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The Importance of Amazonian Floodplain Forests for Animal Biodiversity: Beetles in Canopies of Floodplain and Upland Forests

  • Joachim Adis†
  • Terry L. Erwin
  • Leandro D. Battirola
  • Suzana M. Ketelhut
Chapter
Part of the Ecological Studies book series (ECOLSTUD, volume 210)

Abstract

Thirty-one years ago T.L. Erwin, J. Adis and G.G. Montgomery obtained about 50,000 arthropods by fogging the canopy with natural pyrethrum along transects in four forest types of Central Amazonia. A first study of nearly 5,000 adult Coleoptera specimens indicated a low similarity of beetle species between forest types and a predominance of herbivores (Erwin 1983). This material has now been restudied to allow an ecological comparison in more detail.

Keywords

Forest Type Herbivore Species Beetle Species Upland Forest Terra Firme 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Notes

Acknowledgments

Warren E. Steiner Jr. and Gary F. Hevel, Smithsonian Institution, Washington D.C./USA are heartily thanked for their help received regarding handling and collection management of the beetle material investigated. Prof. Dr. Carlos F. Sperber, Federal University of Viçosa/Brazil, is thanked for statistical advice regarding species patchiness.

References

  1. Adis J (1981) Comparative ecological studies of the terrestrial arthropod fauna in Central Amazonian inundation-forests. Amazoniana 7(2):87–173Google Scholar
  2. Adis J (2002) Amazonian Arachnida and Myriapoda – identification keys to all classes, orders, families, some genera, and lists of known terrestrial species. Pensoft Publishers, Sofia, p 590Google Scholar
  3. Alonso-Zarazaga MA, Lyal HC (1999) A world catalogue of families and genera of Curculionoidea (Insecta: Coleoptera) (Exepting Scolytidae and Platypodiae). Entomopraxis, Barcelona, p 315. http://wtaxa.csic.es/
  4. Amaral IL, Adis J, Prance GT (1997) On the vegetation of a seasonal mixedwater inundation forest near Manaus, Brazilian Amazonia. Amazoniana 14(3/4):335–347Google Scholar
  5. Colwell RK (2005) Estimates: statistical estimation of species richness and shared species from samples. http://viceroy.eeb.uconn.edu/estimates
  6. Downum K, Lee D, Hallé F, Quirke M, Towers N (2001) Plant secondary compounds in the canopy and understorey of a tropical rain forest in Gabon. J Trop Ecol 17:477–481CrossRefGoogle Scholar
  7. Erwin TL (1983) Beetles and other insects of tropical forest canopies at Manaus, Brazil, sampled by insecticidal fogging. In: Sutton SL, Whitmore TC, Chadwick AC (eds) Tropical rainforest: ecology and management, pp 59–75. Blackwell Scientific, Oxford, p 498Google Scholar
  8. Farrell BD, Erwin TL (1988) Leaf-beetle community structure in an amazonian rainforest canopy. In: Jolivet P, Petitpierrre E, Hsiao TH (eds) Biology of chrysomelidae, pp 73–90. Kluwer, Dordrecht, p 615Google Scholar
  9. Furch K (1997) Chemistry of várzea and igapó soils and nutrient inventory of their floodplain forests. In: Junk WJ (ed) The Central Amazon floodplain: ecology of a pulsing system. Ecolog Stud 126:47–68. Springer, Berlin/Heidelberg/New YorkGoogle Scholar
  10. Gage JD, McAleece N (1979) Biodiversity professional. The National Museum of natural history, London. http://www.worldagroforestrycentre.org/sites/rsu/resources/biodiversity/software/biodiversityprofessional.asp
  11. Janzen DH (1974) Tropical blackwater rivers, animals and mast fruiting by the Dipterocarpaceae. Biotropica 6:69–103CrossRefGoogle Scholar
  12. Janzen DH (2003) How polyphagous are Costa Rican forest saturniid caterpillars? In: Basset, Y., Novotny, V., Miller, S.E. & R.L. Kitching (eds) Arthropods of tropical forests. Spatio-temporal dynamics and resource use in the canopy, pp 369–379. Cambridge University Press, Cambridge, p 474Google Scholar
  13. Junk WJ, Barley PB, Sparks RE (1989) The flood-pulse concept in river-floodplain systems. Can Spec Publ Fish Aquat Sci 106:110–127Google Scholar
  14. Kirmse S, Adis J, Morawetz W (2003) Flowering events and beetle diversity in Venezuela. In: Basset Y, Novotny V, Miller SE, Kitching RL (eds) Arthropods of tropical forests. Spatio-temporal dynamics and resource use in the canopy, pp 256–265. Cambridge University Press, Cambridge, p 474Google Scholar
  15. Magurran AE (1988) Ecological diversity and its measurement. Chapman & Hall, London, p 179CrossRefGoogle Scholar
  16. Prance GT (1979) Notes on the vegetation of Amazonia. 3. The terminology of Amazonian forest types subject to inundation. Brittonia 31:26–38CrossRefGoogle Scholar
  17. Ribeiro JE, Hopkins M, Vicentini A, Sothers CA, Costa MA, Brito JM, Souza MA, Martins LH, Lohmann LG, Assunção PA, Pereira E, Silva CF, Mesquita MR, Procópio LC (1999) Flora da Reserva Ducke Guia de identificacão das plantas vasculares de uma floresta de terra firme na Amazônia Central. INPA-DFID, ManausGoogle Scholar
  18. Worbes M (1997) The forest ecosystem of the floodplains. In: Junk WJ (ed) The central Amazon floodplain: ecology of a pulsating system. Ecolog Stud 126:223–265. Springer, Berlin/Heidelberg/New YorkGoogle Scholar

Copyright information

© Springer Science+Business Media B.V. 2010

Authors and Affiliations

  • Joachim Adis†
    • 1
  • Terry L. Erwin
    • 2
  • Leandro D. Battirola
    • 3
  • Suzana M. Ketelhut
    • 4
  1. 1.Max Planck Institute for LimnologyPlönGermany
  2. 2.Department of EntomologyNational Museum of Natural History, Smithsonian InstitutionWashingtonUSA
  3. 3.Federal University of the Goiás StateGoiâniaBrazil
  4. 4.National Institute of Amazon Research (INPA)ManausBrazil

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