PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Clutch size variation in agile frog Rana dalmatica on post-mining areas

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Clutch size is an important life history trait in amphibians, and it varies among and within species, populations and individuals. Within a population, its variation has been attributed to a positive relationship between females’ age or size and their fecundity as well as to spatio-temporal differences in environmental conditions. Therefore, clutch size has been shown to be both spatially and seasonally variable. We examined spatial and seasonal clutch size variation based upon two years of study involving 160 clutches of the Agile Frog Rana dalmatina Bonaparte, 1840 in 14 ponds within one spoil bank in the Czech Republic’s North Bohemian brown coal basin. The overall mean clutch size was 1295 (SD 596), which is one of the largest that has been reported. However, both clutch size and its variance differed considerably between the years. Clutch size also varied among the ponds. We found no relationship between clutch size and the distance of a breeding pond from alluvial forest, a typical wintering habitat. Despite existence at the site of many suitable reproduction habitats, the spoil bank does not offer the complex of all habitats needed for persistence of the R. dalmatina population. To protect that population, it is necessary to preserve not only breeding ponds on the spoil bank but also alluvial forest and, most importantly, the connectivity between these two crucial habitats.
Rocznik
Strony
789--799
Opis fizyczny
Bibliogr. 57 poz., rys., tab.
Twórcy
autor
  • Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Kamýcká 129, Prague, Czech Republic
autor
  • Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Kamýcká 129, Prague, Czech Republic
  • Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Kamýcká 129, Prague, Czech Republic
autor
  • Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Kamýcká 129, Prague, Czech Republic
autor
  • Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Kamýcká 129, Prague, Czech Republic
Bibliografia
  • 1. Baruš V., Oliva O. 1992 – Obojživelníci - Amphibia [Amphibians]. Fauna ČSFR – Academia, Prague, 338 pp. (in Czech, English summary).
  • 2. Bernini F., Gentilli A., Merli E., Razzetti E. 2004 – Rana dalmatina and R. latastei: habitat selection, fluctuation in egg clutch deposition and response to exceptional floods in northern Italy – Italian J. Zool. 71: 147–149.
  • 3. Berven K.A. 1982 – The genetic basis of altitudinal variation in the Wood Frog Rana sylvatica. I. An experimental analysis of life history traits – Evolution, 36: 962–983.
  • 4. Berven K.A. 1988 – Factors affecting variation in reproductive traits within a population of wood frogs (Rana sylvatica) – Copeia, 1988: 605–615.
  • 5. Cadeddu G., Castellano S. 2012 – Factors affecting variation in the reproductive investment of female treefrogs (Hyla intermedia) – Zoology Pages, 6: 372–378.
  • 6. Crawley M.J. 2007 – The R Book – John Wiley & Sons, Chichester, UK, 1076 pp.
  • 7. Cummins C.P. 1986 – Temporal and spatial variation in egg size and fecundity in Rana temporaria – J. Anim. Ecol. 55: 303–316.
  • 8. Doležalová J., Vojar J., Smolová D., Solský M., Kopecký O. 2012 – Technical reclamation and spontaneous succession produce different water habitats: A case study from Czech post-mining sites – Ecol. Eng. 43: 5–12.
  • 9. Duellman W.E., Trueb L. 1994 – Biology of Amphibians (Second Edition) – John Hopkins University Press, Baltimore, London, 670 pp.
  • 10. Elmberg J. 1991 – Factors affecting male yearly mating success in the common frog, Rana temporaria – Behav. Ecol. Sociobiol. 28: 125–131.
  • 11. ESRI 2007 – ArcGIS 9.2. – Environmental Systems Research Institute, Redlands CA, USA.
  • 12. Galán P. 1997 – Colonization of spoil benches of an opencast lignite mine in northwest Spain by amphibians and reptiles – Biol. Conserv. 79: 187–195.
  • 13. Harabiš F., Dolný A. 2012 – Human altered ecosystems: suitable habitats as well as ecological traps for dragonflies (Odonata): the matter of scale – J. Insect Conserv. 16: 121–130.
  • 14. Harper E.B., Semlitsch R.D. 2007 – Density dependence in the terrestrial life history stage of two anurans – Oecologia, 153: 879–889.
  • 15. Hartel T. 2003 – The breeding biology of the frog Rana dalmatina in Târnava Mare Valley, Romania – Russian J. Herpetol. 10: 169–174.
  • 16. Hartel T. 2005 – Aspects of breeding activity of Rana dalmatina and Rana temporaria reproducing in a seminatural pond – North-Western J. Zool. 1: 5–13.
  • 17. Hartel T., Öllerer K., Nemes S. 2007 – Critical elements for biologically based management plans for amphibians in the middle section of the Târnava Mare basin – Acta Sci. Transylvanica, 15: 109–132.
  • 18. Hartel T., Nemes Sz., Cogălniceanu D., Öllerer K., Moga C.I., Lesbarrères D., Demeter L. 2009 – Pond and landscape determinants of Rana dalmatina population sizes in a Romanian rural landscape – Acta Oecol. 35: 53–59.
  • 19. Hendrychová M., Šálek M., Červenková A. 2008 – Invertebrate communities in man-made and spontaneously developed forests on spoil heaps after coal mining – J. Landscape Stud. 1: 916–187.
  • 20. Hettyey A., Töroök J., Hévizi G. 2005 – Male mate choice lacking in the Agile Frog, Rana dalmatina – Copeia, 2005: 403–408.
  • 21. Heusser H., Lippuner M., Schmidt B.R. 2002 – Laichfressen durch Kaulquappen des Springfroschs (Rana dalmatina) und syntopes Vorkommen mit andern Anuren-Arten – Zeitschrift für Feldherpetologie, 9: 75–87 (in German, English summary).
  • 22. Howard R.D. 1978 – The evolution of mating strategies in bullfrogs, Rana catesbeiana – Evolution, 32: 850–871.
  • 23. Jorgensen C.B. 1981 – Ovarian cycle in a temperate zone frog, Rana temporaria, with special reference to factors determining number and size of eggs – J. Zool. 195: 449–458.
  • 24. Kaplan R.H., King E.G. 1997 – Egg size is a developmentally plastic trait: evidence from long term studies in the frog Bombina orientalis – Herpetologica, 53: 149–165.
  • 25. Kaplan R.H., Salthe S.N. 1979 – The allometry of reproduction: an empirical view in salamanders – The American Naturalist, 113: 671–689.
  • 26. Kompała-Bąba A., Bąba W. 2013 – The spontaneous succession in a sand-pit – the role of life history traits and species habitat preferences – Pol. J. Ecol. 61: 13–22.
  • 27. Krupa J.J. 1995 – How likely is male mate choice among anurans? – Behaviour, 132: 643–664.
  • 28. Kuzmin S.L. 1999 – The Amphibians of the Former Soviet Union – Pensoft, Sofia, Moscow, 538 pp.
  • 29. Lesbarrères D., Lodé T. 2002 – Variations in male calls and responses to an unfamiliar advertisement call in territorial breeding anuran, Rana dalmatina: evidence for a ‘dear enemy’ effect – Ethol. Ecol. Evol. 14: 287–295.
  • 30. Lesbarrères D., Pagano A., Lodé T. 2003 – Inbreeding and road effect zone in a Ranidae: the case of Agile frog, Rana dalmatina Bonaparte, 1840 – CR Biol. 326: 68–72.
  • 31. Lesbarrères D., MeriläJ., Lodé T. 2008 – Male breeding success is predicted by call frequency in a territorial species, the agile frog (Rana dalmatina) – Can. J. Zool. 86: 1273– 1279.
  • 32. McAlister W.H. 1962 – Variation in Rana pipiens Schreber in Texas – Am. Midl. Nat. 67: 334–363.
  • 33. Morrison C., Hero J.M. 2003 – Geographic variation in life-history characteristics of amphibians: a review – J. Animal Ecol. 72: 270– 279.
  • 34. Peters R.H. 1983 – The Ecological Implications of Body Size – Cambridge University Press, Cambridge, 344 pp.
  • 35. Ponsero A., Joly P. 1998 – Clutch size, egg survival and migration distance in the agile frog (Rana dalmatina) in a floodplain – Archiv für Hydrobiologie, 142: 343–352.
  • 36. Prach K. 1987 – Succession of vegetation on dumps from strip coal mining, N. W. Bohemia, Czechoslovakia – Folia Geobot. Phytotx. 22: 339–354.
  • 37. Prach K., Pyšek P., Šmilauer P. 1999 – Prediction of vegetation succession in human-disturbed habitats using an expert system – Restor. Ecol. 7: 15–23.
  • 38. R Development Core Team 2007 – R: A Language and Environment for Statistical Computing – R Foundation for Statistical Computing, Vienna, Austria, URL: http://www.r–project.org/.
  • 39. Reading C.J., Clarke R.T. 1995 – The effects of density, rainfall and environmental temperature on body condition and fecundity in the common toad, Bufo bufo – Oecologia, 102: 453–459.
  • 40. Riis N. 1991 – A field study of survival, growth, biomass and temperature dependence of Rana dalmatina and Rana temporaria larvae – Amphibia-Reptilia, 12: 229–243.
  • 41. Ryser J. 1989 – Weight loss, reproductive output, and the cost of reproduction in the common frog, Rana temporaria – Oecologia, 78: 264–268.
  • 42. Šálek M. 2012 – Spontaneous succession on opencast mining sites: implications for bird biodiversity – J. Appl. Ecol. 49: 1417–1425.
  • 43. Salthe S.N., Duellman W.E. 1973 – Quantitative constraints associated with reproductive modes in anurans (In: Evolutionary Biology of the Anurans, Ed: J.L. Vial) – University of Missouri Press, Columbia, MO, USA, pp. 229–249.
  • 44. Smolová D., Doležalová D., Vojar J., Solský M., Kopecký O., Gučík J. 2010 – [Summary of faunistic records and evaluation of amphibian occurrence on spoil banks in northern Bohemia] – Acta Musei Bohemiae Borealis, Scientiae Naturales, Liberec, 28: 155– 163 (in Czech, English summary).
  • 45. Sofianidou Th. S., Kyriakopoulou-Sklavounou P. 1983 – Studies on the biology of the frog Rana dalmatina Bonaparte during the breeding season in Greece (Amphibia: Anura: Ranidae) – Amphibia-Reptilia, 4: 125–136.
  • 46. Strugariu A., Gherghel I., Huţuleac-Volosciuc M.V., Puşcaşu C.M. 2007 – Preliminary aspects concerning the herpetofauna from urban and peri-urban environments from North-Eastern Romania: a case study in the city of Suceava – Herpetologica Romanica, 1: 53–61.
  • 47. Trenham P.C., Schaffer H.B. 2005 – Amphibian upland habitat use and its consequences for population viability – Ecol. Appl. 15: 1158–1168.
  • 48. Tropek R., Kadlec T., Karešová P., Spitzer P., Kočárek P., Malenovský I., Baňař P., Tuf I.H., Hejda M., Konvička M. 2010 – Spontaneous succession in limestone quarries as an effective restoration tool for endangered arthropods and plants – J. Appl. Ecol. 47: 139–147.
  • 49. Vojar J. 2006 – Colonization of post-mining landscapes by amphibians: a review – Sci. Agr. Bohemica, 37: 35–40.
  • 50. Vojar J., Doležalová J., Solský M. 2012 – A new, harmless mesocosm design for field rearing ranid embryos and determining clutch sizes – Herpetol. Rev. 43: 588–590.
  • 51. Vojar J., Solský M., Doležalová J., Šálek M., Kopecký O. 2008 – Factors influencing occupancy of breeding ponds in the agile frog (Rana dalmatina): a conservation perspective – Scripta Facultatis Rerum Naturalium Universitatis Ostraviensis: 186: 386–390.
  • 52. Waringer-Löschenkohl A. 1991 – Breeding ecology of Rana dalmatina in lower Austria: a 7-years study – Alytes, 9: 121–134.
  • 53. Weddeling K., Bosbach G., Hatchel M., Sander U., Schmidt P., Tarkhnishvili D. 2005 – Egg Size Versus Clutch Size: variation and trade-offs in reproductive output of Rana dalmatina and R. temporaria in a pond near Bonn (Germany) (In: Proceedings of the 12th Ordinary General Meeting of the Societas Europaea Herpetologica, Eds: N. Ananjeva, O. Tsinenko) – Societas Europaea Herpetol. St. Petersburg, pp. 238–240.
  • 54. Wederkinch E. 1988 – Population size, migra¬tion barriers and other features of Rana dalmatina populations near Koge, Zealand, Denmark – Memoranda Societatis pro Fauna et Flora Fennica, 64: 101–103.
  • 55. Wells K.D. 2007 – The Ecology and Behavior of Amphibians – University of Chicago Press, Chicago, 1400 pp.
  • 56. Zavadil V. 1986 – Pozorování skokana hnědého a štíhlého v době rozmnožování [Observation of common and agile frogs during breeding season] – Živa, 4: 150–151 (in Czech, English summary).
  • 57. Zavadil V., Moravec J. 2003 – Red List of Amphibians and Reptiles of the Czech Republic (In: Red List of Threatened Species in the Czech Republic Vertebrates, Eds: J. Plesník, V. Hanzal, L. Brejšková) – AOPK ČR Prague, Příroda, pp. 83–93 (in Czech, English summary).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-051f9298-face-484c-840b-4cbb303451e8
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.