System der
Lebewesen (Stefan Hintsche
2013)
Übersichtsbaum
Artiofabula > Cetruminantia > Whippomorpha > Cetacea > Mysticeti > Balaenopteroidea > Cetotheriidae > Neobalaeninae > Caperea
Cetotheriidae |
|
Neobalaeninae |
|
Caperea |
|
|
|
|
|
Familia Cetotheriidae Brandt,
1872 (Familie Zwergbartenwale):
- 1 Art
Subfamilia Neobalaeninae Gray,
1873 (Unterfamilie
Zwergglattwale):
- 1 Art
Genus Caperea Gray, 1864
(Gattung Eigentliche Zwergglattwale):
- 1 Art
Caperea marginata (Gray, 1846) (Zwergglattwal/Pygmy Right Whale):
-
Bestand:
Daten defizitär
- Verbreitung: Südpazifik (Austalien; Neuseeland; Chile), Südatlantik (Argentinien; Falkland-Inseln; Namibia, Südafrika)
Referenzen:
1)
Agnarsson, I. & May-Collado, L. J. (2008). The phylogeny of
Cetartiodactyla: the importance of dense taxon sampling, missing data, and the
remarkable promise of cytochrombe b to provide reliable species-level
phylogenies. Molecular Phylogenetics and
Evolution 48 (): 964-985.
2)
Brown, D. M., Brenneman, R. A., Koepfli, K.-P.,
Pollinger, J. P., Milá, B., Georgiadis, N. J., Louis Jr., E. E., Grether, G.
F., Jacobs, D. K. & Wayne, R. K. (2007). Extensive population genetic structure in the giraffe. BMC Biology 5 (57): 1-13.
3)
Decker, J. E., Pires, J. C., Conant, G. C., McKay, S.
D., Heaton, M. P., Chen, K., Cooper, A., Vilkki, J., Seabury, C. M., Caetano,
A. R., Johnson, G. S., Brenneman, R. A., Hanotte, O., Eggert, L. S., Wiener,
P., K. J.-J., Kim, K. S., Sonstegard, T. S., Tassell, C. P., Neibergs, H. L.,
McEwan, J. C., Brauning, R., Coutinho, L. L., Babar, M. E., Wilson, G. A.,
McClure, M. C., Rolf, M. M., Kim, JW., Schnabel, R. D. & Taylor, J. F. (2009). Resolving the evolution of
extant and extinct ruminants with high-troughput phylogenomics. Proceedings of the National Academy of
Sciences 106 (44): 18644-18649.
4)
Fordyce, R. E. & Marx, F. G. (2013). The pygmy right whale Caperea
marginata: the last of the cetotheres. Proceedings
of the Royal Society B 280
(1753): 20122645.
5)
Hassanin, A. & Douery, E. J. P. (2003). Molecular and morphological
phylogenies of Ruminantia and the alternative position of the Moschidae. Systematic Biology 52 (2): 206-228.
6)
Hassanin, A., Ropiquet, A., Gourmand, A.-L., Chardonnet,
B. & Rigoulet, J. (2007).
Mitochondrial DNA
variability in Giraffa camelopardalis:
consequences for taxonomy, phylogeography and conservation of giraffes in West
and Central Africa. Comptes Rendus
Biologies 330 (3):265-274.
7)
Hernández-Fernández, M. & Vrba, E. S. (2005). A complete estimate of the
phylogenetic relationships in Ruminantia: a dated species-level supertree of
the extant ruminants. Biological Reviews
80 (2): 269-302
8)
Huebinger, R. M., Pierson, D. J., de Maar, T. W., Brown,
D. M., Brenneman, R. A. & Louis Jr., E. E. (2002). Characterization of 16 microsatellite marker loci in the Massai giraffe
(Giraffa camelopardalis tippelskirchi).
Molecular Ecology Notes 2 (4): 531-533.
9)
Meester,
J. & Setzer, H. W. (1971). The Mammals of Africaan Identification Manual. Smithsonian Institution Press,
Washington.
10)
Moodley, Y & Bruford, M. W. (2008). Molecular biogeography: towards an
integrated framework for conserving Pan-African biodiversity. PLOS one 2 (5): 1-9.
11)
Price, S. A., Bininda-Emonds, O. R. P. &
Gittleman, J. L.
(2005). A complete phylogeny of the whales, dolphins and even-toed hoofed mammals
(Cetartiodactyla). Biological Reviews
80 (3): 445-473.
12)
Prothero, D. R. & Foss, S. E. (2007). The evolution of
Artiodactyls. The John Hopkins University
Press, Baltimore.
13)
Ropiquet, A., Li, B. & Hassanin, A. (2009). SuperTRI: A new approach based on branch
support analyses of multiple independent data sets for assessing reliability of
phylogenetic inferences. Comptes Rendus
Biologies 332 (9): 832-847.