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Hydrobiologia

, Volume 595, Issue 1, pp 329–338 | Cite as

Global diversity of springtails (Collembola; Hexapoda) in freshwater

  • Louis Deharveng
  • Cyrille A. D’Haese
  • Anne Bedos
FRESHWATER ANIMAL DIVERSITY ASSESSMENT

Abstract

Water-dependency appeared independently in several clades of the class Collembola, which is basically of terrestrial origin according to recent phylogenetic analyses. Though moderately diversified (less than 8,000 species), Collembola are among the most numerous terrestrial arthropods in wetland communities, with a small number of species living on the surface of water. Many species are dependent on water-saturated atmosphere of caves, and on snow or ice in high mountains. A total of 525 water-dependent species have been recognized, of which 103 are linked to free freshwaters and 109 to anchialine or marine waters. Many interstitial species are also dependent to an unknown extent on water saturation in the deep layers of the soil. The numbers provided here are underestimates, as Collembola are extremely poorly known outside the Holarctis, and the ecology of described species usually not documented. However, a general biogeographical pattern is emerging from available data. The most remarkable feature is that about 15% of the fauna is water-dependent in the holarctic region, compared to 4% in the tropics and southern hemisphere.

Keywords

Collembola Wet habitats Biogeography 

Supplementary material

10750_2007_9116_MOESM1_ESM.doc (1.7 mb)
Sminthurides aquaticus (Bourlet). (a) Habitus; (b) distal part of first leg; (c) distal part of third leg; (d, e), distal part of dens with enlarged mucro (after Stach 1956) (DOC 1726 kb)

References

  1. Adams, E. C. G. & J. T. Salmon, 1972. The Mouth-parts and Feeding Methods of Brachystomella parvula (Schaeffer) (Collembola: Brachystomellidae). Transactions of the Royal Entomological Society, London 124(3): 269–286.Google Scholar
  2. Beck, L., 1976. Zum Massenwechsel der Makro-Arthropodenfauna des Bodens in Überschwemmungswäldern des Zemtralen Amazonasgebietes. Amazoniana 6: 1–20.Google Scholar
  3. Bretfeld, G., 1999. Symphypleona. In Dunger, W. (ed.), Synopses on Palaearctic Collembola, Vol. 2. Staatliches Museum für Naturkunde Görlitz 71: 1–318.Google Scholar
  4. Britt, N. W., 1951. Observations on the Life-history of the Collembolen Achorutes armatus. American Microscopic Society Transactions 70:119–132.CrossRefGoogle Scholar
  5. Carapelli, A., F. Frati, P. P. Fanciulli & R. Dallai, 2001. Taxonomic Revision of 14 South-western European Species of Isotomurus (Collembola, Isotomidae), with Description of Four New Species and the Designation of the Neotype for I. palustris. Zoologica Scripta 30: 115–143.CrossRefGoogle Scholar
  6. Cassagnau, P., 1961. Ecologie du sol dans les Pyrénées Centrales. Les Biocénoses de Collemboles. Hermann, Paris, 265 pp.Google Scholar
  7. Cassagnau, P., 1987. A Propos des Types de Coloration chez Isotomurus Palustris (Müller) (Collemboles). Revue d’Ecologie et de Biologie du Sol 24: 85–89.Google Scholar
  8. Cassagnau, P., 1990. Des Hexapodes Vieux de 400 Millions D’années: Les Collemboles. I. Biologie et Évolution. L’Année Biologique 29: 1–37.Google Scholar
  9. Christiansen, K. A., 1961. Convergence and Parallelism in Cave Entomobryinae. Evolution 15(3): 288–301.CrossRefGoogle Scholar
  10. Christiansen, K. A., 1965. Behavior and Form in the Evolution of Cave Collembola. Evolution 19: 529–537.CrossRefGoogle Scholar
  11. Christiansen, K. A. & P. F. Bellinger, 1998. The Collembola of North America, North of Rio Grande. Grinnell College, Grinnell, Iowa, 1520 pp.Google Scholar
  12. Christiansen, K. A. & R. J. Snider, 1996. Aquatic Collembola. In Merritt, R. W. & K. W. Cummins (eds), An Introduction to the Aquatic Insects of North America. Kendall/Hunt Publ., Iowa: 113–123.Google Scholar
  13. Coulson, S. J., I. D. Hodkinson, N. R. Webb & J. A. Harrison, 2002. Survival of Terrestrial Soil-dwelling Arthropods on and in Seawater: Implications for Trans-oceanic Dispersal. Functional Ecology 16(3): 353–356.Google Scholar
  14. Culver D. C., L. Deharveng, A. Bedos, J. J. Lewis, M. Madden, J. R. Reddell, B. Sket, P. Trontelj & D. White, 2006. The Mid-Latitude Biodiversity Ridge in Terrestrial Cave Fauna. Ecography 29: 120–128.CrossRefGoogle Scholar
  15. Deharveng, L., 1981. Collemboles des Iles Subantarctiques de l’Océan Indien. Biologie des sols, CNFRA 48: 33–108.Google Scholar
  16. Deharveng, L., 1988. Collemboles Cavernicoles VII.—Pseudosinella bessoni n.sp. et note sur L’évolution Morphologique de la Griffe Chez les Pseudosinella. Revue Suisse de Zoologie 95(1): 203–208.Google Scholar
  17. Deharveng, L., 2004. Recent Advances in Collembolan Systematics. Pedobiologia 48: 415–433.CrossRefGoogle Scholar
  18. Deharveng, L. & A. Bedos, 2004. Insecta: Collembola. In Yule, C.M. & H. S. Yong (eds), Freshwater Invertebrates of the Malaysian Region. Academy of Sciences, Malaysia: 384–393.Google Scholar
  19. Deharveng, L. & S. Lek, 1993. Remarques sur la Morphologie et la Taxonomie du Genre Isotomurus Börner, 1903 et Description de Deux Espèces Nouvelles de France (Collembola: Isotomidae). Annales de la Société entomologique de France 29: 245–259.Google Scholar
  20. Deharveng, L. & S. Lek, 1995. High Diversity and Community Permeability: The Riparian Collembola (Insecta) of a Pyrenean Massif. Hydrobiologia 312: 59–74.CrossRefGoogle Scholar
  21. Delamare Deboutteville, C., 1952. Données Nouvelles sur la Biologie des Animaux Cavernicoles. Notes biospéologiques 7: 15–20.Google Scholar
  22. D’Haese, C. A., 2002. Were the First Springtails Semi-aquatic? A Phylogenetic Approach by Means of 28S rDNA and Optimization Alignment. Proceedings of the Royal Society, London B 269: 1143–1151.CrossRefGoogle Scholar
  23. D’Haese, C. A., 2003. Morphological Appraisal of Collembola Phylogeny with Special Emphasis on Poduromorpha and a Test of the Aquatic Origin Hypothesis. Zoologica Scripta 32: 523–586.CrossRefGoogle Scholar
  24. Falkenhan, H.-H. & I. Fox, 1932. Biologische Beobachtungen an Sminthurides aquaticus (Collembola). Zeitschrift für wissenschaftliche zoologie 141(4): 525–580.Google Scholar
  25. Fauna Europaea Web Service, 2004. Fauna Europaea version 1.1, Available online at http://www.faunaeur.org.
  26. Fjellberg, A., 1985. Arctic Collembola I. Alaskan Collembola of the Families Poduridae, Hypogastruridae, Odontellidae, Brachystomellidae and Neanuridae. Entomologica Scandinavica Suppl. 21: 1–126.Google Scholar
  27. Fjellberg, A., 1994. The Collembola of the Norwegian Arctic Islands. Meddelelser 133: 1–57.Google Scholar
  28. Gisin, H., 1960. Collembolenfauna Europas. Museum d’Histoire Naturelle, Genève, 312 pp.Google Scholar
  29. Greenslade, P. J., 1994. Collembola. In Houston, W. W. K. (ed.), Zoological Catalogue of Australia, Vol. 22. Protura, Collembola, Diplura. CSIRO, Melbourne, Australia: 19–138.Google Scholar
  30. Handschin, E., 1931. XLVI. Hygrophile Collembolen aus Niederländisch-Indien. Archiv für Hydrobiologie. Tropische Binnengewässer suppl. 9: 472–490.Google Scholar
  31. Hirst, S. & S. Maulik, 1926. On some Arthropod Remains from the Rhynie Chert (Old Red Sandstone). Geological Magazine 63: 69–71.CrossRefGoogle Scholar
  32. Hopkin, S. P., 1997. Biology of the Springtails (Insecta: Collembola). Oxford University Press, 330 pp.Google Scholar
  33. Hopkin, S. P., 1998. Collembola: The Most Abundant Insects on Earth. Antenna 22: 117–121.Google Scholar
  34. Jacquemart, S. & J.-M. Jacques, 1980. A Propos d’un Collembole Entomobryen à la fois Marin et Désertique. Annales de la Société Royale Zoologique de Belgique 109 (1): 9–18.Google Scholar
  35. Janssens, F., 2006. Checklist of the Collembola: Taxonomical Speciation Rate. http://www.collembola.org/doc/history.htm.
  36. Jordana, R., J. I. Arbea, C. Simon & M. J. Luciañez, 1997. Collembola Poduromorpha. In Ramos, M. A. et al. (eds), Fauna Iberica, Vol. 8. Museo Nacional de Ciencas Naturales. CSIC, Madrid: 1–807.Google Scholar
  37. Juberthie, C., 2000. The Diversity of the Karstic and Pseudokarstic Hypogean Habitats in the World. In Wilkens, H., D. C. Culver & W. F. Humphreys (eds), Ecosystems of the World 30, Subterranean Ecosystems. Elsevier, Amsterdam: 17–39.Google Scholar
  38. Lek-Ang, S. & L. Deharveng, 2002. Seasonal Variations of Collembola (Hexapoda) Assemblages in Damp Riparian Habitats. Archiv für Hydrobiologie 153: 635–655.Google Scholar
  39. Lek-Ang, S., L. Deharveng & S. Lek, 1999. Predictive Models of Collembolan Diversity and Abundance in a Riparian Habitat. Ecological Modelling 120: 247–260.CrossRefGoogle Scholar
  40. Little, C., 1983. The Colonisation of Land. Origins and Adaptations of Terrestrial Animals. Cambridge University Press, Cambridge.Google Scholar
  41. Little, C., 1990. The Terrestrial Invasion. An Ecophysiological Approach to the Origins of Land Animals. Cambridge University Press, Cambridge.Google Scholar
  42. Mari Mutt, J. A. & P. F. Bellinger, 1990. A catalog of the Neotropical Collembola, Including Nearctic Areas of Mexico. Fauna & Flora Handbook 5. Sandhill Crane Press, Gainesville, Florida, 237 pp.Google Scholar
  43. Murphy, D. H., 1960. Collembola Symphypleona from the Gambia, with a Note on the Biogeography of Some Characteristic Savanna Forms. Proceedings of the Zoological Society of London 134: 557–594.CrossRefGoogle Scholar
  44. Murphy, D. H., 1966. Taxonomy and Bionomics of Eight Species of Sphaeridia (Collembola, Sminthuridae) in a Singapore Flood-plain. Revue d’Ecologie et de Biologie du Sol 3: 65–96.Google Scholar
  45. Murphy , D. H., 1990. “Walkers on Water” an Account of the Pleuston of Singapore. Essays in Zoology: 153–168.Google Scholar
  46. Noble-Nesbitt, P. J., 1963. Transpiration in Podura aquatica L. (Collembola) and the Wetting Properties of its Cuticle. Journal of Experimental Biology 40: 681–700.Google Scholar
  47. Palissa A., 2000. Collembola. In Susswasserfauna von Mitteleuropa, Band 10. Gustav Fischer Verlag, 166 pp.Google Scholar
  48. Petersen, H., 1994. A Review of Collembolan Ecology in Ecosystem Context. Acta Zoologica Fennica 95: 11–118.Google Scholar
  49. Petersen, H. & M. Luxton, 1982. A Comparative Analysis of Soil Fauna Populations and Their Role in Decomposition Processes. Oikos 39: 287–388.Google Scholar
  50. Potapov M., 2001. Isotomidae. In Dunger, W. (ed.), Synopses on Palaearctic Collembola, Vol. 3. Staatliches Museum für Naturkunde Görlitz 73: 1–603.Google Scholar
  51. Ruppel, H., 1953. Physiologische Untersuchungen uber die Bedeutung des Ventraltubusund die Atmung der Collembolen. Zoologische Jahrbuch 2: 537–542.Google Scholar
  52. Russell, D. J. & A. Griegel, 2006. Influence of Variable Inundation Regimes on Soil Collembola. Pedobiologia 50(2): 165–175.CrossRefGoogle Scholar
  53. Russell, D. J., A. Hauth & O. Fox, 2004. Community Dynamics of Soil Collembola in Floodplains of the Upper Rhine Valley. Pedobiologia 48(5–6): 527–536.CrossRefGoogle Scholar
  54. Sket, B., 2004. The Cave Hygropetric: A Little Known Habitat and Its Inhabitants. Archiv für Hydrobiologie 160: 413–425.CrossRefGoogle Scholar
  55. Stach, J., 1947. The Apterygotan Fauna of Poland in Relation to the World-fauna of this Group of Insects. Family: Isotomidae. Acta Monographica Museum Historia Naturalis, Krakow, 488 pp.Google Scholar
  56. Stach, J., 1956. The Apterygotan Fauna of Poland in Relation to the World-fauna of This Group of Insects. Family: Sminthuridae. Acta Monographica Museum Historia Naturalis, Krakow, 287 pp.Google Scholar
  57. Sterzynska, M. & R. Ehrnsberger, 1999. Diversity and Structure of Collembola Communities in Wetlands. In Tajovsky, K. & V. Pizl (eds), Soil Zoology in Central Europe. T. J. Posekany, Ceske Budejovice, Czech Republic: 325–334.Google Scholar
  58. Stork, N. E., 1988. Insect Diversity: Facts, Fictions and Speculation. Biological Journal of the Linnean Society 35: 321–337.Google Scholar
  59. Stork, N. E. & T. M. Blackburn, 1993. Abundance, Body Size and Biomass of Arthropods in Tropical Forest. Oikos 67: 483–489.CrossRefGoogle Scholar
  60. Strenzke, K., 1955. Thalassobionte und Thalassophile Collembola. Die Tierwelt der Nord und Ostsee 36: 1–52.Google Scholar
  61. Tamm, J. C., 1984. Surviving Long Submergence in the Egg Stage—a Successful Strategy of Terrestrial Arthropods Living on Flood Plains (Collembola, Acari, Diptera). Oecologia 61(3): 417–419.CrossRefGoogle Scholar
  62. Thibaud, J. M., 1970. Biologie et Écologie des Collemboles Hypogastruridae Édaphiques et Cavernicoles. Mémoires du Museum National d’Histoire Naturelle, Paris, Série A, Zoologie 61: 83–201.dfs.Google Scholar
  63. Thibaud, J. M. & E. Christian, 1997. Biodiversity of Interstitial Collembola (Insecta) in Sand Sediments. European Journal of Soil Biology 33: 123–127.Google Scholar
  64. Thibaud, J. M. & Z. Massoud, 1986. Insecta: Collembola. In Botosaneanu L. (ed.), Stygofauna Mundi. Brill/Backhuys, Leiden: 616–617.Google Scholar
  65. Thibaud J. M., H. J. Schulz & M. M. da Gama Assalino, 2004. Hypogastruridae. In Dunger, W. (ed.), Synopses on Palaearctic Collembola, Vol. 4. Staatliches Museum für Naturkunde Görlitz 75: 1–287.Google Scholar
  66. Yosii, R., 1971. Collembola of Khumbu Himal. Khumbu Himal 4: 80–130.Google Scholar
  67. Yosii, R., 1977. Critical Check List of the Japanese Species of Collembola. Contributions from the Biological Laboratory, Kyoto University 25: 141–170.Google Scholar
  68. Zimdars, B. & W. Dunger, 1994. Tullbergiinae. In Dunger, W. (ed.), Synopses on Palaearctic Collembola, Vol. 1. Staatliches Museum für Naturkunde Görlitz 68: 1–71.Google Scholar

Copyright information

© Springer Science+Business Media B.V. 2007

Authors and Affiliations

  • Louis Deharveng
    • 1
  • Cyrille A. D’Haese
    • 1
  • Anne Bedos
    • 1
  1. 1.UMR5202 CNRS, Origine, Structure et Evolution de la BiodiversitéMuséum National d’Histoire NaturelleParisFrance

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