Abstract
Dense swarms of Daphnia longispina (up to 4000 animals l−1) were recorded along the littoral zone in a lake where Chaoborus flavicans is considered the main predator. D. longispina coexisted with D. pulex, but there were no D. pulex in the littoral swarms. Swarms were less dense at night (about 1/10 the density), and D. longispina exhibited diel horizontal migrations by aggregating in the littoral during the day and spreading out at night. Laboratory experiments showed that Chaoborus capture efficiency on juvenile daphnids was higher in the light compared to darkness, and that Daphnia exhibited a behavioural response to water that had previously contained Chaoborus. We conclude that predation from Chaoborus can be an important factor affecting the distribution patterns of Daphnia observed in this lake. The behavioural experiments indicated that this influence might be partly mediated by chemical agents.
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References
Butler, M. I. & C. Burns, 1993. Water mite predation on planktonic Cladocera: parallel curve analysis of functional responses. Oikos 66: 5–16.
Caraco, T. S., S. Martindale & H. R. Pulliam, 1980. Avian flocking in the presence of a predator. Nature 285: 400–401.
Davies, J., 1985. Evidence for a diurnal horizontal migration in Daphnia hyalina lacustris Sars. Hydrobiologia 120: 103–105.
De Meester, L., S. Maas, K. Dierckens & H. J. Dumont, 1993. Habitat selection and patchiness in Scapholebris: horizontal distribution and migration of S. mucronata in a small pond. J. Plankton Res. 15: 1129–1139.
Dodson, S., 1988. The ecological role of chemical stimuli for the zooplankton: Predator-avoidance behavior in Daphnia. Limnol. Oceanogr. 33: 1431–1439.
Giske, J., 1986. (In Norwegian). Populasjonsregulerende faktorer hos to arter Daphnia i et vann uteri planktivor fisk. Master thesis, Zoological Museum, University of Bergen.
Gliwicz, Z. M. & A. Rykowska, 1992. ‘Shore avoidance’ in zooplankton: a predator-induced behavior or predator-induced mortality? J. Plankton Res. 14: 1331–1342.
Hamilton, W. D., 1971. Geometry for the selfish herd. J. Theor. Biol. 31: 295–311.
Heller, R. & M. Milinski, 1979. Optimal foraging of sticklebacks on swarming prey. Anim. Behav. 27: 1127–1141.
Hobæk, A. & P. Larsson, 1990. Sex determination in Daphnia magna. Ecology 71: 2255–2268.
Humpries, D. A & P. M. Driver, 1967. Erratic display as a defence against predators. Science 156: 1767–1768.
Jakobsen, P. J. & G. H. Johnsen, 1987. The influence of predation on horizontal distribution of zooplankton species. Freshwat. Biol. 17: 501–508.
Jakobsen, P. J. & G. H. Johnsen, 1988a. Differences in individual protection against predation from fish in swarming Bosmina longispina. Anim. Behav. 36: 986–990.
Jakobsen, P. J. & G. H. Johnsen, 1988b. The influence of food limitation on swarming behaviour in the waterflea Bosmina longispina. Anim. Behav. 36: 991–995.
Kleiven, O.T., P. Larsson & A. Hobæk, 1995. Daphnia in the dark: the role of chemical signals in spatial distribution. (unpublished manuscript).
Larsson, P. & S. Dodson, 1993. Chemical communication in planktonic animals. Arch. Hydrobiol. 129: 129–155.
Loose, C., E. Elert & P. Dawidowicz, 1993. Chemically-induced diel vertical migration in Daphnia: a new bioassay for kairomones exuded by fish. Arch. Hydrobiol. 126: 329–337.
Milinski, M., 1979. Can an experienced predator overcome the confusion of swarming prey more easily? Anim. Behav. 27: 1122–1126.
Milinski, M. & R. Heller, 1978. Influence of a predator on the optimal foraging behaviour of sticklebacks (Gastrerosteus aculeatus L.). Nature 275: 642–644.
Murdoch, W. W., M. A. Scott & P. Ebsworth, 1984. Effects of the general predator, Notonecta (Hemiptera) upon a freshwater community. J. Anim. Ecol. 53: 791–808.
Neill, S. R. St. J. & J. M. Cullen, 1974. Experiments on whether schooling by their prey affects the hunting behaviour of cephalopods and fish predators. J. Zool. 172: 549–569.
Nilsen, M., 1980. Gjedda, Esox lucius L., i Myravatn. Populasjon, ernæring og reproduksjon. Master thesis, Zoological Museum, University of Bergen.
Pastorok, R. A.,1978. Predation by Chaoborus larvae and its impact on the zooplankton community. Ph. D. Dissertation, Univ. Washington, 238 pp.
Pennak, R. W., 1973. Some evidence for Aquatic macrophytes as repellents for a limnetic species of Daphnia. Int. Revue ges. Hydrobiol. 58: 569–576.
Pullian, H. R., 1973. The advantages of flocking. J. Theor. Biol. 38: 419–1122.
Siebeck, O., 1980. Optical orientation of pelagic crustaceans and its consequence in the pelagic and littoral zones. In Kerfoot, W. C. (ed.), Evolution of Zooplankton Communities. University Press of New England, Hanover, NH: 28–38 pp.
Swift, M. C. & R. B. Forward, 1981. Chaoborus prey capture efficiency in the light and dark. Limnol. Oceanogr. 26: 461–466.
Treisman, M., 1975a. Predation and the evolution of gregariousness. I. Models for concealment and evasion. Anim. Behav. 23: 779–800.
Treisman, M., 1975b. Predation and the evolution of gregariousness. II. An economic model for predator-prey interaction. Anim. Behav. 23: 801–825.
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Vetti Kvam, O., Kleiven, O.T. Diel horizontal migration and swarm formation in Daphnia in response to Chaoborus . Hydrobiologia 307, 177–184 (1995). https://doi.org/10.1007/BF00032010
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DOI: https://doi.org/10.1007/BF00032010