Your search keyword '"Frauke, Krüger"' showing total 9 results

1. Conservation genetics of the pond bat (Myotis dasycneme) with special focus on the populations in northwestern Germany and in Jutland, Denmark

Author

Frauke Krüger, Gunars Petersons, Morten Elmeros, Péter Estók, Florian Gloza-Rausch, Oleg L. Orlov, Ronja Dirksen, Liselotte Wesley Andersen, Maria V. Orlova, Matthias Göttsche, Elena A. Nikulina, Esben Fjederholt, and Hans J. Baagøe

Subjects

0106 biological sciences, Conservation genetics, Германия, Population, Rare species, Endangered species, популяционная генетика, cross-border management, migration, phylogeny, 010603 evolutionary biology, 01 natural sciences, Nucleotide diversity, 03 medical and health sciences, Дания, Genetic drift, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, education.field_of_study, Near-threatened species, Ecology, biology, летучие мыши, миграция, Myotis dasycneme, генетика сохранения, population structure, biology.organism_classification, Geography, conservation genetics, филогения, прудовые ночницы

Abstract

Conservation genetics is important in the management of endangered species, helping to understand their connectivity and long-term viability, thus identifying populations of importance for conservation. The pond bat (Myotis dasycneme) is a rare species classified as “Near Threatened” with a wide but patchy Palearctic distribution. A total of 277 samples representing populations in Denmark, Germany, Latvia, Hungary, and Russia were used in the genetic analyses; 224 samples representing Denmark, Germany, and Russia were analyzed at 10 microsatellite loci; 241 samples representing all areas were analyzed using mitochondrial D-loop and cytochrome B sequences. A Bayesian clustering approach revealed two poorly resolved clusters, one representing the Danish and German groups and the other the Russian group. However, significantly different pairwise F ST and D EST estimates were observed between the Danish and German groups and between the Danish and Russian groups suggesting a recent population structure. These conflicting results might be attributed to the effect of migration or low resolution due to the number of microsatellite markers used. After concatenating the two mitochondrial sequences, analysis detected significant genetic differentiation between all populations, probably due to genetic drift combined with a founder event. The phylogenetic tree suggested a closer relationship between the Russian and Northern European populations compared to the Hungarian population, implying that the latter belongs to an older ancestral population. This was supported by the observed haplotype network and higher nucleotide diversity in this population. The genetic structuring observed in the Danish/German pond bat stresses the need for a cross-border management between the two countries. Further, the pronounced mtDNA structuring, together with the indicated migration between nearby populations suggest philopatric female behavior but male migration, emphasizes the importance of protecting suitable habitat mosaics to maintain a continuum of patches with dense pond bat populations across the species' distribution range.

Published

2019

2. Conservation genetics of the pond bat (

Author

Liselotte Wesley, Andersen, Ronja, Dirksen, Elena A, Nikulina, Hans J, Baagøe, Gunars, Petersons, Péter, Estók, Oleg L, Orlov, Maria V, Orlova, Florian, Gloza-Rausch, Matthias, Göttsche, Esben Terp, Fjederholt, Frauke, Krüger, and Morten, Elmeros

Subjects

conservation genetics, cross‐border management, Myotis dasycneme, population structure, migration, phylogeny, Original Research

Abstract

Conservation genetics is important in the management of endangered species, helping to understand their connectivity and long‐term viability, thus identifying populations of importance for conservation. The pond bat (Myotis dasycneme) is a rare species classified as “Near Threatened” with a wide but patchy Palearctic distribution. A total of 277 samples representing populations in Denmark, Germany, Latvia, Hungary, and Russia were used in the genetic analyses; 224 samples representing Denmark, Germany, and Russia were analyzed at 10 microsatellite loci; 241 samples representing all areas were analyzed using mitochondrial D‐loop and cytochrome B sequences. A Bayesian clustering approach revealed two poorly resolved clusters, one representing the Danish and German groups and the other the Russian group. However, significantly different pairwise F ST and D EST estimates were observed between the Danish and German groups and between the Danish and Russian groups suggesting a recent population structure. These conflicting results might be attributed to the effect of migration or low resolution due to the number of microsatellite markers used. After concatenating the two mitochondrial sequences, analysis detected significant genetic differentiation between all populations, probably due to genetic drift combined with a founder event. The phylogenetic tree suggested a closer relationship between the Russian and Northern European populations compared to the Hungarian population, implying that the latter belongs to an older ancestral population. This was supported by the observed haplotype network and higher nucleotide diversity in this population. The genetic structuring observed in the Danish/German pond bat stresses the need for a cross‐border management between the two countries. Further, the pronounced mtDNA structuring, together with the indicated migration between nearby populations suggest philopatric female behavior but male migration, emphasizes the importance of protecting suitable habitat mosaics to maintain a continuum of patches with dense pond bat populations across the species' distribution range.

Published

2018

3. An integrative approach to detect subtle trophic niche differentiation in the sympatric trawling bat speciesMyotis dasycnemeandMyotis daubentonii

Author

Björn Martin Siemers, Elizabeth L. Clare, Robert S. Sommer, Stefan Greif, Frauke Krüger, and William Oliver Christian Symondson

Subjects

Insecta, Foraging, Niche, Zoology, Bite Force, Predation, QH301, Species Specificity, Chiroptera, Germany, Genetics, Animals, Body Size, Wings, Animal, Ecosystem, Ecology, Evolution, Behavior and Systematics, QL, biology, Ecology, Sequence Analysis, DNA, Acentria ephemerella, biology.organism_classification, Diet, Sympatry, Habitat, Sympatric speciation, Predatory Behavior, Species richness, Myotis dasycneme

Abstract

Bats are well known for species richness and ecological diversity, and thus, they provide a good opportunity to study relationships and interaction between species. To assess interactions, we consider distinct traits that are probably to be triggered by niche shape and evolutionary processes. We present data on the trophic niche differentiation between two sympatric European trawling bat species, Myotis dasycneme and Myotis daubentonii, incorporating a wide spectrum of methodological approaches. We measure morphological traits involved in foraging and prey handling performance including bite force, weightlifting capacity and wing morphology. We then measure resulting prey consumption using both morphological and molecular diet analyses. These species closely resemble each other in morphological traits, however, subtle but significant differences were apparent in bite force and lift capacity, which are related to differences in basic body and head size. Both morphological and molecular diet analyses show strong niche overlap. We detected subtle differences in less frequent prey items, as well as differences in the exploitation of terrestrial and aquatic-based prey groups. Myotis dasycneme feeds more on aquatic prey, like Chironomidae and their pupal stages, or on the aquatic moth Acentria ephemerella. Myotis daubentonii feeds more on terrestrial prey, like Brachycera, or Coleoptera. This suggests that these bats use different microhabitats within the habitat where they co-occur.

Published

2013

4. Reintroduction of the European mink Mustela lutreola in Saarland, Germany. Preliminary data on the use of space and activity as revealed by radio-tracking and live-trapping

Author

Ina Klaumann, Silke Zwirlein, Frauke Krüger, Elisabeth Peters, and Ilona Brinkmann

Subjects

Ecology, biology, Home range, Endangered species, Zoology, Mustela lutreola, biology.organism_classification, Predation, Animal ecology, biology.animal, Weaning, Juvenile, Mink, Nature and Landscape Conservation

Abstract

As an attempt to help conserve the endangered European mink Mustela lutreola (Linnaeus, 1761), a reintroduction program was started in a nature reserve in Saarland, Germany; the present study is part of this ongoing reintroduction project. Within the first 2 yr period, 48 (16 m, 32 f) founder animals were reintroduced, out of a total of about 75 animals intended for release in the course of the 3 yr project. Prior to reintroduction, the animals were acclimatized using soft-release pens where they were preconditioned with natural prey . A number of individuals (n = 18) were set free in groups of mating partners (ffm, fm) and in mother-offspring groups. Thirty-three European mink (14 m, 19 f) were fitted with intraperitonial transmitters and radio-tracked and surveyed via live-trapping. Animals were monitored from April 2006 to May 2008 to determine the distribution, size and temporal changes in home range. Released animals showed linear home ranges spreading along rivers and brooks. Home range sizes were 7.2 km (88 ha) for 1 adult male, 0.2-5.9 km (1-505 ha) for adult females, around 1.7-5.6 km (17-132 ha) for juvenile males and 9.2 km (778 ha) for 1 juvenile female, respectively. The released adults showed inter-, but only few intra-, sexual home range overlaps. In contrast, juveniles did not show any home range overlaps. In winter, home range size decreased to a minimum of about 1 km. Further, home range size for females decreased around parturition but increased successively at time of weaning. The activity pattern of released animals was highest at night (especially around dusk and dawn).

Published

2009

5. Diet of the insectivorous bat 'Pipistrellus nathusii' during autumn migration and summer residence

Author

Elizabeth L. Clare, Oskars Keišs, William Oliver Christian Symondson, Gunārs Pētersons, and Frauke Krüger

Subjects

QL, Insecta, biology, Ecology, Range (biology), High-Throughput Nucleotide Sequencing, Insectivore, Sequence Analysis, DNA, biology.organism_classification, Latvia, Predation, Diet, Lepidoptera genitalia, Pipistrellus nathusii, Habitat, Chiroptera, Genetics, Seasonal breeder, Animals, Animal Migration, Seasons, Ornithology, Ecology, Evolution, Behavior and Systematics, Ecosystem

Abstract

Migration is widespread among vertebrates, yet bat migration has received little attention and only in the recent decades has a better understanding of it been gained. Migration can cause significant changes in behaviour and physiology, due to increasing energy demands and aerodynamic constraints. Dietary shifts, for example, have been shown to occur in birds before onset of migration. For bats, it is not known if a change in diet occurs during migration, although breeding season–related dietary preference has been documented. It is known that a diet rich in fats and the accumulation of fat deposits do increase the flight range of migratory bats. Some bat species can be regarded as long-distance migrants, covering up to 2000 km between summer and winter roosting areas. Pipistrellus nathusii (Vespertilionidae), a European long-distant migrant, travels each year along the Baltic Sea from north-eastern Europe to hibernate in central and southern Europe. This study presents data on the dietary habits of migrating Pipistrellus nathusii compared with those during the breeding season. We analysed faecal samples from bats on fall migration caught at the Ornithological Field Station in Pape, Latvia and from samples collected in North-Latvian summer roosts. We applied both morphological identification and molecular methods, as morphological methods also recognize life stages of prey and can contribute frequency data. The diets of bats on migration and breeding bats were similar, with Diptera and Lepidoptera comprising the major prey categories. However, certain prey groups could be explained by the different hunting habitats exploited during migration vs. summer residence.

Published

2014

6. Island bat diets: does it matter more who you are or where you live?

Author

Jodi L. Sedlock, Elizabeth L. Clare, and Frauke Krüger

Subjects

Rhinolophus, Insecta, Philippines, Foraging, Human echolocation, Hipposideros, Predation, Species Specificity, Chiroptera, Rhinolophus virgo, Genetics, Animals, Body Size, Ecology, Evolution, Behavior and Systematics, Islands, biology, Ecology, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, biology.organism_classification, Hipposideridae, Diet, Sympatry, Echolocation, Predatory Behavior, Guano

Abstract

Differences in body size, echolocation call frequency and location may result in diet partitioning among bat species. Comparisons between island populations are one way to evaluate these competing hypotheses. We conducted a species-level diet analysis of three Rhinolophus and one Hipposideros species on the Philippine islands of Cebu, Bohol and Siquijor. We identified 655 prey (MOTUs) in the guano from 77 individual bats. There was a high degree of overlap among species' diets despite differences in body size and call frequency. For example, the diet of the 3 g-Hipposideros pygmaeus (mean CF = 102 kHz) exhibited a diet overlap higher than expected by chance with all three Rhinolophus species, even the 13 g-Rhinolophus inops (mean CF = 54 kHz). We observed more convergence in diet between Rhinolophus species and H. pygmaeus than between Rhinolophus species themselves, which may be explained by the broad diet of H. pygmaeus. There was less dietary overlap between Rhinolophus virgo from two islands than between R. virgo and congeners from Cebu. These data suggest that location causes convergence in diet, but specific species characteristics may drive niche specialization. The complex interplay between location and the perceptual ability of each species leads to a situation where simple explanations, for example body size, do not translate into predictable prey partitioning. In particular, our observations raise interesting questions about the foraging strategy and adaptability of the tiny H. pygmaeus.

Published

2013

7. Local variability in the diet of Daubenton’s bat (Myotis daubentonii) in a lake landscape of northern Germany

Author

Andreas Fichtner, Frauke Krüger, Robert S. Sommer, and Henning Nissen

Subjects

biology, Ecology, Trawling, Aerial hawking, Foraging, biology.organism_classification, Chironomidae, Predation, Hunting behaviour, Geography, Myotis daubentonii, Habitat, Ecosystems Research, Dominance (ecology), Animal Science and Zoology, Prey diversity, Myotis dasycneme, Ecology, Evolution, Behavior and Systematics

Abstract

Daubenton’s bat Myotis daubentonii is one of the most common bat species of Europe, hunting its prey in the surroundings of water bodies, with different microhabitats. To explore the local adaptability to different environmental conditions, we compared the diet of Daubenton’s bats at four different sites in a lake landscape in northern Germany with a main focus on prey diversity. Bats were caught (n = 85) in mist nets for collecting individual faecal pellets (n = 276). Pellets were dissected and the occurrence of identifiable pieces of each prey group was evaluated and grouped in five different frequency groups. We found 17 different groups of arthropods among the prey, with a clear dominance of Chironomidae and Trichoptera. There were significant differences among the sampling sites in prey diversity but not in prey richness.The changes in prey diversity were associated with sample sites. We conclude that on a local scale there is low variability in diet of Daubenton’s bat caused by hunting in various habitat structures in the surroundings of water bodies. Our results highlight the ecological flexibility of M. daubentonii, which could be an explanation for the commonness of M. daubentonii across Europe in comparison to the rather rare pond bat (Myotis dasycneme), which has similar habitats and main prey group preferences. Daubenton’s bat Myotis daubentonii is one of the most common bat species of Europe, hunting its prey in the surroundings of water bodies, with different microhabitats. To explore the local adaptability to different environmental conditions, we compared the diet of Daubenton’s bats at four different sites in a lake landscape in northern Germany with a main focus on prey diversity. Bats were caught (n = 85) in mist nets for collecting individual faecal pellets (n = 276). Pellets were dissected and the occurrence of identifiable pieces of each prey group was evaluated and grouped in five different frequency groups. We found 17 different groups of arthropods among the prey, with a clear dominance of Chironomidae and Trichoptera. There were significant differences among the sampling sites in prey diversity but not in prey richness.The changes in prey diversity were associated with sample sites. We conclude that on a local scale there is low variability in diet of Daubenton’s bat caused by hunting in various habitat structures in the surroundings of water bodies. Our results highlight the ecological flexibility of M. daubentonii, which could be an explanation for the commonness of M. daubentonii across Europe in comparison to the rather rare pond bat (Myotis dasycneme), which has similar habitats and main prey group preferences.

Published

2013

8. Der Fischotter (Lutra Lutra) in Schleswig-Holstein - Signatur einer rückwandernden, bedrohten Wirbeltierart und Konsequenzen für den Naturschutz

Author

Frank E. Zachos, Jeanine Wagner, Robert S. Sommer, Ann-Christin Honnen, Veronika Grünwald-Schwark, Peter Borkenhagen, Steffen Behl, Arne Drews, Ulrich Schmölcke, Hanna Kirschnick-Schmidt, Heiko Schmüser, Anna Krekemeyer, Andreas Fichtner, and Frauke Krüger

Subjects

Ökosystemforschung

Abstract

Der Fischotter (Lutra lutra) gehört zu den am stärksten gefährdeten Säugetierarten Europas und ist Zielart in vielen Naturschutzprojekten. Während der Otter noch 1950 überall in Schleswig-Holstein (S-H) verbreitet war, ist der Bestand bis Mitte der 1980er-Jahre fast ausgestorben. Seit Anfang der 1990er-Jahre kann eine kontinuierlich ansteigende Wiederausbreitung in S-H festgestellt werden. Der Ursprung der Wiederbesiedlung liegt, wie ein Vergleich genetischer Profile zeigt, vor allem in Mecklenburg-Vorpommern sowie zu einem geringeren Teil in Dänemark. Es kann erwartet werden, dass die Fischotterpopulation Schleswig-Holsteins in den kommenden Jahren weiterhin von der Zuwanderung aus diesen Regionen profitiert. Die daraus resultierende erhöhte genetische Variabilität ist eine günstige Ausgangsposition für die weitere Stabilisierung des Bestands. Ein Großteil der Gewässersysteme in S-H wurde als potenzieller Ausbreitungsraum für Fischotter eingeschätzt und in zahlreichen Fällen als Korridor-Suchraum ausgewiesen, in dem der Fischotter bei zukünftigen Umweltplanungen besonders berücksichtigt werden sollte. Unter der Voraussetzung, dass dem Lebensraum und den Wanderbedingungen für Fischotter bei raumplanerischen Belangen in Zukunft ausreichende Beachtung zukommt, geben Verf. eine sehr positive Zukunftsprognose für die Entwicklung des Fischotterbestands in S-H ab. (Deutsch)

Published

2012

9. High Trophic Similarity in the Sympatric North European Trawling Bat Species Myotis daubentonii and Myotis dasycneme

Author

Andreas Fichtner, Frauke Krüger, Irmhild Wolz, Robert S. Sommer, and Inka Harms

Subjects

biology, Ecology, Foraging, Niche, biology.organism_classification, Sustainability Science, Predation, Habitat, Sympatric speciation, Abundance (ecology), Animal Science and Zoology, Myotis dasycneme, Trophic level

Abstract

Most European bat species are insectivorous and share foraging areas to some extent. Where similar species rely on similar resources in the same foraging habitat, they are likely to interact. This study addresses the trophic niche of the Northern European trawling bat species Myotis dasycneme (Boie, 1825) and Myotis daubentonii (Kuhl, 1817), occurring in the same habitat, and possible interactions or differences within their dietary behaviour. Dietary data of both species were analysed to draw conclusions on their ecology, possible dietary overlap, hints for coexistence mechanisms and community structure. In this study, M. dasycneme and M. daubentonii fed mainly on Chironomidae (M. dasycneme: 44.4%; M. daubentonii: 32.8%) and Trichoptera (M. dasycneme: 20.4%; M. daubentonii: 22.2%), showing a high trophic niche overlap and similar niche breadth. Nevertheless, there were differences in the diet of the two species concerning the predation of chironomids. Differences also occur regarding the prey types, referring to the terrestrial or aquatic life-cycle of prey groups. This could be evidence for different foraging habitats and a spatial segregation of both species. High resource abundance is also likely to allow the coexistence of both species within the same hunting habitat.

Published

2012