PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2016 | 18 | 1 |

Tytuł artykułu

Foraging strategy of Kuhl's pipistrelle at the northern edge of the species distribution

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Rapid range expansion of Kuhl's pipistrelle (Pipistrellus kuhlii) has been observed throughout Europe, and in addition to its natural habitats of temperate grasslands and agricultural areas, the species is common in city centres, where it roosts in human-made structures. It has been suggested that the flexibility of this species in regard to different human-induced changes, such as climate change and urbanization, is responsible for the apparent range shift. Although P. kuhlii exhibits one of the highest degrees of synanthropy among bat species in Europe, its ecology has thus far not been thoroughly studied. This study aims to describe its foraging and roosting selection in Central Europe (eastern Slovakia), where the northernmost maternity colony of P. kuhlii roosts in human settlements. Radio-tracking was conducted during the pre-parturition and post-lactation periods. We identified six artificial roosts within the study area that were interlinked, with bats switching between them. Ten individuals were used for modelling foraging-habitat utilization, which revealed that bats were highly selective. The only habitat type that bats clearly preferred, regardless of season, was an urban illuminated area close to a river. Only slight avoidance — of open areas — was observed during the pre-parturition period.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

18

Numer

1

Opis fizyczny

p.215-222,fig.,ref.

Twórcy

autor
  • Department of Zoology, Institute of Biology and Ecology, Faculty of Science, Pavol Jozef Safarik University in Kosice, Moyzesova 11, 040 01 Kosice, Slovakia
autor
  • Vertebrate Zoology Research Group, Department of Zoology, Faculty of Science, Charles University in Prague, Vinicna 7, 128 44 Praha, Czech Republic
autor
  • Department of Animal Ecology, Institute of Forest Ecology, Slovak Academy of Sciences, Sturova 2, 960 53 Zvolen, Slovakia
autor
  • Department of Animal Physiology, Institute of Biology and Ecology, Faculty of Science, Pavol Jozef Safarik University in Kosice, Moyzesova 11, 040 01 Kosice, Slovakia
autor
  • Department of Zoology, Institute of Biology and Ecology, Faculty of Science, Pavol Jozef Safarik University in Kosice, Moyzesova 11, 040 01 Kosice, Slovakia

Bibliografia

  • 1. Ancillotto, L. , M. T. Serangeli , and D. Russo . 2012. Spatial proximity between newborns influences the development of social relationships in bats. Ethology, 118: 331–340. Google Scholar
  • 2. Ancillotto, L. , A. Tomassini , and D. Russo . 2015. The fancy city life: Kuhl's pipistrelle, Pipistrellus kuhlii, benefits from urbanisation. Wildlife Research, 42: 598–606. Google Scholar
  • 3. Ancillotto, L. , L. Santini , N. Ranc , L. Maiorano , and D. Russo . 2016. Extraordinary range expansion in a common bat: the potential roles of climate change and urbanisation. The Science of Nature, 103: 1–8. Google Scholar
  • 4. Arnfield, A. J. 2003. Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island. International Journal of Climatology, 23: 1–26. Google Scholar
  • 5. Barak, Y. , and Y. Yomtov . 1989. The advantage of group hunting in Kuhl's bat Pipistrellus kuhlii (Microchiroptera). Journal of Zoology (London), 219: 670–375. Google Scholar
  • 6. Barti, L. 2010. First record of Pipistrellus kuhlii (Chiroptera: Ves pertilionidae) from Transylvania and a morphological approach to the lepidus taxon. Acta Siculica, 2010: 155–168. Google Scholar
  • 7. Bihari, Z. 2004. The roost preference of Nyctalus noctula (Chiroptera, Vespertilionidae) in summer and the ecological background of their urbanization. Mammalia, 68: 329–336. Google Scholar
  • 8. Blake, D. , A. M. Hutson , P. A. Racey , J. Rydell , and J. R. Speakman . 1994. Use of lamplit roads by foraging bats in southern England. Journal of Zoology (London), 234: 453–462. Google Scholar
  • 9. Bogdanowicz, W. 2004. Pipistrellus kuhlii (Kuhl, 1817) — Weißrandfledermaus. Pp. 876–908, in Handbuch der Säugetiere Europas. Band 4/II: Fledertiere. Teil II: Chiroptera II. Vespertilionidae 2, Molossidae, Nycteridae ( F. Krapp , ed.). AULA-Verlag, Wiebelsheim, 1186 pp. Google Scholar
  • 10. Calenge, C. 2006. The package adehabitat for the R software: a tool for the analysis of space and habitat use by animals. Ecological Modelling, 197: 516–519. Google Scholar
  • 11. Cel'uch, M. , and M. Ševčík . 2006. First record of Pipistrellus kuhlii (Chiroptera) from Slovakia. Biologia, 61: 637–638. Google Scholar
  • 12. Danko, Š. 2007. Reprodukcia Hypsugo savii a Pipistrellus kuhlii na východnom Slovensku: d'alšie dôkazy o ich šírení na sever. Vespertilio, 11: 13–24. Google Scholar
  • 13. Day, J. , J. Baker , H. Schofield , F. Mathews , and K. J. Gaston . 2015. Part-night lighting: implications for bat conservation. Animal Conservation, 18: 512–516. Google Scholar
  • 14. Dietz, C. , and A. Kiefer . 2014. Die Fledermäuse Europas. Ken nen, Bestimmen, Schützen. Franckh-Kosmos Verlags GmbH, Stuttgart, 400 pp. Google Scholar
  • 15. Dietz, C. , O. Von Helversen , and D. Nill . 2009. Bats of Britain, Europe and Northwest Africa. A&C Black, London, 400 pp. Google Scholar
  • 16. Doll, C. N. 2008. CIESIN thematic guide to night-time light remote sensing and its applications. Center for International Earth Science Information Network of Columbia University, Palisades, NY. Available online at http://sedac.ciesin.columbia.edu/tg/. Google Scholar
  • 17. Eisenbeis, G. , C. Rich , and T. Longcore . 2006. Artificial night lighting and insects: attraction of insects to streetlamps in a rural setting in Germany. Pp. 191–198, in Ecological consequences of artificial night lighting, 2 ( C. Rich and T. Longcore , eds.). Island Press, Washington, D.C., 458 pp. Google Scholar
  • 18. Furlonger, C. L. , H. J. Dewar , and M. B. Fenton . 1987. Habitat use by foraging insectivorous bats. Canadian Journal of Zoology, 65: 284–288. Google Scholar
  • 19. Haffner, M. , and H. P. Stutz . 1985. Abundance of Pipistrellus pipistrellus and Pipistrellus kuhlii foraging at street-lamps. Myotis, 23–24: 167–172. Google Scholar
  • 20. Hutterer, R. , T. Ivanova , C. Meyer-Cords , and L. Rodrigues . 2005. Bat migrations in Europe. A review of banding data and literature. Naturschutz und Biologische Vielfalt, Bonn, 28: 1–176. Google Scholar
  • 21. Jones, G. , and M. Morton . 1992. Radio-tracking studies on habitat use by greater horseshoe bats (Rhinolophus ferrumequinum). Pp. 521–537, in Wildlife telemetry. Remote monitoring and tracking of animals ( I. G. Priede and S. M. Swift , eds.). Ellis Horwood, Chichester, 708 pp. Google Scholar
  • 22. Kalcounis-Rueppell, M. C. , V. H. Payne , S. R. Huff , and A. L. Boyko . 2007. Effects of waste water treatment plant effluent on bat foraging ecology in an urban stream system. Biological Conservation, 138: 120–130. Google Scholar
  • 23. Kark, S. , A. Iwaniuk , A. Schalimtzek , and E. Banker . 2007. Living in the city: can anyone become an ‘urban exploiter’? Journal of Biogeography, 34: 638–651. Google Scholar
  • 24. Korine, C. , and B. Pinshow . 2004. Guild structure, foraging space use, and distribution in a community of insectivorous bats in the Negev Desert. Journal of Zoology (London), 262: 187–196. Google Scholar
  • 25. Lausen, C. L. , and R. M. R. Barclay . 2006. Benefits of living in a building: big brown bats (Eptesicus fuscus) in rocks versus buildings. Journal of Mammalogy, 87: 362–370. Google Scholar
  • 26. Lodé, T. 2000. Effect of a motorway on mortality and isolation of wildlife populations. AMBIO, 29: 163–166. Google Scholar
  • 27. Mayhew, C. , and R. Simmon . 2000. NASA GSFC. Earth's City Lights. Data courtesy Marc Imhoff of NASA GSFC and Christopher Elvidge of NOAA NGDC. Google Scholar
  • 28. McIntyre, N. E. 2000. Ecology of urban arthropods: a review and a call to action. Annals of the Entomological Society of America, 93: 825–835. Google Scholar
  • 29. McKinney, M. L. 2006. Urbanization as a major cause of biotic homogenization. Biological Conservation, 127: 247–260. Google Scholar
  • 30. McKinney, M. L. 2008. Effects of urbanization on species richness: a review of plants and animals. Urban Ecosystems, 11: 161–176. Google Scholar
  • 31. Mendelssohn, H. , and Y. Yom-Tov . 1999. A report of birds and mammals which have increased their distribution and abundance in Israel due to human activity. Israel Journal of Zoology, 45: 35–47. Google Scholar
  • 32. Neubaum, D. J. , K. R. Wilson , and T. J. O'Shea . 2007. Urban maternity-roost selection by big brown bats in Colorado. Journal of Wildlife Management, 71: 728–736. Google Scholar
  • 33. Neuweiler, G. 2000. The biology of bats. Oxford University Press, Oxford, UK, 310 pp. Google Scholar
  • 34. Polak, T. , C. Korine , S. Yair , and M. W. Holderied . 2011. Differential effects of artificial lighting on flight and foraging behaviour of two sympatric bat species in a desert. Journal of Zoology (London), 285: 21–27. Google Scholar
  • 35. Popczyk, B. , G. Lesiński , A. Baumann , and B. W. Wojtowicz . 2008. Kuhl's pipistrelle, Pipistrellus kuhlii (Kuhl, 1817) or Pipistrellus lepidus (Blyth, 1845), in Central Poland — accidental records or a result of expansion? Nyctalus (N.F.), 13: 279–281. Google Scholar
  • 36. R Core Team. 2015. R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. Available at http://www.R-project.org/. Google Scholar
  • 37. Reiter, A. , P. Benda , and J. Hotový . 2007. First record of the Kuhl's pipistrelle, Pipistrellus kuhlii (Kuhl, 1817), in the Czech Republic. Lynx (N.S.), 38: 47–54. Google Scholar
  • 38. Russo, D. , and G. Jones . 1999. The social calls of Kuhl's pipistrelles Pipistrellus kuhlii (Kuhl, 1819): structure and variation (Chiroptera: Vespertilionidae). Journal of Zoology (London), 249: 476–481. Google Scholar
  • 39. Russo, D. , and G. Jones . 2003. Use of foraging habitats by bats in a Mediterranean area determined by acoustic surveys: conservation implications. Ecography, 26: 197–209. Google Scholar
  • 40. Rydell, J. 1991. Seasonal use of illuminated areas by foraging northern bats Eptesicus nilssoni. Ecography, 14: 203–207. Google Scholar
  • 41. Rydell, J. 1992. Exploitation of insects around streetlamps by bats in Sweden. Functional Ecology, 6: 744–750. Google Scholar
  • 42. Rydell, J. 2006. Bats and their insect prey at streetlights. Pp. 43–60, in Ecological consequences of artificial night lighting, 2 ( C. Rich and T. Longcore , eds.). Island Press, Washington, D.C., 458 pp. Google Scholar
  • 43. Rydell, J. , and P. A. Racey . 1995. Street lamps and the feeding ecology of insectivorous bats. Symposia of the Zoological Society of London, 67: 291–307. Google Scholar
  • 44. Sachanowicz, K. , A. Wower , and A.-T. Bashta . 2006. Further range extension of Pipistrellus kuhlii (Kuhl, 1817) in central and eastern Europe. Acta Chiropterologica, 8: 543–548. Google Scholar
  • 45. Sala, O. E. , F. S. Chapin , J. J. Armesto , E. Berlow , J. Bloom-Field , R. Dirzo , E. Huber-Sanwald , L. F. Huenneke , R. B. Jackson , A. Kinzig , et al. 2000. Global biodiversity scenarios for the year 2100. Science, 287: 1770–1774. Google Scholar
  • 46. Scales, J. A. , and K. T. Wilkins . 2007. Seasonality and fidelity in roost use of the Mexican free-tailed bat, Tadarida brasiliensis, in an urban setting. Western North American Naturalist, 67: 402–408. Google Scholar
  • 47. Serangeli, M. T. , L. Cistrone , L. Ancillotto , A. Tomassini , and D. Russo . 2012. The post- release fate of hand-reared orphaned bats: survival and habitat selection. Animal Welfare, 21: 9–18. Google Scholar
  • 48. Stone, E. L. , G. Jones , and S. Harris . 2009. Street lighting disturbs commuting bats. Current Biology, 19: 1123–1127. Google Scholar
  • 49. Stone, E. L. , S. Harris , and G. Jones . 2015. Impacts of artificial lighting on bats: a review of challenges and solutions. Mammalian Biology, 80: 213–219. Google Scholar
  • 50. Thomas, D. , and E. Taylor . 1990. Study designs and tests for comparing resource use and availability. Journal of Wild life Management, 54: 322–330. Google Scholar
  • 51. Tomassini, A. , P. Colangelo , P. Agnelli , G. Jones , and D. Russo . 2013. Cranial size has increased over 133 years in a common bat, Pipistrellus kuhlii: a response to changing climate or urbanization? Journal of Biogeography, 41: 944–953. Google Scholar
  • 52. Uhrin, M. , U. Hüttmeir , M. Kipson , P. Estók , K. Sachanowicz , S. Bücs , B. Karapandža , M. Paunović , P. Presetnik , A.-T. Bashta , et al. 2016. Status of Savi's pipistrelle Hypsu go savii (Chiroptera) and range expansion in Central and south-eastern Europe: a review. Mammal Review, 46: 1–16. Google Scholar
  • 53. Van Langevelde, F. , J. A. Ettema , M. Donners , M. F. Wallis De Vries , and D. Groenendijk . 2011. Effect of spectral composition of artificial light on the attraction of moths. Biological Conservation, 144: 2274–2281. Google Scholar
  • 54. Wawrocka, K. , T. Bartonička , and A. Reiter . 2012. Pipistrellus kuhlii, a bat species breeding and hibernating in the Czech Republic. Vespertilio, 16: 351–356. Google Scholar
  • 55. White, G. C. , and R. A. Garrott . 1990. Analysis of wildlife radio-tracking data. Academic Press, London, 383 pp. Google Scholar
  • 56. Yom-Tov, Y. , and R. Kadmon . 1998. Analysis of the distribution of insectivorous bats in Israel. Diversity and Distributions, 4: 63–70. Google Scholar

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-842cc246-776b-45cf-8e37-2e4353125ee0
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.