High gene diversity at swarming sites suggest hot spots for gene flow in the endangered Bechstein's bat |
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Authors: | Gerald Kerth Andreas Kiefer Carsten Trappmann Manfred Weishaar |
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Institution: | (1) Zoologisches Institut, Universität Zürich, Winterthurerstr. 190, CH-8057 Zürich, Switzerland;(2) Institut für Zoologie, Abteilung Ökologie, Johannes Gutenberg-Universität, Saarstr. 21, D-55099 Mainz, Germany;(3) Philippistr. 10, D-48149 Münster, Germany;(4) Im Hainbruch 3, D-54317 Gusterath, Germany |
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Abstract: | Our study shows that endangered Bechstein'sbats utilise distinct habitats at differentstages of their reproductive cycle, a findingthat has implications how habitat should beselected for preservation. Using nuclear andmitochondrial microsatellite DNA markers wecompared gene diversity of Bechstein's batswithin breeding colonies and at potentialmating sites. Bechstein's bat is one of themost threatened European bat species. Duringsummer it depends largely on mature deciduousforests. Females exhibit strict natalphilopatry. They form demographicallyindependent breeding colonies comprisingmaternally closely related bats. Males aresolitary. Like other temperate bats,Bechstein's bats swarm at the end of summer infront of caves. Because the sexes meet there,such swarming sites are potentially importantfor gene flow. Our genetic analyses reveal thatswarming sites have greater mitochondrial DNAgene diversity than colonies. Furthermore,field data on the phenology and reproductivestatus of several hundred individuals suggestthat Bechstein's bats mate during swarming. Incombination our field and genetic data showthat swarming sites provide the opportunity forgene flow among bats originating from differentcolonies. Therefore, we suggest that swarmingsites should be strictly protected to maintainthe observed high levels of gene flow amongcolonies. |
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Keywords: | bats conservation dispersal genetic variability mating |
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