System der
Lebewesen (Stefan Hintsche
2013)
Übersichtsbaum
Lepidosauria > Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Iguania > Pleurodonta > Corytophanidae
|
|
|
|
|
Corytophanidae |
|
|||
|
|
|
||
|
||||
|
|
|||
|
|
|
|
Familia Corytophanidae
Fitzinger, 1843 (Familie
Basilisken):
- 9 Arten
Genus Basiliscus Laurenti, 1768 (Gattung Eigentliche Basilisken):
- 4 Arten
Genus Corytophanes Boie, 1828 (Gattung Helmleguane):
- 3 Arten
Genus Laemanctus Wiegmann, 1834 (Gattung Kronenbasilisken):
- 2 Arten
Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Iguania > Pleurodonta > Corytophanidae > Basiliscus
Genus Basiliscus Laurenti, 1768 (Gattung Eigentliche Basilisken):
- 4 Arten
Basiliscus galeritus Duméril, 1851 (Ecuador-Basilisk/Red-headed Basilisk):
Basiliscus vittatus Wiegmann, 1828 (Streifenbasilisk/Striped Basilisk):
Basiliscus basiliscus (Linnaeus, 1758) (Helmbasilisk/Common Basilisk):
Basiliscus plumifrons Cope, 1876 (Stirnlappenbasilisk/Plumped Basilisk):
Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Iguania > Pleurodonta > Corytophanidae > Corytophanes
Genus Corytophanes Boie, 1828 (Gattung Helmleguane):
- 3 Arten
Corytophanes hernandesii (Wiegmann, 1831) (Masken-Helmleguan/Hernandez’s Helmeted Iguana):
Corytophanes cristatus (Merrem, 1820) (Glatter Helmleguan/Smooth
Helmeted Iguana):
Corytophanes percarinatus Duméril, 1856 (Guatemala-Helmleguan/Guatemalan
Helmeted Iguana):
Squamata > Bifuracta > Unidentata > Episquamata > Toxicofera > Iguania > Pleurodonta > Corytophanidae > Laemanctus
|
|
|
|
Laemanctus |
|
|
|
|
|
||
|
|
|
Genus Laemanctus Wiegmann, 1834 (Gattung Kronenbasilisken):
- 2 Arten
Laemanctus longipes Wiegmann, 1834 (Östlicher Kronenbasilisk/Eastern
Casquehead Iguana):
Laemanctus serratus Cope, 1864 (Gezackter Kronenbasilisk/Serrated
Casquehead Iguana):
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) Vieira, G. H. C., Colli, G. R. & Báo, S. N. (2005). Phylogenetic relationships of corytophanid lizards (Iguania, Squamata, Reptilia) based on
partitioned and total evidence analyses of sperm morphology, gross morphology,
and DNA data. Zoologica
Scripta 34
(6): 605-625.
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.