PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2018 | 20 | 2 |

Tytuł artykułu

Long-term increase in hibernating bats in Swedish mines - effect of global warming?

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
We present the result of bat winter censuses in three old mines in southern Sweden from 1980 until present (2017). The Taberg and Kleva mines, each with about 1.5 km of accessible passages, have winter populations of 517 and 132 bats, respectively (maximum counts) belonging to six species, the highest numbers known in underground sites in Sweden. Ädelfors is less extensive and has fewer individuals (maximum 22). The two former sites were protected and gated in the 1980′s while the third site still has no formal protection and is subject to disturbance. Generally Daubenton's bat Myotis daubentonii and the brown long-eared bat Plecotus auritus are common species and the numbers are stable. The whiskered and Brandt's bats M. mystacinus/brandtii and Natterer's bat M. nattereri have increased significantly, while the northern bat Eptesicus nilssonii, which is relatively rare in mines generally, has shown a slight but significant decline. At the species level the population trends conform well to those of the respective species in continental Europe and the British Isles. This suggests that there is a common factor behind the population changes across Europe. Although our data are very limited, the results question some previous explanations for the observed trends, but are in line with theoretical predictions based on global warming scenarios.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

20

Numer

2

Opis fizyczny

p.421-426,fig.,ref.

Twórcy

autor
  • Biology Department, Lund University, SE-223 62 Lund, Sweden
autor
  • Nattbacka Natur, Krokdalsvägen 88, SE-517 34 Bollebygd, Sweden
autor
  • Store Mosse Nationalpark, SE-3357 74 Hillerstorp, Sweden
autor
  • Jonkopings kommun, SE-551 89 Jonkoping, Sweden

Bibliografia

  • 1. Belkin, V. V., D. V. Panchenko, K. F. Tirronen, A. E. YaKimova, and F. V. Fedorov. 2014. Ecological status of bats (Chiroptera) in winter roosts in eastern Fennoscandia. Rus-sian Journal of Ecology, 46: 453–459. Google Scholar
  • 2. Daan, S. 1980. Long term changes in bat populations in the Netherlands: a summary. Lutra , 22: 95–105. Google Scholar
  • 3. Egsbaek, W., and B. Jensen. 1963. Results of bat banding in Denmark. Videnskabelige Meddelelser fra Dansk Naturhistorisk Forening, 125: 269–296. Google Scholar
  • 4. Fuszara, E., M. Fuszara, M. Kowalski, G. Lesiński, J. P. Cygan, T. Nitkiewicz, A. Szarlik, and B. Wójtowicz. 2010. Population changes in Natterer's bat Myotis nattereri and Daubenton's bat M. daubentonii in winter roosts of central Poland. Polish Journal of Ecology, 58: 769–781. Google Scholar
  • 5. Haysom, K., J. Dekker, J. Russ, T. van der Meij, and A. van Strien. 2014. European bat population trends. A prototype biodiversity indicator. EEA Technical Report, 19/2013: 1—61. Google Scholar
  • 6. Humphries, M. M., D. W. Thomas, and J. R. Speakman 2002. Climate-mediated energetic constraints on the distribution of hibernating mammals. Nature, 418: 313–316 Google Scholar
  • 7. Isaksen, K. 2007. Bat-census work carried out by the bat group of the Norwegian Zoological Society in the period 1991–2007. Fauna Oslo, 60: 176–182. Google Scholar
  • 8. Karlsson, B.-L., J. Eklöf, and J. Rydell. 2002. No lunar phobia in swarming insectivorous bats. Journal of Zoology (London), 256: 473–477. Google Scholar
  • 9. Lesiński, G., M. iganczak, and M. Kowalski. 2011. Increased bat abundance in a major winter roost in central Poland over 30 years. Mammalia, 75: 163–167. Google Scholar
  • 10. Lewanzik, D., and C. C. Voigt. 2017. Transition from conventional to light-emitting diode street lighting changes activity of urban bats. Journal of Applied Ecology, 54: 264–271. Google Scholar
  • 11. Lundy, M., I. Montgomery, and J. Russ. 2010. Climate change-linked expansion of Nathusius' pipistrelle bat, Pipistrellus nathusii (Keyserling and Blasius 1839). Journal Of Biogeography, 37: 2232–2242. Google Scholar
  • 12. Michaelsen, T. C., O. Olsen, and K. J. Grimstad. 2013. Roosts used by bats in late autumn and winter at northern latitudes in Norway. Folia Zoologica, 62: 297–303. Google Scholar
  • 13. Ohlsson, A., M. Asp, S. Berggreen-Clausen, G. Berglöv, E. Björck, A. Johnell, J. A. Mårtensson, L. Nylén, H. Persson, and E. Sjökvist. 2015. Framtidsklimat i Jönköpingslan — enligt RCP-scenarier. Klimatologi, 25: 1–70. Google Scholar
  • 14. Rebelo, H., P. Tarroso, and G. Jones. 2010. Predicted impact of climate change on European bats in relation to their biogeographic patterns. Global Change Biology, 16: 561–576. Google Scholar
  • 15. Řehák, Z., and J. Gaisler. 1999. Long-term changes in the number of bats in the largest man-made hibernaculum of the Czech Republic. Acta Chiropterologica, 1: 113–123. Google Scholar
  • 16. Rigstad, K., K. M. Olsen, M. Klann, J. Van Der Kooij, J. Starholm, and P. O. Syvertsen. 1996. Vintertellinger av flaggermus på Østlandet 1995/96. Fauna Oslo, 49: 186–190. Google Scholar
  • 17. Ryberg, O. 1947. Studies on bats and bat parasites. Svensk Natur, Stockholm, 330 pp. Google Scholar
  • 18. Rydell, J. 1989. Jordkällare som övervintringsplatser för fladdermöss, 84: 49–53. Google Scholar
  • 19. Rydell, J. 1992. Exploitation of insects around streetlamps by bats in Sweden. Functional Ecology, 6: 744–750. Google Scholar
  • 20. Rydell, J., I. Ahlén, R. Gerell, J. De Jong, C. Odelberg, and U. Unger. 1999. Fladdermössen i Kleva gruva. Fauna och Flora (Stockholm), 94: 1–8. Google Scholar
  • 21. Sherwin, H. A., W. I. Montgomery, and M. G. Lundy. 2013. The impact and implications of climate change for bats. Mammal Review, 43, 2013: 171–182. Google Scholar
  • 22. Siivonen, Y., and T. Wermundsen. 2008. Characteristics of winter roosts of bat species in southern Finland. Mammalia, 72: 50–56. Google Scholar
  • 23. Tegengren, F. R. 1924. Sveriges ädlare malmer och bergverk. Sveriges Geologiska Undersökning, Stockholm, Ser. Ca, 17, 406 pp. Google Scholar
  • 24. Uhrin, M., P. Benda, J. Obuch, and P. Urban. 2010. Changes in abundance of hibernating bats in central Slovakia (1992–2009). Biologia, 65: 349–361. Google Scholar
  • 25. Urbańczyk, Z. 1989. Results of the winter census of bats in Nietoperek 1985–1989. Myotis, 27: 139–145. Google Scholar
  • 26. Vintulis, V., and G. Petersons. 2014. Root cellars are important winter roosts for brown long-eared bats (Plecotus auritus) and northern bats (Eptesicus nilssonii) in Latvia. Mammalia, 78: 85–91. Google Scholar
  • 27. Zar, J. H. 1984. Biostatistical analyses, 2nd edition. Prentice Hall, New Jersey, 718 pp. Google Scholar

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.agro-03eb34fe-bc24-4ec0-bd36-e78ef2d4e719
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.