphology (Lepidoptera: Nymphalidae: Argynnini) – Biol. J. Linn. Soc. 98: 627–673.
  • 55. Simonsen T.J., Wahlberg N., Brower A.V.Z., de Jong R. 2006 – Morphology, molecules and fritillaries: approaching a stable phylogeny for Argynnini (Lepidoptera: Nymphalidae) –Insect. Syst. Evol. 37: 405–418.
  • 56. Six A. 2000 – On the population ecology of the dark green fritillary Argynnis aglaja and the high brown fritillary Argynnis adippe (Lepidoptera, Nymphalidae) – Verhandlungen-Westdeutscher-Entomologentag, 1999: 81–89.
  • 57. Spitzer L., Benes J., Dandova J., Jaskova V., Konvička M. 2009 – The Large Blue butterfly, Phengaris [Maculinea] arion, as a conservation umbrella on a landscape scale: the case of the Czech Carpathians – Ecol. Indicators, in press.
  • 58. Swengel A.B. 1997 – Habitat associations of sympatric violet-feeding fritillaries (Euptoieta, Speyeria, Boloria) (Lepidoptera: Nymphalidae) in tallgrass prairie – Great Lakes Entomol. 1: 1–18.
  • 59. Swengel A.B., Swengel S.R. 2001 – A tenyear study of the status and trend of the regal fritillary (Speyeria idalia) (Lepidoptera: Nymphalidae) in Wisconsin, U.S.A. – Great Lakes Entomol. 34: 111–128.
  • 60. Swengel A.B., Swengel, S.R. 2005 – Influences of Timing and Population density on the sex ratio of Regal Fritillary, Speyeria Idalia (Lepidoptera: Nymphalidae) – Holarctic Lepidoptera 10: 17–30.
  • 61. Tammaru T., Haukioja E. 1996 – Capital breeders and income breeders among Lepidoptera - consequences to population dynamics – Oikos, 77: 561–564.
  • 62. Tolman T., Lewington R. 1997 – Butterflies of Britain and Europe – Harper and Collins London, 320 pp.
  • 63. Van Swaay C.A.M., Van Strien A. 2005 – Using butterfly monitoring data to develop a European grassland butterfly indicator (In: Studies on the ecology and conservation of butterflies in Europe I., General concepts and case studies, Eds: E. Kühn, R. Feldmann, J.A. Thomas, J. Settele) – Pensoft, Sofia, pp. 106–108.
  • 64. Van Swaay C.A.M., Warren M.S. 1999 – Red Data Book of European Butterflies (Rhopalocera) – Nature and Environment Series No. 99. Council of Europe, Strasbourg, 260 pp.
  • 65. Warren M.S. 1987 – The ecology and conservation of the heath fritillary, Mellicta athalia. II. Adult population structure and mobility – J. Appl. Ecol. 24: 483–498.
  • 66. Warren M.S. 1995 – Managing local microclimates for the High Brown fritillary, Argynnis adippe (In Ecology and Conservation of Butterflies, Ed: A.S. Pullin) – Chapman & Hall, London, pp. 198–210.
  • 67. Weidemann H.J. 1995 – Tagfalter, beobachten, bestimmen – Naturbuch Verlag, Augsburg, 288 pp.
  • 68. Wenzel M., Schmitt T., Weitzel M., Seitz A. 2006 – The severe decline of butterflies on western German calcareous grasslands during the last 30 years: A conservation problem – Biol. Conserv. 128: 542–552.
  • 69. White G.C., Burnham K.P. 1999 – Program Mark: survival estimation from populations of marked animals – Bird Study, 46: 120–138.
  • 70. Williams B.K., Nichols J.D., Conroy M.J. 2002 – Analysis and management of animal populations – Academic Press, San Diego, 817 pp.
  • 71. Williams B.L., Brawn J.D., Paige K.N. 2003 – Landscape scale genetic effects of habitat fragmentation on a high gene flow species: Speyeria idalia (Nymphalidae) – Mol. Ecol. 12: 11–20.
  • 72. Zar J.H. 1996 – Biostatistical Analysis, 3rd edition – Prentice Hall, London, 662 pp.
  • 73. Zimmermann K., Fric Z., Filipova L., Konvička M. 2005 – Adult demography, dispersal and behaviour of Brenthis ino (Lepidoptera: Nymphalidae): How to be a successful wetland butterfly – Eur. J. Entomol. 102: 699–706.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-2858-1132
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.