Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/variability-in-echolocation-calls-of-pipistrellus-pygmaeus-chiroptera-2M7ge5BSaw
References (52)
-
H. Schnitzler, E. Kalko (2001)
Echolocation by Insect-Eating Bats, 51
-
P. Racey, S. Swift (1985)
Feeding ecology of Pipistrellus pipistrellus (Chiroptera: Vespertilionidae) during pregnancy and lactation. I. Foraging behaviourJournal of Animal Ecology, 54
-
J. Rydell (1993)
Variation in Foraging Activity of an Aerial Insectivorous Bat during ReproductionJournal of Mammalogy, 74
-
(1997)
Variabilité des cris sonar de Pipistrellus pipistrellus -
E. Cockrum, D. Griffin (1958)
Listening in the Dark -
(1995)
Variation in bat echolocation: implications for resource partitioning and communication -
(2002)
Acoustic communication of genus Pipistrellus -
K. Zbinden (1989)
Field Observations of the Flexibility of the Acoustic Behaviour of the European Bat Nyctalus noctula (Schreber, 1774)Revue Suisse De Zoologie, 96
-
Sf Oakeley, Gareth Jones (1998)
Habitat around maternity roosts of the 55 kHz phonic type of pipistrelle bats (Pipistrellus pipistrellus)Journal of Zoology, 245
-
Gareth Jones (1999)
Scaling of echolocation call parameters in bats.The Journal of experimental biology, 202 Pt 23
-
Kirsty Park, J. Altringham, Gareth Jones (1996)
Assortative roosting in the two phonic types of Pipistrellus pipistrellus during the mating seasonProceedings of the Royal Society of London. Series B: Biological Sciences, 263
-
M. Fenton (1984)
Echolocation: Implications for Ecology and Evolution of BatsThe Quarterly Review of Biology, 59
-
D. Pye (1980)
Adaptiveness of echolocation signals in batsTrends in Neurosciences, 3
-
(1989)
Bats and linear landscape elements -
G. Jones, S. Parijs (1993)
Bimodal echolocation in pipistrelle bats: are cryptic species present?Proceedings of the Royal Society of London. Series B: Biological Sciences, 251
-
Adrian Thomas, Gareth Jones, J. Rayner, P. Hughes (1990)
Intermittent gliding flight in the pipistrelle bat (Pipistrellus pipistrellus) (Chiroptera : Vespertilionidae)The Journal of Experimental Biology, 149
-
D. Sleep, R. Brigham (2003)
AN EXPERIMENTAL TEST OF CLUTTER TOLERANCE IN BATS, 84
-
R. Barclay, J. Fullard, D. Jacobs (1999)
Variation in the echolocation calls of the hoary bat (Lasiurus cinereus) : influence of body size, habitat structure, and geographic locationCanadian Journal of Zoology, 77
-
(2000)
Analysis of bat (Pipistrellus and Myotis spp.) activity in deciduous -
F. Mayer, O. Helversen (2001)
Sympatric distribution of two cryptic bat species across EuropeBiological Journal of The Linnean Society, 74
-
E. Kalko, H. Schnitzler (1993)
Plasticity in echolocation signals of European pipistrelle bats in search flight: implications for habitat use and prey detectionBehavioral Ecology and Sociobiology, 33
-
M. Fenton (1994)
Assessing signal variability and reliability: 'to thine ownself be true'Animal Behaviour, 47
-
G. Jones, T. Gordon, J. Nightingale (1992)
Sex and age differences in the echolocation calls of the lesser horseshoe bat, Rhinolophus hipposiderosMammalia, 56
-
Robert Barclay, R. Brigham (1991)
Prey Detection, Dietary Niche Breadth, and Body Size in Bats: Why are Aerial Insectivorous Bats so Small?The American Naturalist, 137
-
Gareth Jones, J. Rayner (1988)
Flight performance, foraging tactics and echolocation in free‐living Daubenton's bats Myotis daubentoni (Chiroptera: Vespertilionidae)Journal of Zoology, 215
-
M. Jensen, L. Miller, J. Rydell (2001)
Detection of prey in a cluttered environment by the northern bat Eptesicus nilssonii.The Journal of experimental biology, 204 Pt 2
-
L. Miller, H. Degn (1981)
The acoustic behavior of four species of vespertilionid bats studied in the fieldJournal of comparative physiology, 142
-
Gareth Jones, P. Hughes, J. Rayner (1991)
The development of vocalizations in Pipistrellus pipistrellus (Chiroptera: Vespertilionidae) during post-natal growth and the maintenance of individual vocal signaturesJournal of Zoology, 225
-
S. Swift (2009)
Activity patterns of Pipistrelle bats (Pipistrellus pipistrellus) in north-east ScotlandJournal of Zoology, 190
-
D. Pye (1980)
Adaptiveness of echolocation signals in bats Flexibility in behaviour and in evolutionTrends in Neurosciences, 3
-
Hiroyuki Shinnou (1998)
Revision of morphological analysis errors through the person name construction model -
B. Lawrence, J. Simmons (1982)
Measurements of atmospheric attenuation at ultrasonic frequencies and the significance for echolocation by bats.The Journal of the Acoustical Society of America, 71 3
-
(1981)
Biometry (2nd edition) -
M. Obrist (1995)
Flexible bat echolocation: the influence of individual, habitat and conspecifics on sonar signal designBehavioral Ecology and Sociobiology, 36
-
T. Sendor, I. Roedenbeck, S. Hampl, M. Ferreri, M. Simon (2002)
Revision of morphological identification of pipistrelle bat phonic types (Pipistrellus pipistrellus Schreber, 1774)Myotis, 40
-
R. Barclay (1986)
The echolocation calls of hoary (Lasiurus cinereus) and silver-haired (Lasionycteris noctivagans) bats as adaptations for long- versus short-range foraging strategies and the consequences for prey selectionCanadian Journal of Zoology, 64
-
(2000)
Analysis of bat ( Pipistrellus and Myotis spp . ) activity in deciduous woodland in England using a nonlinear model -
R. R. Sokal, F. J. Rohlf (1981)
Biometry -
A. Novick (1971)
Echolocation in bats: some aspects of pulse design.American scientist, 59 2
-
R. Sherwin, W. Gannon, Shauna Haymond (2000)
The efficacy of acoustic techniques to infer differential ose of habitat by batsActa Chiropterologica, 02
-
M. Fenton (1990)
The foraging behaviour and ecology of animal-eating batsCanadian Journal of Zoology, 68
-
J. Rydell (2010)
Behavioural Variation in Echolocation Pulses of the Northern Bat, Eptesicus nilssoniEthology, 85
-
M. O'farrell, C. Corben, W. Gannon (2000)
Geographic variation in the echolocation calls of the hoary bat ( Lasiurus cinereus)Acta Chiropterologica, 02
-
(1995)
Lern- und Übungskassette “Fledermausrufe in Bat-Detector -
K. Murray, E. Britzke, L. Robbins (2001)
VARIATION IN SEARCH-PHASE CALLS OF BATS, 82
-
R. Arlettaz, G. Jones, P. Racey (2001)
Effect of acoustic clutter on prey detection by batsNature, 414
-
B. Law, L. Reinhold, M. Pennay (2002)
Geographic Variation in the Echolocation Calls of Vespadelus spp. (Vespertilionidae) from New South Wales and Queensland, Australia, 4
-
N. Vaughan, Gareth Jones, S. Harris (1997)
Identification of British bat species by multivariate analysis of echolocation call parametersBioacoustics-the International Journal of Animal Sound and Its Recording, 7
-
E. Kalko (1994)
Coupling of Sound Emission and Wingbeat in Naturally Foraging European Pipistrelle bats (microchiroptera: VespertilionidaeFolia Zoologica, 43
-
M. Fenton, G. Bell (1981)
Recognition of Species of Insectivorous Bats by Their Echolocation CallsJournal of Mammalogy, 62
-
E. Kalko (1995)
Insect pursuit, prey capture and echolocation in pipestirelle bats (Microchiroptera)Animal Behaviour, 50
-
M. Jensen, L. Miller (1999)
Echolocation signals of the bat Eptesicus serotinus recorded using a vertical microphone array: effect of flight altitude on searching signalsBehavioral Ecology and Sociobiology, 47
- Publisher
- Springer Journals
- Copyright
- Copyright © 2004 by Mammal Research Institute, Bialowieza, Poland
- Subject
- Life Sciences; Zoology; Animal Physiology; Behavioural Sciences; Animal Ecology; Evolutionary Biology; Animal Anatomy / Morphology / Histology
- ISSN
- 0001-7051
- eISSN
- 2190-3743
- DOI
- 10.1007/BF03194478
- Publisher site
- See Article on Publisher Site
Abstract
The changes in echolocation behaviour and the structure of calls ofPipistrellus pygmaeus (Leach, 1825) were studied in different habitats of a floodplain forest in south-eastern Moravia (Czech Republic) in 2001–2002. Calls (403 observations) were recorded in different sites between April and mid June (before weaning) using a time expansion bat-detector. Three signals per individual were analysed and descriptive statistics of variables of calls were presented. Association of signal types with habitat structure (cluttered, side-cluttered, semi-cluttered and uncluttered space) was found in echolocation sequences of the search phase of flight.P. pygmaeus used mainly narrowband signals (bandwidths less than 15 kHz) in uncluttered space and wideband signals (more than 15 kHz) in cluttered space. Almost 6% of the inter pulse intervals of signals were twice (or more) longer than usual inter pulse intervals (mainly in uncluttered space). In general, temporal variables of signals reached higher values in uncluttered spaces (except for inter pulse interval) than in cluttered ones. On the contrary, spectral variables of signals reached lower values in uncluttered habitats in comparison with cluttered ones. In addition, the signals were less variable in open spaces while in cluttered and partly-cluttered habitats different and higher variability was found. We also studied the accuracy of identification of pipistrelles by call parameters and possible misidentifications in relation to habitat structure. Multivariate discriminant analyses were carried out on the time and frequency parameters of calls produced by pipistrelles.
Journal
Acta Theriologica – Springer Journals
Published: Dec 2, 2010