TY - JOUR
T1 - Flying high - Assessing the use of the aerosphere by bats
AU - Kalko, Elisabeth K.V.
AU - Estrada Villegas, Sergio
AU - Schmidt, Michael
AU - Wegmann, Martin
AU - Meyer, Christoph F.J.
N1 - Funding Information:
We would like to thank the symposium organizers, Tom Kunz and Nickolay Hristov, for the invitation to participate in the SICB Symposium ‘‘Aeroecology: Probing and Modeling the Aerosphere—The Next Frontier’’. We further thank Brock Fenton and an anonymous reviewer for helpful comments on an earlier version of the manuscript and the many people who have contributed to the studies of bats at STRI, in particular Larissa Albrecht, Kirsten Jung, and Moritz Weinbeer. Financial support from several funding agencies is acknowledged, in particular from the Deutsche Forschungsgemeinschaft (DFG) and Smithsonian Trust Funds to EKV Kalko and the DAAD to Christoph Meyer and Kirsten Jung.
PY - 2008/7
Y1 - 2008/7
N2 - Bats feature prominently among organisms that occupy the aerosphere as they extensively use this environment for foraging, but also for dispersal, migration, and behavioral interactions. Differential use of the aerosphere is an important factor structuring bat assemblages, with species exhibiting distinct morphological, physiological, and sensory adaptations to different habitat types. This necessitates comprehensive sampling methodologies such as combined ground-level and canopy-level mist netting as well as acoustic monitoring to assess the presence, diversity, and activity of different functional groups of species adequately. Recent technological advances in acoustic detection and in methods of analysis, coupled with the expansion of libraries of echolocation calls for species identification, now allow for the reliable quantification of species numbers and activity of the scarcely known group of aerial insectivorous bats, particularly in species-rich tropical assemblages. We provide a brief, exemplary overview of recent studies on bats conducted in Panamá to demonstrate the necessity of comprehensive sampling methods and application of new technologies in order to adequately depict assemblage composition and responses of bats to structural changes in habitats induced by fragmentation. In addition to acoustic methods, miniaturization of radio transmitters has provided new insights into the patterns of spatial use of the aerosphere by bats and has identified species-specific differences in mobility as one of the important traits that determines bats' reactions to anthropogenic alterations of the landscape. Following the goals of the symposium on aeroecology, we propose new avenues of research for probing the aerosphere. We discuss how integration of a diverse array of remote sensing tools with data on species distribution and species traits, such as mobility and edge-sensitivity, might provide novel opportunities for the development, and application of conservation-oriented monitoring systems.
AB - Bats feature prominently among organisms that occupy the aerosphere as they extensively use this environment for foraging, but also for dispersal, migration, and behavioral interactions. Differential use of the aerosphere is an important factor structuring bat assemblages, with species exhibiting distinct morphological, physiological, and sensory adaptations to different habitat types. This necessitates comprehensive sampling methodologies such as combined ground-level and canopy-level mist netting as well as acoustic monitoring to assess the presence, diversity, and activity of different functional groups of species adequately. Recent technological advances in acoustic detection and in methods of analysis, coupled with the expansion of libraries of echolocation calls for species identification, now allow for the reliable quantification of species numbers and activity of the scarcely known group of aerial insectivorous bats, particularly in species-rich tropical assemblages. We provide a brief, exemplary overview of recent studies on bats conducted in Panamá to demonstrate the necessity of comprehensive sampling methods and application of new technologies in order to adequately depict assemblage composition and responses of bats to structural changes in habitats induced by fragmentation. In addition to acoustic methods, miniaturization of radio transmitters has provided new insights into the patterns of spatial use of the aerosphere by bats and has identified species-specific differences in mobility as one of the important traits that determines bats' reactions to anthropogenic alterations of the landscape. Following the goals of the symposium on aeroecology, we propose new avenues of research for probing the aerosphere. We discuss how integration of a diverse array of remote sensing tools with data on species distribution and species traits, such as mobility and edge-sensitivity, might provide novel opportunities for the development, and application of conservation-oriented monitoring systems.
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U2 - 10.1093/icb/icn030
DO - 10.1093/icb/icn030
M3 - Review article
AN - SCOPUS:47249101176
SN - 1540-7063
VL - 48
SP - 60
EP - 73
JO - Integrative and Comparative Biology
JF - Integrative and Comparative Biology
IS - 1
ER -