Your search keyword '"Maria Helbig-Bonitz"' showing total 13 results

1. Associations of bird and bat species richness with temperature and remote sensing‐based vegetation structure on a tropical mountain

Author

Anna‐Valeska Bettina Vogeler, Insa Otte, Stefan Ferger, Maria Helbig‐Bonitz, Andreas Hemp, Thomas Nauss, Katrin Böhning‐Gaese, Matthias Schleuning, Marco Tschapka, and Jörg Albrecht

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2021

2. Abiotic and biotic drivers of functional diversity and functional composition of bird and bat assemblages along a tropical elevation gradient

Author

Andreas Hemp, Alexander Neu, Matthias Schleuning, Stefan W. Ferger, Jörg Albrecht, Katrin Böhning-Gaese, Robert Modest Byamungu, Maria Helbig-Bonitz, Anna Vogeler, and Marco Tschapka

Subjects

Abiotic component, Functional diversity, Geography, Land use, Ecology, Elevation, Biodiversity, Composition (visual arts), Ecology, Evolution, Behavior and Systematics

Published

2021

3. Potential of airborne LiDAR derived vegetation structure for the prediction of animal species richness at Mount Kilimanjaro

Author

Alice Ziegler, Hanna Meyer, Insa Otte, Marcell K. Peters, Tim Appelhans, Christina Behler, Katrin Böhning-Gaese, Alice Classen, Florian Detsch, Jürgen Deckert, Connal D. Eardley, Stefan W. Ferger, Markus Fischer, Friederike Gebert, Michael Haas, Maria Helbig-Bonitz, Andreas Hemp, Claudia Hemp, Victor Kakengi, Antonia V. Mayr, Christine Ngereza, Christoph Reudenbach, Juliane Röder, Gemma Rutten, David Schellenberger Costa, Matthias Schleuning, Axel Ssymank, Ingolf Steffan-Dewenter, Joseph Tardanico, Marco Tschapka, Maximilian G. R. Vollstädt, Stephan Wöllauer, Jie Zhang, Roland Brandl, and Thomas Nauss

Subjects

LiDAR, elevation, Science, Geografie, Reisen, Biodiversity, arthropods, 580 Plants (Botany), species richness, biodiversity, predictive modeling, partial least square regression, bats, birds, Geography & travel, Predictive modeling, Birds, ddc:590, Bats, Elevation, General Earth and Planetary Sciences, Arthropods, ddc:526, Partial least square regression, Species richness, ddc:910

Abstract

The monitoring of species and functional diversity is of increasing relevance for the development of strategies for the conservation and management of biodiversity. Therefore, reliable estimates of the performance of monitoring techniques across taxa become important. Using a unique dataset, this study investigates the potential of airborne LiDAR-derived variables characterizing vegetation structure as predictors for animal species richness at the southern slopes of Mount Kilimanjaro. To disentangle the structural LiDAR information from co-factors related to elevational vegetation zones, LiDAR-based models were compared to the predictive power of elevation models. 17 taxa and 4 feeding guilds were modeled and the standardized study design allowed for a comparison across the assemblages. Results show that most taxa (14) and feeding guilds (3) can be predicted best by elevation with normalized RMSE values but only for three of those taxa and two of those feeding guilds the difference to other models is significant. Generally, modeling performances between different models vary only slightly for each assemblage. For the remaining, structural information at most showed little additional contribution to the performance. In summary, LiDAR observations can be used for animal species prediction. However, the effort and cost of aerial surveys are not always in proportion with the prediction quality, especially when the species distribution follows zonal patterns, and elevation information yields similar results.

Published

2022

4. Climate–land-use interactions shape tropical mountain biodiversity and ecosystem functions

Author

Natalia Sierra-Cornejo, Florian Detsch, Claudia Hemp, Bernd Huwe, Axel Ssymank, Christina Bogner, Maria Helbig-Bonitz, Connal Eardley, Juliane Röder, Christine Ngereza, Katrin Böhning-Gaese, Maximilian G. R. Vollstädt, Ingolf Steffan-Dewenter, Yakov Kuzyakov, Ralf Kiese, Joscha N. Becker, Dietrich Hertel, Kim M. Howell, Ephraim Mwangomo, William J. Kindeketa, Henry K. Njovu, Ralph S. Peters, David Schellenberger Costa, Alice Classen, Markus Fischer, Marcell K. Peters, Marco Tschapka, Stefan W. Ferger, Sara B. Frederiksen, Tim Appelhans, Anita Keller, Thomas Nauss, Jie Zhang, Matthias Schleuning, Andreas Ensslin, Hamadi I. Dulle, Michael Kleyer, Friederike Gebert, Anna Kühnel, Marion Renner, Victor Kakengi, Insa Otte, Friederike Gerschlauer, Holger Pabst, Roland Brandl, Gemma Rutten, Adrian Gütlein, Christina Behler, Andreas Hemp, and Antonia V. Mayr

Subjects

0106 biological sciences, Biomass (ecology), Multidisciplinary, 010504 meteorology & atmospheric sciences, Land use, Ecology, Biodiversity, Global change, 010603 evolutionary biology, 01 natural sciences, Arid, Tropical climate, Environmental science, Ecosystem, Species richness, 0105 earth and related environmental sciences

Abstract

Agriculture and the exploitation of natural resources have transformed tropical mountain ecosystems across the world, and the consequences of these transformations for biodiversity and ecosystem functioning are largely unknown1-3. Conclusions that are derived from studies in non-mountainous areas are not suitable for predicting the effects of land-use changes on tropical mountains because the climatic environment rapidly changes with elevation, which may mitigate or amplify the effects of land use4,5. It is of key importance to understand how the interplay of climate and land use constrains biodiversity and ecosystem functions to determine the consequences of global change for mountain ecosystems. Here we show that the interacting effects of climate and land use reshape elevational trends in biodiversity and ecosystem functions on Africa's largest mountain, Mount Kilimanjaro (Tanzania). We find that increasing land-use intensity causes larger losses of plant and animal species richness in the arid lowlands than in humid submontane and montane zones. Increases in land-use intensity are associated with significant changes in the composition of plant, animal and microorganism communities; stronger modifications of plant and animal communities occur in arid and humid ecosystems, respectively. Temperature, precipitation and land use jointly modulate soil properties, nutrient turnover, greenhouse gas emissions, plant biomass and productivity, as well as animal interactions. Our data suggest that the response of ecosystem functions to land-use intensity depends strongly on climate; more-severe changes in ecosystem functioning occur in the arid lowlands and the cold montane zone. Interactions between climate and land use explained-on average-54% of the variation in species richness, species composition and ecosystem functions, whereas only 30% of variation was related to single drivers. Our study reveals that climate can modulate the effects of land use on biodiversity and ecosystem functioning, and points to a lowered resistance of ecosystems in climatically challenging environments to ongoing land-use changes in tropical mountainous regions.

Published

2019

5. Species richness is more important for ecosystem functioning than species turnover along an elevational gradient

Author

Jörg, Albrecht, Marcell K, Peters, Joscha N, Becker, Christina, Behler, Alice, Classen, Andreas, Ensslin, Stefan W, Ferger, Friederike, Gebert, Friederike, Gerschlauer, Maria, Helbig-Bonitz, William J, Kindeketa, Anna, Kühnel, Antonia V, Mayr, Henry K, Njovu, Holger, Pabst, Ulf, Pommer, Juliane, Röder, Gemma, Rutten, David, Schellenberger Costa, Natalia, Sierra-Cornejo, Anna, Vogeler, Maximilian G R, Vollstädt, Hamadi I, Dulle, Connal D, Eardley, Kim M, Howell, Alexander, Keller, Ralph S, Peters, Victor, Kakengi, Claudia, Hemp, Jie, Zhang, Peter, Manning, Thomas, Mueller, Christina, Bogner, Katrin, Böhning-Gaese, Roland, Brandl, Dietrich, Hertel, Bernd, Huwe, Ralf, Kiese, Michael, Kleyer, Christoph, Leuschner, Yakov, Kuzyakov, Thomas, Nauss, Marco, Tschapka, Markus, Fischer, Andreas, Hemp, Ingolf, Steffan-Dewenter, and Matthias, Schleuning

Subjects

Animals, Biodiversity, Plants, Tanzania, Ecosystem

Abstract

Many experiments have shown that biodiversity enhances ecosystem functioning. However, we have little understanding of how environmental heterogeneity shapes the effect of diversity on ecosystem functioning and to what extent this diversity effect is mediated by variation in species richness or species turnover. This knowledge is crucial to scaling up the results of experiments from local to regional scales. Here we quantify the diversity effect and its components-that is, the contributions of variation in species richness and species turnover-for 22 ecosystem functions of microorganisms, plants and animals across 13 major ecosystem types on Mt Kilimanjaro, Tanzania. Environmental heterogeneity across ecosystem types on average increased the diversity effect from explaining 49% to 72% of the variation in ecosystem functions. In contrast to our expectation, the diversity effect was more strongly mediated by variation in species richness than by species turnover. Our findings reveal that environmental heterogeneity strengthens the relationship between biodiversity and ecosystem functioning and that species richness is a stronger driver of ecosystem functioning than species turnover. Based on a broad range of taxa and ecosystem functions in a non-experimental system, these results are in line with predictions from biodiversity experiments and emphasize that conserving biodiversity is essential for maintaining ecosystem functioning.

Published

2021

6. Climate-land-use interactions shape tropical mountain biodiversity and ecosystem functions

Author

Marcell K, Peters, Andreas, Hemp, Tim, Appelhans, Joscha N, Becker, Christina, Behler, Alice, Classen, Florian, Detsch, Andreas, Ensslin, Stefan W, Ferger, Sara B, Frederiksen, Friederike, Gebert, Friederike, Gerschlauer, Adrian, Gütlein, Maria, Helbig-Bonitz, Claudia, Hemp, William J, Kindeketa, Anna, Kühnel, Antonia V, Mayr, Ephraim, Mwangomo, Christine, Ngereza, Henry K, Njovu, Insa, Otte, Holger, Pabst, Marion, Renner, Juliane, Röder, Gemma, Rutten, David, Schellenberger Costa, Natalia, Sierra-Cornejo, Maximilian G R, Vollstädt, Hamadi I, Dulle, Connal D, Eardley, Kim M, Howell, Alexander, Keller, Ralph S, Peters, Axel, Ssymank, Victor, Kakengi, Jie, Zhang, Christina, Bogner, Katrin, Böhning-Gaese, Roland, Brandl, Dietrich, Hertel, Bernd, Huwe, Ralf, Kiese, Michael, Kleyer, Yakov, Kuzyakov, Thomas, Nauss, Matthias, Schleuning, Marco, Tschapka, Markus, Fischer, and Ingolf, Steffan-Dewenter

Subjects

Tropical Climate, Altitude, Rain, Temperature, Animals, Agriculture, Humidity, Biodiversity, Plants, Microbiology, Tanzania, Ecosystem

Abstract

Agriculture and the exploitation of natural resources have transformed tropical mountain ecosystems across the world, and the consequences of these transformations for biodiversity and ecosystem functioning are largely unknown

Published

2018

7. Bats are Not Birds - Different Responses to Human Land-use on a Tropical Mountain

Author

Katrin Böhning-Gaese, Kim M. Howell, Maria Helbig-Bonitz, Elisabeth K. V. Kalko, Marco Tschapka, and Stefan W. Ferger

Subjects

Habitat, Community, Ecology, Abundance (ecology), Agroforestry, Biodiversity, Ecosystem, Rainforest, Vegetation, Species richness, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Land-use intensification has consequences for biodiversity and ecosystem functioning, with various taxonomic groups differing widely in their sensitivity. As land-use intensification alters habitat structure and resource availability, both factors may contribute to explaining differences in animal species diversity. Within the local animal assemblages the flying vertebrates, bats and birds, provide important and partly complementary ecosystem functions. We tested how bats and birds respond to land-use intensification and compared abundance, species richness, and community composition across a land-use gradient including forest, traditional agroforests (home garden), coffee plantations and grasslands on Mount Kilimanjaro, Tanzania. Furthermore, we asked how sensitive different habitat and feeding guilds of bats and birds react to land-use intensification and the associated alterations in vegetation structure and food resource availability. In contrast to our expectations, land-use intensification had no negative effect on species richness and abundance of all birds and bats. However, some habitat and feeding guilds, in particular forest specialist and frugivorous birds, were highly sensitive to land-use intensification. Although the habitat guilds of both, birds and bats, depended on a certain degree of vegetation structure, total bat and bird abundance was mediated primarily by the availability of the respective food resources. Even though the highly structured southern slopes of Mount Kilimanjaro are able to maintain diverse bat and bird assemblages, the sensitivity of avian forest specialists against land-use intensification and the dependence of the bat and bird habitat guilds on a certain vegetation structure demonstrate that conservation plans should place special emphasis on these guilds.

Published

2015

8. Effects of land use on bat diversity in a complex plantation–forest landscape in northeastern Brazil

Author

Maria Helbig-Bonitz, Elisabeth K. V. Kalko, Katrin Heer, Marco A. R. Mello, and Renato G. Fernandes

Subjects

Ecology, Land use, Fauna, Species diversity, Insectivore, Geography, Habitat, Abundance (ecology), Genetics, Animal Science and Zoology, Species richness, Netting, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

In fragmented areas, the persistence of different species depends on their ability to use the surrounding matrix either as a corridor or as a foraging habitat. We assessed how species richness and abundance of Neotropical bats differ among forest fragments and rubber plantations under different management regimes. Our study site was located in a heterogeneous agricultural area in the Atlantic Forest of Bahia, northeastern Brazil. By combining mist netting and acoustic monitoring as complementary techniques, we caught 28 phyllostomid species and recorded 21 aerial insectivorous species, which either forage in open space or close to forests. Open space species were equally abundant and diverse in all land use types. In contrast, assemblages of phyllostomid and aerial insectivorous forest species differed significantly among habitats, with the highest species richness recorded in forest fragments. We identified a number of forest specialists in forest fragments, which indicates a relatively intact bat fauna. In intensively used rubber-cacao plantation, we found surprisingly high bat abundance and diversity, despite the shortage of resources for bats. Our results also indicate that patches of secondary vegetation around rubber plantations are important landscape features for bats and might contribute to the persistence of highly diverse bat assemblages. We suggest that bats do not perceive plantations as a hostile matrix, but probably use them as corridors between forest fragments and patches of secondary vegetation. Em áreas fragmentadas, a persistência de diferentes espécies depende da habilidade delas em usar a matriz ao redor como um corredor ou hábitat de forrageio. Nós avaliamos como a riqueza de espécies e abundância de morcegos neotropicais diferem entre fragmentos de mata e seringais sob diferentes regimes de manejo. Nossa área de estudo estava localizada em uma área agrícola heterogênea na Mata Atlântica da Bahia, nordeste do Brasil. Combinando capturas em redes com monitoramento acústico como técnicas complementares, capturamos 28 espécies de morcegos filostomídeos e 21 espécies de morcegos insetívoros aéreos, que forrageiam em espaço aberto ou perto de florestas. As espécies de espaço aberto foram igualmente abundantes e diversas em todas as categorias de uso da terra. Por outro lado, comunidades de filostomídeos e insetívoros aéreos de florestas diferiram significativamente entre hábitats, com a maior riqueza de espécies tendo sido registrada em fragmentos de mata. Identificamos muitos especialistas em florestas nos fragmentos de mata, o que sugere que a fauna de morcegos ainda está relativamente intacta. Em plantações mistas de cacau e seringais intensivamente usadas, encontramos uma abundância e riqueza de morcegos surpreendentemente altas, apesar da escassez de recursos para morcegos. Nossos resultados indicam que manchas de vegetação secundária ao redor de seringais são importantes elementos da paisagem para morcegos e podem contribuir para a persistência de comunidades altamente diversas. Sugerimos que morcegos não percebem as plantações como uma matriz hostil, mas provavelmente as usam como corredores entre fragmentos de mata e manchas de vegetação secundária.

Published

2015

9. Fruit bats can disperse figs over different land-use types on Mount Kilimanjaro, Tanzania

Author

Elisabeth K. V. Kalko, Gemma Rutten, and Maria Helbig-Bonitz

Subjects

Geography, Tanzania, biology, Land use, Agroforestry, Botany, Biodiversity, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Mount

Published

2013

10. Predictors of elevational biodiversity gradients change from single taxa to the multi-taxa community level

Author

Sara B. Frederiksen, Andreas Hemp, Katrin Böhning-Gaese, Gemma Rutten, Joseph Tardanico, Connal Eardley, Andreas Ensslin, Michael Kleyer, Ingolf Steffan-Dewenter, Giulia Zancolli, Ephraim Mwangomo, Ralph S. Peters, Insa Otte, Roland Brandl, Claudia Hemp, Elisabeth K. V. Kalko, Axel Ssymank, Jie Zhang, Alice Classen, Markus Fischer, Matthias Schleuning, Christina Behler, Juliane Röder, William J. Kindeketa, David Schellenberger Costa, Maria Helbig-Bonitz, Thomas Nauss, Friederike Gebert, Michael Haas, Marcell K. Peters, Victor Kakengi, Christine Ngereza, Marco Tschapka, Tim Appelhans, Jürgen Deckert, Mark-Oliver Rödel, Florian Detsch, and Stefan W. Ferger

Subjects

0106 biological sciences, Ecology (disciplines), media_common.quotation_subject, Science, Biodiversity, General Physics and Astronomy, 580 Plants (Botany), Biology, Diversification (marketing strategy), 010603 evolutionary biology, 01 natural sciences, Models, Biological, Tanzania, General Biochemistry, Genetics and Molecular Biology, Article, Species Specificity, Animals, ddc:578, Ecosystem, Phylogeny, media_common, Multidisciplinary, Phylogenetic tree, Geography, Ecology, 010604 marine biology & hydrobiology, Altitude, Temperature, General Chemistry, 15. Life on land, Plants, respiratory system, Taxon, Plants/classification, 13. Climate action, Species richness, Conservation biology, human activities, Diversity (politics)

Abstract

The factors determining gradients of biodiversity are a fundamental yet unresolved topic in ecology. While diversity gradients have been analysed for numerous single taxa, progress towards general explanatory models has been hampered by limitations in the phylogenetic coverage of past studies. By parallel sampling of 25 major plant and animal taxa along a 3.7 km elevational gradient on Mt. Kilimanjaro, we quantify cross-taxon consensus in diversity gradients and evaluate predictors of diversity from single taxa to a multi-taxa community level. While single taxa show complex distribution patterns and respond to different environmental factors, scaling up diversity to the community level leads to an unambiguous support for temperature as the main predictor of species richness in both plants and animals. Our findings illuminate the influence of taxonomic coverage for models of diversity gradients and point to the importance of temperature for diversification and species coexistence in plant and animal communities., Explaining species richness patterns is a key question in ecology. Peters et al. sample diverse plant and animal groups across elevation on Mt. Kilimanjaro to show that, while disparate factors drive distributions of individual taxa, diversity overall decreases with elevation, mostly driven by effects of temperature.

Published

2016

11. Cryptic Diversity in Mongolian Vespertilionid Bats (Vespertilionidae, Chiroptera, Mammalia). Results of the Mongolian-German Biological Expeditions Since 1962, No. 299

Author

Thomas Datzmann, Andreas Kiefer, Ulrich ZÖphel, Nyamsuren Batsaikhan, Dietrich Dolch, Maria Helbig-Bonitz, Michael Stubbe, and Frieder Mayer

Subjects

Hypsugo, Nyctalus, Vespertilio murinus, Nyctalus noctula, Vespertilio, biology, Ecology, Western Palaearctic, Zoology, Animal Science and Zoology, Plecotus, Eptesicus, biology.organism_classification

Abstract

In contrast to the Eastern Palaearctic region a high degree of cryptic diversity was discovered among temperate bats of the Western Palaearctic region in the last ten years. Climatic oscillations caused severe changes in the distribution of species throughout the Palaearctic region during the Pleistocene. Exploring multiple taxa can help to understand general evolutionary differentiation processes. In the present study genetic variation within and among 94 Mongolian vespertilionid bats of six genera (Hypsugo, Eptesicus, Vespertilio, Myotis, Plecotus, and Nyctalus) was screened by sequencing a 798 bp fragment of the mitochondrial ND1 gene and then subsequently compared with those of Western Palaearctic taxa. This allowed first insights in the differentiation among a wide range of bats across the Palaearctic region. A total of 16 distinct mitochondrial lineages were found in Mongolia. Thirteen lineages differed by at least five percent sequence divergence from Western Palaearctic species. Only three lineages (Eptesicus nilssonii, Vespertilio murinus, and Nyctalus noctula) showed lower divergence values. Our data demonstrate a substantial differentiation between most Western and Eastern Palaearctic vespertilionid bats. Estimations of divergence times showed that most divergence appeared prior to the Pleistocene, but current distributions of bats were most likely shaped by the usage of multiple refugia during glaciations.

Published

2012

12. Complementary ecosystem services provided by pest predators and pollinators increase quantity and quality of coffee yields

Author

Stefan W. Ferger, Julia Schmack, Matthias Schleuning, Ingolf Steffan-Dewenter, Maria Helbig-Bonitz, Genevieve Maassen, Katrin Böhning-Gaese, Alice Classen, Elisabeth K. V. Kalko, and Marcell K. Peters

Subjects

Pollination, Cash crop, Coffea, Biology, Tanzania, General Biochemistry, Genetics and Molecular Biology, Ecosystem services, Birds, Pollinator, Animals, Ecosystem, Herbivory, Pest Control, Biological, Research Articles, General Environmental Science, General Immunology and Microbiology, business.industry, Agroforestry, Coffea arabica, Diptera, Pest control, General Medicine, Bees, biology.organism_classification, Fruit, Predatory Behavior, Vertebrates, General Agricultural and Biological Sciences, business, Butterflies

Abstract

Wild animals substantially support crop production by providing ecosystem services, such as pollination and natural pest control. However, the strengths of synergies between ecosystem services and their dependencies on land-use management are largely unknown. Here, we took an experimental approach to test the impact of land-use intensification on both individual and combined pollination and pest control services in coffee production systems at Mount Kilimanjaro. We established a full-factorial pollinator and vertebrate exclosure experiment along a land-use gradient from traditional homegardens (agroforestry systems), shaded coffee plantations to sun coffee plantations (total sample size = 180 coffee bushes). The exclusion of vertebrates led to a reduction in fruit set of ca 9%. Pollinators did not affect fruit set, but significantly increased fruit weight of coffee by an average of 7.4%. We found no significant decline of these ecosystem services along the land-use gradient. Pest control and pollination service were thus complementary, contributing to coffee production by affecting the quantity and quality of a major tropical cash crop across different coffee production systems at Mount Kilimanjaro.

Published

2014

13. The third dimension of bat migration: evidence for elevational movements of Miniopterus natalensis along the slopes of Mount Kilimanjaro

Author

Elisabeth K. V. Kalko, Maria Helbig-Bonitz, Stephanie Kramer-Schadt, and Christian C. Voigt

Subjects

Male, biology, Ecology, Stable isotope ratio, Isoscapes, Altitude, Movement, Insectivore, biology.organism_classification, Tanzania, Miniopterus natalensis, Frugivore, Habitat, Isotopes, Chiroptera, Animals, Animal Migration, Female, Seasons, Ecology, Evolution, Behavior and Systematics, Sea level, Ecosystem, Hair

Abstract

Bats are important ecosystem service providers, and therefore most relevant for both lowland and highland habitats, particularly in the tropics. Yet, it is poorly understood to what extent they perform large-scale movements, especially movements along mountain slopes. Here, we studied the movement ecology of the potentially migratory species Miniopterus natalensis at Mount Kilimanjaro in Tanzania. We analysed stable isotope ratios of C (δ(13)C), N (δ(15)N) and H (δ(2)H) in keratin of sedentary frugivorous and insectivorous bats captured between 800 and 2,400 m above sea level to establish elevational gradients of stable isotope ratios in consumer tissues. We expected correlations between stable isotope ratios of the non-exchangeable portion of H in fur keratin and the elevation of capture site, but not necessarily for δ(13)C and δ(15)N. Yet, in bats of both feeding ensembles, we found δ(15)N of fur keratin to correlate positively with the elevation of capture sites but not δ(2)H. In frugivorous bats, δ(13)C increased with increasing capture elevation as well. By looking at intra-individual variation of δ(13)C and δ(15)N in fur keratin and wing membrane tissues of sedentary Rhinolophus cf. clivosus and of the potentially migratory species M. natalensis, we gathered evidence that M. natalensis migrates seasonally between low and high elevations along the slopes of Mount Kilimanjaro. Finally, based on an isoscape origin model we estimated that M. natalensis captured before and after the cold period at around 1,800 m above sea level originated from around 1,400 m a.s.l. or lower. Thus, we received convergent results in support of seasonal elevational movements of M. natalensis, probably in search for cold hibernacula at higher elevations of Mount Kilimanjaro.

Published

2012