System der
Lebewesen (Stefan Hintsche
2013)
Übersichtsbaum
Lepidosauria > Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Iguania > Pleurodonta > Leiocephalidae
Familia Leiocephalidae Frost & Etheridge, 1989 (Familie Glattkopfleguane):
- 29 Arten
Genus Leiocephalus Gray, 1827 (Gattung
Eigentliche Glattkopfleguane):
- 29 Arten
Leiocephalus anonymous Pregill,
1984
Leiocephalus apertosulcus Etheridge,
1965
Leiocephalus barahonensis Schmidt,
1921
Leiocephalus carinatus Gray, 1827
Leiocephalus cubensis (Gray,
1840)
Leiocephalus cuneus Etheridge,
1964
Leiocephalus endomychus Schwartz,
1967
Leiocephalus eremitus (Cope, 1868)
Leiocephalus etheridgei Pregill,
1981
Leiocephalus greenwayi Barbour
& Shreve, 1935
Leiocephalus herminieri (Duméril
& Bibron, 1837)
Leiocephalus inaguae Cochran,
1931
Leiocephalus jamaicensis Etheridge,
1966
Leiocephalus loxogrammus (Cope, 1887)
Leiocephalus lunatus Cochran,
1934
Leiocephalus macropus (Cope, 1863)
Leiocephalus melanochlorus Cope, 1863
Leiocephalus onaneyi Garrido,
1973
Leiocephalus partidus Pregill,
1981
Leiocephalus personatus (Cope, 1863)
Leiocephalus pratensis (Cochran,
1928)
Leiocephalus psammodromus (Barbour,
1920)
Leiocephalus punctatus Cochran,
1931
Leiocephalus raviceps Cope, 1863
Leiocephalus rhutidira Schwartz,
1979
Leiocephalus schreibersii (Gravenhorst,
1837)
Leiocephalus
semilineatus Dunn, 1920
Leiocephalus
stictigaster Schwartz, 1959
Leiocephalus
vinculum Cochran, 1928
Referenzen:
1) Blankers,
T., Townsend, T. M., Pepe, K., Reeder, T. W. & Wiens, J. J. (2013). Contrasting global-scale evolutionary
radiations: phylogeny, diversification, and morphological evolution in the
major clades of iguanian lizards. Biological
Journal of the Linnean Society 108
(1): 127-143.
2) Fry, B. G.,
Vidal, N., Norman, J. A., Vonk, J., Scheib, H., Ramjan, S. F. R., Kuruppu, S.,
Fung, K., Hedges, S. B., Richardson, M. K., Hodgson, W. C., Ignjatovic, V.,
Summerhayes, R. & Kochva, E. (2006). Early evolution of the venom system in lizards and snakes. Nature 439: 584-588.
3) Hedges, S.
B. & Vidal, N.
(2009). Lizards, snakes, and amphisbaenians (Squamata). In: Hedges, S. B. &
Kumar, S. (Hrsg.): The Timetree of Life.
Oxford University Press, UK: pp. 383-389.
4) Hugall, A.
F., Foster, R. & Lee, M. S. Y. (2007). Calibration choice, rate smoothing, and the pattern of tetrapod
diversification according to the long nuclear gene RAG-1. Systematic Biology 56
(4): 543-563.
5) Kumazawa, Y. (2007). Mitochondrial genomes from
major lizard families suggest their phylogenetic relationships and ancient
radiations. Gene 388 (1-2): 19-26.
6) Townsend, T.
M., Larson, A., Louis, E. & Macey, J. R. (2004). Molecular phylogenetics of Squamata:
the position of snakes, amphisbaenians, and dibamids, and the root of the
Squamate tree. Systematic Biology 53 (5): 735-757.
7) Vidal, N.
& Hedges, S. B. (2005).
The phylogeny of squamate reptiles (lizards, snakes and amphisbaenians)
inferred from nine nuclear protein-coding genes. Comptes Rendus Biologies 328
(10-11): 1000-1008.
8) Wiens, J.
J., Kuczynski, C. A., Townsend, T., Reeder, T. W., Mulcahy, D. G. & Sites,
J. W. (2010). Combining
phylogenomics and fossils in higher-lever squamate reptile phylogeny: molecular
data change the placement of fossil taxa. Systematic
Biology 59 (6): 674-688.