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Phylogeny morphological

Common phylogeny Morphologic-anatomical similarities Similar phytogeographic distribution Similar secondary metabolism... [Pg.6]

Nadler, S.A. and Hudspeth, D.S.S. (1998) Ribosomal DNA and phylogeny of the Ascaridoidea (Nemata Secernentea) implications for morphological evolution and classification. Molecular Phylogenetics and Evolution 10, 221-236. [Pg.30]

Sapp J (2007) Mitochondria and their host Morphology to molecular phylogeny. In Martin W, Muller M (eds) Origin of Mitochondria and Hydrogenosomes. Springer, Berlin Heidelberg New York, pp 57-84... [Pg.19]

Hoberg, E.P., Mariaux, J. and Brooks, D.R. (2001b) Phylogeny among orders of the Eucestoda (Cercomeromorphae) integrating morphology, molecules and total evidence. In Littlewood, D.T.J. and Bray, R.A. (eds) Interrelationships of the Platyhelminthes. Taylor Francis, London, pp. 112-126. [Pg.33]

Williams, J.B. (1994) Comparative study of sperm morphology and reproductive biology of Kronborgia and Temnocephala (Platyhelminthes, Neoophora) - implications for platyhelminth phylogeny. New Zealand Journal of Zoology 21, 179-194. [Pg.36]

Jousson, O., Bartoli, P. and Pawlowski, J. (1998) Molecular phylogeny of Mesometridae (Trematoda, Digenea) with its relation to morphological changes in parasites. Parasite 5, 365. [Pg.120]

Ghiselin, M. T., Summary of our current knowledge of metazoan phylogeny, in The hierarchy of life molecules and morphology in phylogenetic analysis, Fernholm, B., Bremer, K., and Jomvall, H., Eds., Exerpta Medica, Amsterdam, 1989, 261. [Pg.148]

Whiting M. F., Carpenter J. C., Wheeler Q. D. and Wheeler W. C. (1997) The Strepsiptera problem phylogeny of the holometabolous insect orders inferred from 18S and 28S ribosomal DNA sequences and morphology. Systematics Bulletin 46, 1-68. [Pg.445]

Mitochondria and Their Host Morphology to Molecular Phylogeny... [Pg.57]

Figure 2.22(B). A phylogeny for all species of the bonito + tuna clade proposed by Graham and Dickson (2000) and based upon both morphological and gene sequence data. Mapped onto this phylogeny are the character states associated with evolution of endothermy and evolution of expanded scope for activity. (Modified from Block, 1995, and Graham and Dickson, 2000.)... Figure 2.22(B). A phylogeny for all species of the bonito + tuna clade proposed by Graham and Dickson (2000) and based upon both morphological and gene sequence data. Mapped onto this phylogeny are the character states associated with evolution of endothermy and evolution of expanded scope for activity. (Modified from Block, 1995, and Graham and Dickson, 2000.)...
Shaffer, H.B., P. Meylan, and M.L. McKnight (1997). Tests of turtle phylogeny Molecular, morphological, and paleontological approaches. System. Biol. 46 235-268. [Pg.156]

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See also in sourсe #XX -- [ Pg.30 ]



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Phylogeny/phylogenies

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