System der
Lebewesen (Stefan Hintsche
2013)
Übersichtsbaum
Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Anguimorpha > Neoanguimorpha > Xenosauroidea > Xenosauridae
Familia Xenosauridae Cope, 1866 (Familie Höckerechsen):
- 10 Arten
Gattung Xenosaurus Peters, 1861 (Gattung Eigentliche Höckerechsen):
- 10 Arten
Bifuracta > Unidentata > Episquamata > Toxicofera > Anguimorpha > Neoanguimorpha > Xenosauroidea > Xenosauridae > Xenosaurus
Gattung Xenosaurus Peters, 1861 (Gattung Eigentliche Höckerechsen):
- 10 Arten
Xenosaurus agrenon (King & Thompson, 1968) (Oaxaca-Höckerechse/Oaxaca Knob-scaled Lizard):
Xenosaurus grandis (Gray, 1856) (Gemeine Höckerechse/Common Knob-scaled Lizard):
Xenosaurus mendozai Nieto-Montes de Oca, García-Vázquez, Zúñiga-Vega & Schmidt-Ballardo,
2013 (Mendoza-Höckerechse/Mendoza’s
Knob-scaled Lizard):
Xenosaurus newmanorum Taylor, 1949 (Newman-Höckerechse/Newman’s Knob-scaled Lizard):
Xenosaurus penai Pérez Ramos, de la Riva & Campbell, 2000 (Guerrero-Höckerechse/Guerrero
Knob-scaled Lizard):
Xenosaurus phalaroanthereon
Nieto-Montes de Oca, Campbell & Flores-Villela,
2001 (Acaltepec-Höckerechse/Acaltepec Knob-scaled Lizard):
Xenosaurus platyceps King & Thompson, 1968 (Flachkopf-Höckerechse/Flatheaded Knob-scaled Lizard):
Xenosaurus rackhami (Stuart, 1941) (Rackham-Höckerechse/Rackham’s Knob-scaled Lizard):
Xenosaurus rectocollaris Smith & Iverson, 1993 (Puebla-Höckerechse/Pallid Knob-scaled
Lizard):
Xenosaurus tzacualtipantecus
Woolrich-Piña & Smith, 2012 (Zacualtipán-Höckerechse/Zacualtipán Knob-scaled Lizard):
Referenzen:
1) Eidenmüller, B. & Philippen, H.-D. (2008). Warane und Krustenechsen. Edition Chimaira, Frankfurt am Main.
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)
Nieto-Montes de Oca, A., García-Vázquez, U. O., Zúñiga-Vega,
J. J. & Schmidt-Ballardo, W. (2013). A new species of Xenosaurus (Squamata: Xenosauridae) from the
Sierra Gordo biosphere reserve of Querétaro, Mexico. Revista Mexicana de Biodiversidad 84: 485-498.
7)
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.
8)
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.
9)
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.