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

References

  • "Isoptera" Encyclopedia of Life, available from http://eol.org/pages/742/entries/29036845/details
  • "Nasutitermes corniger" Encyclopedia of Life, available from http://eol.org/pages/398488/details.
  • "Termite." Wikipedia. 2013. .
  • Abe, T. D. E. Bignell, M. Higashi, eds. 2000. Termites: Evolution, Sociality, Symbiosis, Ecology. Kluwer Academic Publishing, Dordrecht.
  • Annales du Jardin Botanique de Buitenzorg 6: 222. 1887. (Ann. Jard. Bot. Buitenzorg)
  • Attenborough, David. 1979. Life on Earth. Boston, MA: Little, Brown and Company. 319 p.
  • Bitsch, C. and C. Noirot. 2002. Gut characters and phylogeny of the higher termites (Isoptera: Termitidae). A cladistic analysis. Annales de la Societe Entomologique de France 38(3): 201-210.
  • Borror, Donald, Charles Triplehorn, and Norman Johnson. An Introduction to the Study of Insects. 6th ed. Saunders College Publishing, 1989. 234-241. Print.
  • Breznak, J. A. and A. Brune. 1994. Role of microorganisms in the digestion of lignocellulose by termites. Annual Review of Entomology 39:453-487.
  • Capinera, John. "Termites (Isoptera)." Encyclopedia of Entomology. 4. 2008.
  • Carpenter, F. M. 1992. Superclass Hexapoda. Volumes 3 and 4 of Part R, Arthropoda 4 of Treatise on Invertebrate Paleontology. Boulder, Colorado, Geological Society of America.
  • Crosland, M. W. J., N. Y. Su and R. H. Scheffrahn. 2005. Arolia in termites (Isoptera): functional significance and evolutionary loss. Insectes Sociaux 52(1): 63-66.
  • Desalle, R., J. Gatesy, W. Wheeler, and D. Grimaldi. 1992. DNA sequences from a fossil termite in Oligo-Miocene amber and their phylogenetic implications. Science 257(5078):1933-1936.
  • Donovan, S. E., D. T. Jones, W. A. Sands and P. Eggleton. 2000. The morphological phylogenetics of termites (Isoptera). Biological Journal of the Linnean Society 70:467–513.
  • E. Holm and C. H. Scholtz, Structure and pattern of the Namib Desert dune ecosystem at Gobabeb, Madoqua 12(1):3-39, from p. 21 (1980).
  • Eggleton, P. 1999. Termite species description rates and the state of termite taxonomy. Insectes Sociaux 46(1):1-5.
  • Eggleton, P. 2000. Global patterns of termite diversity. Pages 25-51 in: Termites: Evolution, Sociality, Symbioses, Ecology. T. Abe, D. E. Bignell, and M. Higashi, eds. Kluwer Academic Publishing, Dordrecht.
  • Eggleton, P. 2001. Termites and trees: a review of recent advances in termite phylogenetics. Insectes Sociaux 48:187-193.
  • Eggleton, P. and I. Tayasu. 2001. Feeding groups, lifetypes and the global ecology of termites. Ecological Research 16(5):941-960.
  • Eggleton, P., P. H. Williams, and K. J. Gaston. 1994. Explaining global termite diversity: productivity or history? Biodiversity and Conservation 3(4):318-330.
  • Emerson, A. E. 1952. The biogeography of termites. Bulletin of the American Museum of Natural History 99:217-225.
  • Emerson, A. E. 1955. Geographical origins and dispersions of termite genera. Fieldiana. Zoology 37:465-521.
  • Engel, M. and K. Krishna. 2004. Family-group names for termites (Isoptera). American Museum Novitates 3432:1-9.
  • Fontes, L. R. and M. Aparecida-Vulcano. 2004. Catalog of the fossil Isoptera of the New World. Sociobiology 44(2): 345-364.
  • Genise, J. F. and T. M. Bown. 1994. New trace fossils of termites (Insecta: Isoptera) from the late Eocene-early Miocene of Egypt, and the reconstruction of ancient isopteran social behavior. Ichnos 3:155-183.
  • Gould, James L; Gould, Carol Grant. 2007. Animal architects: building and the evolution of intelligence. New York: Basic Books. 324 p.
  • Grandcolas, P. and C. D'Haese. 2002. The origin of a 'true' worker caste in termites: phylogenetic evidence is not decisive. Journal of Evolutionary Biology 15(5):885-888.
  • Grandcolas, P. and C. D'Haese. 2004. The origin of a 'true' worker caste in termites: mapping the real world on the phylogenetic tree. Journal of Evolutionary Biology 17(2): 461-463.
  • Grassé, P. P. 1982-1986. Termitologia. Vol. I: Anatomie Physilogie Reproduction, 676 pp.; Vol. II: Fondation des Sociétés Construction, 613 pp.; Vol. III: Comportement Socialité Écologie Évolution Systématique, 715 pp. Paris: Masson.
  • Grimaldi, D. and M. S. Engel. 2005. Evolution of the Insects. Cambridge University Press.
  • Guiry, Michael D. (2014). Isoptera. In: Guiry, M.D. & Guiry, G.M. (2014). AlgaeBase. World-wide electronic publication, National University of Ireland, Galway (taxonomic information republished from AlgaeBase with permission of M.D. Guiry). Accessed through: World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=369802
  • Harris, W. V. 1961. Termites: Their Recognition and Control. Longmans Group Ltd., London. 186 pp.
  • Howse, P. E. 1970. Termites: A Study in Social Behavior. Hutchinson Univ. Library, London, 150 pp.
  • Huang, F., S. Zhu, and G. Li. 1987. Effect of continental drift on phylogeny of termites. Zoological Research 8(1):55-60.
  • Huang, F., S. Zhu, and G. Li. 1988. The morphology of the termite (Isoptera) and its taxonomic system. Zoological Research 9(3):301-307.
  • Hunt, J. H. and C. A. Nalepa. 1994. Nourishment and Evolution in Insect Societies. Westview Press, Boulder, Colorado.
  • I. K. Sharma, A study of ecosystems of the Indian desert, Trans. Indian Soc. Desert Technol. and Univ. Center Desert Stud. 5(2):51-55, from p. 52 and A study of agro-ecosystems in the Indian desert, ibid. 5:77-82, from p. 79 1980).
  • Inward DJG, Beccaloni GW, Eggleton P (2007) Death of an order: a comprehensive molecular
  • Inward, D. J. G., A. P. Vogler, and P. Eggleton. 2007. A comprehensive phylogenetic analysis of termites (Isoptera) illuminates key aspects of their evolutionary biology. Molecular Phylogenetics and Evolution. 44(3):953-967.
  • Jarzembowski, E. A. 1991. New insects from the Weald Clay of the Weald. Proceedings of the Geological Association 102(2):93-108.
  • Kambhampati, S. and P. Eggleton. 2000. Phylogenetics and Taxonomy. Pages 1-23 in: Termites: Evolution, Sociality, Symbioses, Ecology. T. Abe, D. E. Bignell, and M. Higashi, eds. Kluwer Academic Publishing, Dordrecht.
  • Kambhampati, S., K. M. Kjer, and B. L. Thorne. 1996. Phylogenetic relationship among termite families based on DNA sequence of mitochondrial 16S ribosomal RNA gene. Insect Molecular Biology 5(4):229-238.
  • Korb, J. and S. Katrantzis. 2004. Influence of environmental conditions on the expression of the sexual dispersal phenotype in a lower termite: implications for the evolution of workers in termites. Evolution and Development 6(5): 342-352.
  • Krishna, K. and F. M. Weesner. 1969-70. Biology of Termites, New York, 2 vols. Vol.I, 1969, 598 pp.; Vol.II, 1970, 643 pp.
  • Legendre, F., M. F. Whiting, C. Bordereau, E. M. Cancello, T. A. Evans. and P. Grandcolas. 2008. The phylogeny of termites (Dictyoptera: Isoptera) based on mitochondrial and nuclear markers: Implications for the evolution of the worker and pseudergate castes, and foraging behaviors. Molecular Phylogenetics and Evolution 48(2):615-627.
  • Lo, N. 2003. Molecular phylogenetics of Dictyoptera: insights into the evolution of termite eusociality and bacterial endosymbiosis in cockroaches. Entomologische Abhandlungen (Dresden) 61(2): 137-138.
  • Lo, N., G. Tokuda, H. Watanabe, H. Rose, M. Slaytor, K. Maekawa, C. Bandi, and H. Noda. 2000. Evidence from multiple gene sequences indicates that termites evolved from wood-feeding cockroaches. Current Biology 10(13):801-804.
  • Lo, N., O. Kitade, T. Miura, R. Constantino, and T. Matsumoto. 2004. Molecular phylogeny of the Rhinotermitidae. Insectes Sociaux 51(4): 365-371.
  • McKittrick, F. A. 1965. A contribution to the understanding of cockroach-termite affinities. Annals of the Entomological Society of America 58:18-22.
  • Nel, A. and J.-C. Paicheler. 1993. Les Isoptera fossiles. État actuel des connaissances, implications paléoécologiques et paléoclimatologiques. [Insecta, Dictyoptera]. Cahiers de Paléontologie, CNRS Editions, Paris.
  • Noirot, C. 1995. The gut of termites (Isoptera) - comparative anatomy, systematics, phylogeny. I. Lower Termites. Annales de la Société Entomologique de France 31(3):197-226.
  • Noirot, C. 1995. The sternal glands of termites: segmental pattern, phylogenetic implications. Insectes Sociaux 42(3):321-323.
  • Pearce, M. J. and B. S. Waite. 1994. A list of termite genera (Isoptera) with comments on taxonomic changes and regional distribution. Sociobiology 23(3):247-263.
  • Preston-Mafham, Rod, and Ken Preston-Mafham. "Termites."Encyclopedia of Insects and Spiders. San Diego: 2005.
  • Roisin, Y. 2001. Caste sex ratios, sex linkage, and reproductive strategies in termites. Insectes Sociaux 48:224-230.
  • Roonwal, M. L. and O. B. Chhotani. 1989. The Fauna of India and the Adjacent Countries: Isoptera (Termites). Volume I. Zoological Survey of India, Calcutta.
  • Roux, E. A. and J. Korb. 2004. Evolution of eusociality and the soldier caste in termites: a validation of the intrinsic benefit hypothesis. Journal of Evolutionary Biology 17(4): 869-875.
  • Schlüter, T. 1989. Neue Daten über harzkonservierte Arthropoden aus dem Cenomanium NW-Frankreichs. Documenta naturae 56:59-70.
  • Shellman-Reeve, J. S. 1997. The spectrum of eusociality in termites. Pages 52-93 in Evolution of Social Behaviour in Insects and Arachnids. J. C. Choe and B. J. Crespi, eds. Cambridge University Press, Cambridge.
  • Thompson, G. J., O. Kitade, N. Lo, and R. H. Crozier. 2000. Phylogenetic evidence for a single, ancestral origin of a 'true' worker caste in termites. Journal of Evolutionary Biology 13(6):869-881.
  • Thompson, G. J., O. Kitade, N. Lo, et al. 2004. On the origin of termite workers: weighing up the phylogenetic evidence. Journal of Evolutionary Biology 17(3): 720.
  • Thorne, B. L. 1990. A case for ancestral transfer of symbionts between cockroaches and termites. Proceedings of the Royal Society of London Series B 241(1300):37-41.
  • Thorne, B. L. 1991. Ancestral transfer of symbionts between cockroaches and termites: An alternative hypothesis. Proceedings of the Royal Society of London Series B 246(1317):191-196.
  • Thorne, B. L. 1996. Termite terminology. Sociobiology 28(3):253-263.
  • Thorne, B. L. 1997. Evolution of eusociality in termites. Annual Review of Ecology and Systematics 28:27-54.
  • Thorne, B. L. and J. M. Carpenter. 1992. Phylogeny of the Dictyoptera. Systematic Entomology 17(3):253-268.
  • Thorne, B. L., D. A. Grimaldi, and K. Krishna. 2000. Early fossil history of the termites. Pages 77-93 in: Termites: Evolution, Sociality, Symbioses, Ecology. T. Abe, D. E. Bignell, and M. Higashi, eds. Kluwer Academic Publishing, Dordrecht.
  • Waide RB, Reagan WB (eds) (1996) The food web of a tropical rainforest. University of Chicago Press, Chicago
  • Watson, J. A. L. and H. M. Abbey. 1993. Atlas of Australian Termites. CSIRO, Division of Entomology, Canberra.
  • Weesner, F. M. 1965. The Termites of the United States. A Handbook. National Pest Control Association, Virginia.
  • da Cunha, H. F., J. A. F. Diniz, D. Brandao, and T. G. Myles. 2000. Intergeneric comparative analyses of ecological and behavioral traits of termitidae (Isoptera). Sociobiology 35(3):447-456.
  • phylogenetic study confi rms that termites are eusocial cockroaches. Biology Letters 3: 331–335.
  • “Nasutitermes corniger.” Wikipedia, the Free Encyclopedia. Available from: http://en.wikipedia.org/wiki/Nasutitermes_corniger
  • “Termite.” Wikipedia, the Free Encyclopedia. Available from: http://en.wikipedia.org/wiki/Termite

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