Summary
Adaptations of three larval diptera in central Africa, each inhabiting rain-filled rock pools of characteristic duration, have been studied by field observation and experiment.
The duration of the pool is important in determining which of the three species is present. Large pools, lasting a few weeks after each rain, favour Chironomus imicola which has a larval life span of as little as twelve days. This species relies on egg laying female flies to re-invade newly filled pools. In cases where the pool lasts for a shorter time than the minimum larval life span a mechanism is needed to survive dry periods in situ. Such pools are inhabited by larvae of Polypedilum vanderplanki and Dasyhelea thompsoni. Larvae of P. vanderplanki are poor at invading newly flooded pools and are also poor at competing with other species. However they are able to tolerate virtually a complete loss of body water and are therefore able to survive drought in the dry mud. They are consequently always the first there after refilling, a factor that provides them with sufficient advantage to eventually become established in very small pools. D. thompsoni larvae, not quite so good at surviving drought, but better at invading, occupy pools of intermediate size. They probably inhabit a larger number of pools than either of the other two species.
A hazard associated with surviving dry phases in situ is vulverability to attack by terrestrial scavengers. However the activity of scavengers such as pheidolid ants, although conspicuous, is confined to periods when standing water has evaporated but the mud is still moist. Once dry, predation stops. Losses from this cause are therefore likely to be associated with periodic dry phases throughout the rainy season rather than with the dry season itself.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bailey NTJ (1959) Statistical methods in biology. English University Press, London
Beadle LC (1974) The inland waters of tropical Africa. An introduction to tropical limnology. Longman, London
Beaver RA (1977) Non-equilibrium ‘island’ communities: Diptera breeding in dead snails Journal of Animal Ecology 46: 783–798
Belke D, Cole GA (1975) Adaptional biology of desert temporary pond inhabitants. Environmental physiology of desert organisms M.L. Hadley (ed) Hutchinson, Ross and Dowden: Pennsylvania p 207–226
Buck J (1965) Hydration and respiration in chironomid larvae. Journal of Insect physiology 11: 1503–1516
Cantrell MA, McLachlan AJ (1977) Competitive interactions between invading midge larvae (Diptera: Chironomidae) in a new reservoir. Oikos 29: 429–433
Disney RHL (1974) A midge (Diptera: Ceratopogonidae) new to Britain that is abundant in the limestone pavement of the Yorkshire Pennines. Entomologists' Monthly Magazine 110: 227–228
Elton C (1958) The ecology of invasion by animals and plants. Methuen, London
Hartland-Rowe R (1972) The limnology of temporary waters and the ecology of Euphyllopoda. Essays in Hydrobiology. RB Clark and RJ Wootan (eds), James Townsend and Sons: Exeter p 15–31
Hinton HE (1968) Reversible suspension of metabolism and the origin of life. Proceedings of the Royal Society. London (B) 171: 43–47
Ikeshoji T (1974) Isolation and identification of overcrowding factors of chironomid larvae. Japenese Journal of Sanitary Zoology 24: 201–206
Jones RE (1975) Dehydration in an Australian rock pool chironomid larva (Paraborniella tonnoiri). Journal of Entomology (A), 49: 111–119
Macan TT (1962) Why do some pieces of water have more Corixidae than others? Archiv für Hydrobiologie 58: 224–232
MacArthur RH, Wilson EO (1967) The theory of Island Biogeography. Princeton University Press, Princeton
McLachlan AJ (1974) Development of some lake ecosystems in tropical Africa, with special reference to the invertebrates. Biological Reviews, 49: 365–397
McLachlan AJ (1981) Food sources and foraging tactics in tropical rain pools. Zoological Journal of the Linnean Society in press
Putman RJ (1977) Dynamics of the blowfly, Calliphora erythrocephala, within carrion. Journal of Animal Ecology 46: 853–866
Williams DD, Hynes HBN (1976) The ecology of temporary streams I. The fauna of two Canadian streams. Internationale Revue der gesamten Hydrobiologie 61: 761–788
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
McLachlan, A.J., Cantrell, M.A. Survival strategies in tropical rain pools. Oecologia 47, 344–351 (1980). https://doi.org/10.1007/BF00398528
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00398528