Greater spear-nosed bats give group-distinctive calls

Abstract Individually distinctive vocalizations are ubiquitous; however, group distinctive calls have rarely been demonstrated. Under some conditions, selection should favor calls indicating social group membership in animals that forage in groups. Greater spear-nosed bats (Phyllostomus hastatus) give calls that appear to facilitate recognition of social group mates who are unrelated. Females give loud broadband (4–18 kHz) vocalizations termed screech calls when departing on foraging trips and at foraging sites. Screech calls help to establish foraging groups among social group members, and to maintain contact over the long distances they travel while foraging. I test two hypotheses about how screech calls may be structured to convey caller identity. Individual calls may be distinct and group members may learn to recognize each individual's calls and to associate the individual with the social group. Alternatively, groups may give distinct calls and individuals within groups may share call characteristics. To test these hypotheses I conducted multivariate acoustic analysis of multiple calls from 28 bats from three social groups. Although the ubiquity of individually distinctive calls in other taxa makes this result more likely, the results reveal that group calls are highly distinctive. Individual bats within groups are statistically indistinguishable. Calls appear to decrease slightly in frequency as bats age. Call convergence among unrelated group mates implies vocal learning in this species.

[1]  P. Marler Song Learning: Innate Species Differences in the Learning Process , 1984 .

[2]  S. Nowicki,et al.  Vocal plasticity in captive black-capped chickadees: the acoustic basis and rate of call convergence , 1989, Animal Behaviour.

[3]  M. Konishi The role of auditory feedback in the control of vocalization in the white-crowned sparrow. , 1965, Zeitschrift fur Tierpsychologie.

[4]  E. Morton Ecological Sources of Selection on Avian Sounds , 1975, The American Naturalist.

[5]  J. Bruce Falls,et al.  Individual recognition by song in white-throated sparrows. III. Song features used in individual recognition , 1975 .

[6]  A. Greenhall,et al.  A review of the bats of Trinidad and Tobago : descriptions, rabies infection, and ecology. Bulletin of the AMNH ; v. 122, article 3 , 1961 .

[7]  R. H. Wiley Song Groups in a Singing Assembly of Little Hermits , 1971 .

[8]  W. Rice ANALYZING TABLES OF STATISTICAL TESTS , 1989, Evolution; international journal of organic evolution.

[9]  D. Weary,et al.  Great tits classify songs by individual voice characteristics , 1992, Animal Behaviour.

[10]  M. A. Cunningham,et al.  The Biology of Bird-Song Dialects , 1985, Behavioral and Brain Sciences.

[11]  G. McCracken,et al.  Paternity and Genetic Heterogeneity in the Polygynous Bat, Phyllostomus hastatus , 1977, Science.

[12]  D. Griffin,et al.  The importance of atmospheric attenuation for the echolocation of bats (Chiroptera). , 1971, Animal behaviour.

[13]  Bertel Møhl Target Detection by Echolocating Bats , 1988 .

[14]  R. Seyfarth,et al.  Recognition of Individuals Within and Between Groups of Free-Ranging Vervet Monkeys1 , 1982 .

[15]  K. Esser Audio-vocal learning in a non-human mammal: the lesser spear-nosed bat Phyllostomus discolor. , 1994, Neuroreport.

[16]  R. B. Payne,et al.  Biological and cultural success of song memes in indigo buntings , 1988 .

[17]  R. B. Payne,et al.  Song copying and cultural transmission in indigo buntings , 1993, Animal Behaviour.

[18]  Gary F. McCracken,et al.  Vocal recognition in mexican free-tailed bats: do pups recognize mothers? , 1992, Animal Behaviour.

[19]  S. Green,et al.  Variation of Vocal Pattern with Social Situation in the Japanese Monkey (Macaca fuscata): A Field Study * , 1975 .

[20]  Emma L. Brindley,et al.  Response of European robins to playback of song: neighbour recognition and overlapping , 1991, Animal Behaviour.

[21]  R. Brigham,et al.  Intraspecific Variation in the Echolocation Calls of Two Species of Insectivorous Bats , 1989 .

[22]  P. Bloedel Observations on the Life Histories of Panama Bats , 1955 .

[23]  J. Krebs,et al.  Chick recognition in European bee-eaters: acoustic playback experiments , 1991, Animal Behaviour.

[24]  R. Haven Wiley,et al.  5 – Adaptations for Acoustic Communication in Birds: Sound Transmission and Signal Detection , 1982 .

[25]  W. M. Masters,et al.  Sonar signals of big brown bats, Eptesicus fuscus, contain information about individual identity, age and family affiliation , 1995, Animal Behaviour.

[26]  Richard A. Johnson,et al.  Applied Multivariate Statistical Analysis , 1983 .

[27]  Eugene S. Morton,et al.  Predictions From the Ranging Hypothesis for the Evolution of Long Distance Signals in Birds , 1986 .

[28]  J. Balcombe,et al.  Vocal recognition of pups by mother Mexican free-tailed bats, Tadarida brasiliensis mexicana , 1990, Animal Behaviour.

[29]  S. Green,et al.  Dialects in Japanese monkeys: vocal learning and cultural transmission of locale-specific vocal behavior? , 2010, Zeitschrift fur Tierpsychologie.

[30]  J. Ford,et al.  Acoustic behaviour of resident killer whales (Orcinus orca) off Vancouver Island, British Columbia , 1989 .

[31]  C. Packer,et al.  Female lions can identify potentially infanticidal males from their roars , 1993, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[32]  R. Dooling,et al.  Vocal plasticity in budgerigars (Melopsittacus undulatus): evidence for social factors in the learning of contact calls. , 1994, Journal of comparative psychology.

[33]  E. D. Brown,et al.  SONG SHARING IN A GROUP-LIVING SONGBIRD, THE AUSTRALIAN MAGPIE, GYMNORHINA TIBICEN. PART III. SEX SPECIFICITY AND INDIVIDUAL SPECIFICITY OF VOCAL PARTS IN COMMUNAL CHORUS AND DUET SONGS , 1991 .

[34]  R. Suthers,et al.  Individual Variation in Vocal Tract Resonance May Assist Oilbirds in Recognizing Echoes of Their Own Sonar Clicks , 1988 .