Skip to main content
SpringerLink
Log in

A field study of larval development in a dragonfly assemblage in African desert ponds (Odonata)

  • Published:
Hydrobiologia Aims and scope Submit manuscript

Abstract

Aquatic animals distributed along a 'habitat-permanence' gradient (HPG), differ in life history (Wellborn et al., 1996. Annual Revue of Ecology and Systematics 27: 337--363). Dragonflies that occur in hot arid regions often occur in temporary waters and consequently perform direct and rapid development. Dragonfly species of the Namibian desert do differ in their selection of habitats along the HPG and therefore may also differ in life cycle. Here, we attempt to monitor colonisation, larval growth and emergence in a temporary pond of known history. We studied the development of dragonfly species that laid eggs in artificial ponds constructed by us in March 2001. The assemblage consisted of species that originate from different habitats along the HPG. To obtain data on larval development we took samples from the ponds at 10-day intervals. Most species showed rapid development. By regressing the maximum sizes attained by larvae on each sampling date against time we estimated growth rates for five species and were thereby able to estimate that total duration of development from oviposition to emergence ranged between 38 and 70 days. Observation of first oviposition and first emergence for three of these species corroborated our estimates based on growth rate. Of few species, which laid eggs in the ponds no larvae or adults were found. For some this may have been the result of predation whereas others may not have grown fast enough to emerge before the ponds dried up. Our results indicate that dragonflies cannot recognise whether a pond will retain water long enough for full larval development and oviposit in waters that will not allow larval development.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Barnard, P.(ed.), 1998. Biological Diversity in Namibia-A Country Study. Namibian Biodiversity Task Force, Wind-hoek, 332 pp.

  • Benke, A.C., 1970. A method for comparing individual growth rates of aquatic insects with special reference to the Odonata. Ecology 51: 328-331.

    Article  Google Scholar 

  • Benke, A.C. & S.S. Benke, 1975. Comparative dynamics and the life histories of coexisting dragonfly populations. Ecology 56: 302-317.

    Article  Google Scholar 

  • Brendonck, L., E.Michels, L.De Meester & B.Riddoch, 2002. Temporary pools are not 'enemy free'. Hydrobiologia 456: 147-159.

    Article  Google Scholar 

  • Chowdury, S.H. & M. Jashimuddin, 1994. Morphometric studies on the larva of Acisoma panorpoides panorpoides (Rambur). In: Srivastava, V.K. (ed.), Advances in Oriental Odonatology. Cherry Publications, Allahabad: 69-76.

    Google Scholar 

  • Corbet, P.S., 1957. The life-history of the Emperor Dragon. y Anax imperator Leach (Odonata: Aeshnidae). Journal of Animal Ecology 26: 1-69.

    Article  Google Scholar 

  • Corbet, P.S., 1999. Dragonflies. Behaviour and ecology of Odonata. Harley Books, Colchester, 829 pp.

    Google Scholar 

  • Corbet, P.S., 2002. Stadia and growth ratios of Odonata: a review. International Journal of Odonatology 5: 45-73.

    Google Scholar 

  • Cowlishaw, G. & J.G. Daviers, 1997. Flora of the Pro-Namib Desert Swakop River catchment, Namibia: community classi cation and implications for desert vege-tation sampling. Journal of Arid Environments 36: 271-290.

    Article  Google Scholar 

  • Dudgeon, D., 1989. Gomphid (Odonata: Anisoptera)life cycles and production in a Hong Kong forest stream. Archiv fur Hydrobiologie 114: 531-536.

    Google Scholar 

  • Dumont, H.J., 1982. Relict distribution patterns of aquatic animals: another tool in evaluating late pleistocene climate changes in the Sahara and Sahel. Palaeoecology of Africa and Surrounding Islands 14: 1-24.

    Google Scholar 

  • El Rayah, E.A. & F.T. El Din Abu Shama, 1978. Notes on morphology and bionomy of the dragonfly, Trithemis an-nulata scortesii Nielsen (Odonata: Anisoptera), as a predator on mosquito larvae. Zeitschrift fur angewandte Entomologie85: 81-86.

    Google Scholar 

  • Fincke, O.M., 1992. Behavioural ecology of the giant dam-sel. ies of Barro Colorado Island, Panama (Odonata. Zy-goptera: Pseudostigmatidae). In Quintero, D. & A. Aiello (eds), Insects of Panama and Mesoamerica: Selected Studies. Oxford University Press, Oxford: 449-462.

    Google Scholar 

  • Fincke, O.M., 1994. Population regulation of a tropical dam-sel. y in the larval stage by food limitation, cannibalism, intraguild predation and habitat drying. Oecologia 100: 118-127.

    Article  Google Scholar 

  • Fincke, O.M., 1999. Organization of predator assemblages in Neotropical tree holes: e.ects of biotic factors and priority. Ecological Entomology 24: 12-23.

    Article  Google Scholar 

  • Forge, P., 1981. damselfly. Acta Oecologia Generalis2: 213-226.

    Google Scholar 

  • Gambles, R.M., 1960. Seasonal distribution and longevity in Nigerian dragonflies. Journal of the West African Scientific Association 6: 18-26.

    Google Scholar 

  • Gardner, A.E., 1951. The life-history of Sympetrum fonsco-lombii Selys. Odonata-Libellulidae. Entomologist 's Gazette 2: 56-66.

    Google Scholar 

  • Gardner, A.F., 1956. The biology of dragonflies. Proceedings and Transactions of the South London Entomological and Natural History Society 1554-1955: 109-134 +pls I-VII.

    Google Scholar 

  • Hassan, A.T., 1975. Studies on the larval development of Palpopleura lucia lucia, Acisoma panorpoides inflatum and Urothemis assignata (Anisopetra: Libellulidae)in a semi-natural environment. Nigererian Journal of Entomology 1: 143-146.

    Google Scholar 

  • Hassan, A.T., 1976. The effects of food on the larval devel-opment of Palpopleura lucia lucia (Drury)(Anisoptera: Li-bellulidae). Odonatologica 5: 27-33.

    Google Scholar 

  • Hawking, J.H. & B.A. Ingram, 1994. Rate of larval devel-opment of Pantala. avescens (Fabricius)at its southern limit of range in Australia (Anisoptera: Libellulidae). Odonato-logica 23: 63-68.

    Google Scholar 

  • Hodgkin, E.P. & J.A.L.Watson, 1958. Breeding of dragonflies in temporary waters. Nature 181: 1015-1016.

    Article  PubMed  Google Scholar 

  • Jacobson, P.J., K.M. Jacobson & M.K. Seely, 1995. Ephemeral rivers and their catchments. Desert Research Foundation of Namibia, 160 pp.

  • Jodicke, R., 2001. Saisonale Einnischung von Paragomphus ge-nei in Tunesien (Odonata: Gomphidae). Libellula 20: 13-22.

    Google Scholar 

  • Johansson, F. & L. Rowe, 1999. Life history and behavioural response to time constraints in a damselfly. Ecology 80: 1242-1252.

    Google Scholar 

  • Johansson, F. & F. Suhling, 2004. Behaviour and growth of dragonfly larvae along a permanent to temporary water habitat gradient Ecological Entomology 29: 196-202.

    Google Scholar 

  • Krishnaraj, R. & G. Pritchard, 1995. The influence of larval size, temperature, and components of the functional re-sponse to prey density on growth rates of the dragon. ies Lestes disjunctus and Coenagrion resolutum (Insecta: Odo-nata). Canadian Journal of Zoology 73: 1672-1680.

    Article  Google Scholar 

  • Kumar, A., 1976. Biology of Indian dragonflies with special reference to seasonal regulation and larval development. Bulletin of Entomology, New Dehli 3: 37-47.

    Google Scholar 

  • Kumar, A., 1984. On the life history of Pantala. avescens (Fabricius)(Libellulidae: Odonata). Annals of Entomology 2: 43-50.

    Google Scholar 

  • Lawton, J.H., B.A. Thompson & D.J. Thompson, 1980. The effects of prey density on survival and growth of damselfly larvae. Ecological Entomology 5: 39-51.

    Article  Google Scholar 

  • Martens, A., R. Jodicke & F.Suhling, 2003. An annotated checklist of the Odonata of Namibia. Cimbebasia 18: 139-160.

    Google Scholar 

  • Maurer, E.F. & A. Sih, 1996. Ephemeral habitats and variation in behavior and life history: comparisons of sibling sala-mander species. Oikos 76: 337-349.

    Article  Google Scholar 

  • McPeek, M.A., M. Grace & J.M.L. Richardson, 2001. Physiological and behavioural responses to predators shape the growth/predation risk trade-oflin damselflies. Ecology 82: 1535-1545.

    Article  Google Scholar 

  • Padeflke, T. & F. Suhling, 2003. Temporal priority and intra-guild predation in temporary waters: an experimental study using Namibian desert dragonflies. damselfly28: 340-347.

    Google Scholar 

  • Pritchard, G., L.D. Harder, A. Kortello & R. Krishnaraj, 2000. The response of larval growth rate to temperature in three species of Coenagrionid dragon. ies with some comments on 84. Lestes disjunctus (Odonata: Coenagrionidae). International Journal of Odonatology 3: 105-110.

    Google Scholar 

  • Robert, P.-A., 1958. Les Libellules (Odonata). Delachaux et Niestle, Neuchatel, 364 pp.

    Google Scholar 

  • Schnapau., I., K. Ullmann & F. Suhling, 2000. Die Libellen-Lebensgemeinschaft griechischer Reisfelder: Auswirkungen von Habitatdauer, Anbaumethode und Vegetationsdichte. Libellula Supplement 3: 63-80.

    Google Scholar 

  • Skelly, D.K., 1995. A behavioural trade-o. and its conse-quences for the distribution of Pseudacris treefrog tadpoles. Ecology 76: 150-164.

    Article  Google Scholar 

  • Stoks, R. & M.A. McPeek, 2003. Predators and life histories shape Lestes damselfly assemblages along a freshwater habitat gradient. Ecology 84: 1576-1587.

    Article  Google Scholar 

  • Stortenbeker, C.W., 1967. Observations on the population dynamics of the red locust, Nomadacris septemfasciata (Serville), in its outbreak areas. Agricological Research Re-port, Wageningen 694, 118 pp.

  • Suhling, F. & S. Lepkojus, 2001. Different growth and behav-iour influences asymmetric predation among early instar dragonfly larvae. Canadian Journal of Zoology 79: 854-860.

    Article  Google Scholar 

  • Suhling, F. & O. Muller, 1996. Die Fluβjungfern Europas (Gomphidae). Die Neue Brehm-Bucherei, Westarp, Magde-burg, 237 pp.

  • Suhling, F., R. Jodicke & W. Schneider, 2003. Odonata of African arid regions-are there desert species? Cimbebasia 18: 207-224.

    Google Scholar 

  • Testard, R., 1975. Note sur l 'emergence, le sex ratio et lactivite' des adultes de Mesogomphus genei Selys, dans le sud de l 'Espagne (Anisoptera: Gomphidae). Odonatologica 4: 11-26.

    Google Scholar 

  • Warren, A., 1915. A study on the food habits of Hawai-ian dragonflies. Bulletin of the Collection of Hawaii 3: 4-45.

    Google Scholar 

  • Wellborn, G.A., D.K. Skelly & E.E. Werner, 1996. Mecha-nisms creating community structure across a freshwater habitat gradient. Annual Revue of Ecology and Systematics 27: 337-363.

    Article  Google Scholar 

  • Wenger, O.-P., 1955. Uber die Entwicklung von Crocothemis erythrea Brulle (Odonata-Libellulidae). Bulletin de la So-cieteentomologique Suisse 28: 280-281.

    Google Scholar 

  • Williams, D.D., 1987. The Ecology of Temporary Waters. Croom Helm, London & Sydney, 193 pp.

    Google Scholar 

  • Williams, D.D., 1996. Environmental constraints in temporary fresh waters and their consequences for the insect fauna. Journal of the North American benthological Society 15: 634-650.

    Article  Google Scholar 

  • Wissinger, S.A., 1992. Niche overlap and the potential for competition and intraguild predation between size-struc-tured populations. Ecology 73: 1431-1444.

    Article  Google Scholar 

  • Wissinger, S.A., H.H. Whiteman, G.B. Sparks, G.L. Rouse & W.S. Brown, 1999. Foraging trade-o. s along a predator-permanence gradient in subalpine wetlands. Ecology 80: 2102-2116.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Zoologisches Institut, Technische Universität Braunschweig, Fasanenstrae 3, Braunschweig, Germany

    Frank Suhling, Kamilla Schenk, Tanja Padeffke & Andreas Martens

  2. Institut für Geoökologie, Technische Universität Braunschweig, Langer Kamp 19c, Braunschweig, Germany

    Frank Suhling

  3. Abteilung Biologie, Pädagogische Hochschule Karlsruhe, Bismarckstraße 10, Germany

    Andreas Martens

Authors
  1. Frank Suhling
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. Kamilla Schenk
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. Tanja Padeffke
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. Andreas Martens
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Suhling, F., Schenk, K., Padeffke, T. et al. A field study of larval development in a dragonfly assemblage in African desert ponds (Odonata). Hydrobiologia 528, 75–85 (2004). https://doi.org/10.1007/s10750-004-3047-8

Download citation

  • Issue Date:

  • DOI: https://doi.org/10.1007/s10750-004-3047-8

Search

Navigation