Abstract
The northern bat Eptesicus nilssonii normally hunts flying insects in the air using frequency-modulated echolocation calls. It is also known to detect and catch visually conspicuous prey (white moths) hovering low among grass stalks. To overcome the problem with acoustic clutter from the grass, which interferes with target echo detection, the bats make use of visual cues in addition to those of echolocation. We therefore investigated the minimum size of prey that the bats could distinguish by using vision, by presenting the bats with different sized dead and spread moths. We found that vision increased the chance of detection only when the moths had a wingspan of at least 5 cm. Smaller targets were detected using echolocation alone. The mean detection range was 3.5 m, suggesting that the bats need a visual acuity of 49′ of arc to detect the prey. This is consistent with results of optomotor response tests and counts of retinal ganglion cells in closely related species. Our results suggest that the visual acuity of Eptesicus bats may not be adequate for prey detection under normal conditions, but that the bats can use vision when the prey is unusually large and conspicuous. The northern bats display a flexibility in prey detection techniques not previously recognised among aerial-hawking bats and they are able to use their full visual capacity in the field.
This is a preview of subscription content, log in via an institution to check access.
References
Andersson S, Rydell J, Svensson MGE (1998) Light, predation and the lekking behaviour of the ghost swift Hepialus humuli (L.) (Lepidoptera: Hepialidae). Proc R Soc Lond B 265:1345–1351
Arlettaz R, Jones G, Racey PA (2001) Effect of acoustic clutter on prey detection by bats. Nature 414:742–745
Bell GP (1985) The sensory basis of prey location by the California leaf-nosed bat Macrotus californicus (Chiroptera: Phyllostomidae). Behav Ecol Sociobiol 16:343–348
Bell GP, Fenton MB (1986) Visual acuity, sensitivity and binocularity in a gleaning insectivorous bat, Macrotus californicus (Chiroptera: Phyllostomidae). Anim Behav 34:409–414
Eklöf J, Jones G (2003) Use of vision in prey detection by brown long-eared bats Plecotus auritus. Anim Behav 66 (in press)
Eklöf J, Svensson AM, Rydell J (2002) Northern bats (Eptesicus nilssonii) use vision but not flutter-detection when searching for prey in clutter. Oikos 99:347–351
Ellins SR, Masterson FA (1974) Brightness discrimination thresholds in the bat, Eptesicus fuscus. Brain Behav Evol 9:248–263
Jensen ME, Miller LA, Rydell J (2001) Detection of prey in clutter by the northern bat, Eptesicus nilssonii. J Exp Biol 204:199–208
Joermann G, Schmidt U, Schmidt C (1988) The mode of orientation during flight and approach to landing in two Phyllostomid bats. Ethology 78:332–340
Kalko EKV, Schnitzler HU (1993) Plasticity of echolocation signals of European pipistrelle bats in search flight: implications for habitat use and prey detection. Behav Ecol Sociobiol 33:415–428
Kick S (1982) Target-detection by the echolocating bat, Eptesicus fuscus. J Comp Physiol A 145:432–435
Koay G, Kearns D, Heffner HE, Heffner RS (1998) Passive sound-localization ability of the big brown bat (Eptesicus fuscus). Hearing Res 119:37–48
Lawrence BD, Simmons JA (1982) Measurements of atmospheric attenuation at ultrasonic frequencies and the significance for echolocation by bats. J Acoust Soc Am 71:585–590
Manske U, Schmidt U (1976) Untersuchungen zur optischen Musterunterscheidung bei der Vampirfledermaus, Desmodus rotundus. Z Tierpsychol 49:120
Pettigrew JD, Dreher B, Hopkins CS, McCall MJ, Brown M (1988) Peak density and distribution of ganglion cells in the retinae of microchiropteran bats: implications for visual acuity. Brain Behav Evol 32:39–56
Rydell J (1989) Food habits of northern (Eptesicus nilssonii) and brown long-eared bats (Plecotus auritus) in Sweden. Holarct Ecol 12:16–20
Rydell J (1998) Bat defence in lekking ghost swift (Hepialus humuli), a moth without ultrasonic hearing. Proc R Soc Lond B 265:1373–1376
Suthers RA (1966) Optomotor responses by echolocating bats. Science 152:1102–1104
Suthers RA (1970) Vision, olfaction and taste. In: Wimsatt WA (ed) Biology of bats, vol II. Academic Press, New York, pp 265–281
Suthers RA, Wallis NE (1970) Optics of the eyes of echolocating bats. J Vision Res 10:1165–1173
Acknowledgements
We acknowledge the landowners whose hay fields we disrupted, T. Tranefors for practical help, and M.B. Fenton and C.V. Portfors for giving us access to unpublished data. The work was funded by the Science Research Council of Sweden.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Rydell, J., Eklöf, J. Vision complements echolocation in an aerial-hawking bat. Naturwissenschaften 90, 481–483 (2003). https://doi.org/10.1007/s00114-003-0464-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00114-003-0464-x