You are viewing this Order as classified by:

The following bibliography has been generated by bringing together all references provided by our content partners. There may be duplication.


  • Abele, L. G. 1991. Comparison of morphological and molecular phylogeny of the Decapoda. Memoirs of the Queensland Museum 31:101-108.
  • Abele, L. G. and B. E. Felgenhauer. 1986. Phylogenetic and phenetic relationships among the lower Decapoda. Journal of Crustacean Biology 6:385-400.
  • B. A. Menge, J. Lubchenco, S. D. Gaines and L. R. Ashkenas, A test of the Menge-Sutherland model of community organization in a tropical rocky intertidal food web, Oecologia (Berlin) 71:75-89, from p. 85 (1986).
  • Bowman, Thomas E., and Lawrence G. Abele / Lawrence G. Abele, ed. / Dorothy E. Bliss, ed.-in-chief. 1982. Chapter 1: Classification of the Recent Crustacea. The Biology of Crustacea, vol. 1: Systematics, the Fossil Record, and Biogeography. 1-27
  • C. A. Simenstad, J. A. Estes, K. W. Kenyon, Aleuts, sea otters, and alternate stable-state communities, Science 200:403-411, from p. 404 (1978).
  • Coll M, Piroddi C, Steenbeek J, Kaschner K, Ben Rais Lasram F, et al. 2010. The Biodiversity of the Mediterranean Sea: Estimates, Patterns, and Threats. PLoS ONE 5(8): e11842. doi:10.1371/journal.pone.0011842
  • Dixon, C. J., S. T. Ahyong, and F. R. Schram. 2003. A new hypothesis of decapod phylogeny. Crustaceana 76:935-975.
  • Feldmann, R. M. 2003. The Decapoda: New initiatives and novel approaches. Journal of Paleontology 77 (6):1021-1039.
  • Fujikura K, Lindsay D, Kitazato H, Nishida S, Shirayama. 2010. Marine Biodiversity in Japanese Waters. PLoS ONE 5(8): e11836. doi:10.1371/journal.pone.0011836
  • Griffiths CL, Robinson TB, Lange L, Mead A, 2010. Marine Biodiversity in South Africa: An Evaluation of Current States of Knowledge. PLoS ONE 5(8): e12008. doi:10.1371/journal.pone.0012008
  • Harun Yahya. 2002. Design in Nature. London: Ta-Ha Publishers Ltd. 180 p.
  • J. C. Castilla, Perspectivas de investigacion en estructura y dinamica de communidades intermareales rocosas de Chile Central. II. Depredadores de alto nivel trofico, Medio Ambiente 5(1-2):190-215, from p. 203 (1981).
  • J. N. Kremer and S. W. Nixon, A Coastal Marine Ecosystem: Simulation and Analysis, Vol. 24 of Ecol. Studies (Springer-Verlag, Berlin, 1978), from p. 12.
  • Kim, W. and L. G. Abele. 1990. Molecular phylogeny of selected decapod crustaceans based on 18S rRNA nucleotide sequences. Journal of Crustacean Biology 10:1-13.
  • L. D. Harris and L. Paur, A quantitative food web analysis of a shortgrass community, Technical Report No. 154, Grassland Biome. U.S. International Biological Program (1972), from p. 17.
  • Land MF; Nilsson D-E. 2002. Animal eyes. Oxford, UK: Oxford University Press. 221 p.
  • Link J (2002) Does food web theory work for marine ecosystems? Mar Ecol Prog Ser 230:1–9
  • Martin, J. W. and T. A. Haney. 2005. Decapod crustaceans from hydrothermal vents and cold seeps: a review through 2005. Zoological Journal of the Linnean Society 145(4):445-522.
  • Martin, Joel W., and George E. Davis. 2001. An Updated Classification of the Recent Crustacea. Natural History Museum of Los Angeles, Science Series 39. 124
  • Miller, A. D. and C. M. Austin. 2006. The complete mitochondrial genome of the mantid shrimp Harpiosquilla harpax, and a phylogenetic investigation of the Decapoda using mitochondrial sequences. Molecular Phylogenetics and Evolution 38(3):565-574.
  • Morrison, C.L., A. W. Harvey, S. Lavery, K. Tieu, Y. Huang and C.W. Cunnigham. 2002. Mitochondrial gene rearrangements confirm the parallel evolution of the crab-like form. Proceedings of the Royal Society of London Series B 269:345-350.
  • N. N. Smirnov, Food cycles in sphagnous bogs, Hydrobiologia 17:175-182, from p. 179 (1961).
  • N. V. Parin, Ichthyofauna of the Epipelagic Zone (Israel Program for Scientific Translations, Jerusalem, 1970; U.S. Department of Commerce Clearinghouse for Federal Scientific and Technical Information, Springfield, VA 22151), from p. 154.
  • Opitz S (1996) Trophic interactions in Caribbean coral reefs. ICLARM Tech Rep 43, Manila, Philippines
  • Porter, M. L., M. Pérez-Losada, and K. A. Crandall. 2005. Model-based multi-locus estimation of decapod phylogeny and divergence times. Molecular Phylogenetics and Evolution 37(2):355-369.
  • S. W. Nixon and C. A. Oviatt, Ecology of a New England salt marsh, Ecol. Monog. 43:463-498, from p. 491 (1973).
  • S. W. Nixon and C. A. Oviatt, Ecology of a New England salt marsh, Ecol. Monogr. 43:463-498, from p. 491 (1973).
  • S. Z. Qazim, Some problems related to the food chain in a tropical estuary. In: Marine Food Chains, J. H. Steele, Ed. (Oliver and Boyd, Edinburgh, 1970), pp. 45-51, from p. 50.
  • Scholtz, G. and S. Richter. 1995. Phylogenetic systematics of reptantian Decapoda (Crustacea, Malacostraca). Zoological Journal of the Linnean Society 113:289-328.
  • Schram, F. R. 2001. Phylogeny of decapods: moving towards a consensus. Hydrobiologia 449:1-20.
  • Shuker, KPN. 2001. The Hidden Powers of Animals: Uncovering the Secrets of Nature. London: Marshall Editions Ltd. 240 p.
  • T. Mizuno and J. I. Furtado, Food chain. In: Tasek Bera, J. I. Furtado and S. Mori, Eds. (Junk, The Hague, Netherlands, 1982), pp. 357-359, from p. 358.
  • Vogt K. 1980. Die Spiegeloptik des Flusskrebsauges. The optical system of the crayfish eye. Journal of Comparative Physiology. 135: 1-19.
  • W. E. Odum and E. J. Heald, The detritus-based food web of an estuarine mangrove community, In Estuarine Research, Vol. 1, Chemistry, Biology and the Estuarine System, Academic Press, New York, pp. 265-286, from p. 281 (1975).


EOL content is automatically assembled from many different content providers. As a result, from time to time you may find pages on EOL that are confusing.

To request an improvement, please leave a comment on the page. Thank you!