Jump to content

Corvides

From Wikipedia, the free encyclopedia

Corvides
King bird-of-paradise (Cicinnurus regius)
Eurasian jay (Garrulus glandarius)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Passeriformes
Suborder: Passeri
Infraorder: Corvides
Clades

Campephagidae
Cinclosomatidae
Corvoidea
Falcunculidae
Oreoicidae
Psophodidae
Pachycephalidae
Mohouidae
Neosittidae
Eulacestomatidae
Paramythiidae
Malaconotoidea
Vireonidae

Corvides is a clade of birds in the order of Passeriformes.[1] Previously referred to as the core Corvoidea,[2] the evolutionary history and biogeography, behavior and eco-morphology of Corvides has been extensively studied.[3][2][4][5][6][7][8][9][10] Corvides appear to represent an island radiation, which colonized all continents except Antarctica.[11]

Systematics

[edit]

Corvides contains the following families:[12][2]

References

[edit]
  1. ^ McCullough, J.M. et al. (2022) Wallacean and Melanesian Islands Promote Higher Rates of Diversification within the Global Passerine radiation Corvides. Systematic Biology, syac044, https://doi.org/10.1093/sysbio/syac044
  2. ^ a b c Jønsson K.A., Fabre P.-H., Kennedy J.D., Holt B.G., Borregaard M.K., Rahbek C., Fjeldså J. (2016) A supermatrix phylogeny of corvoid passerine birds (Aves: Corvides). Mol.Phylogenet. Evol. 94:87–94.
  3. ^ Jønsson K.A., Fabre P.-H., Ricklefs R.E., Fjeldså J. 2011. Major global radiation of corvoid birds originated in the proto-Papuan archipelago. Proc. Natl. Acad. Sci. U. S. A. 108:2328–2333.
  4. ^ Jønsson K.A., Borregaard M.K., Carstensen D.W., Hansen L.A., Kennedy J.D., Machac A., Marki P.Z., Fjeldså J., Rahbek C. (2017) Biogeography and Biotic Assembly of Indo-Pacific Corvoid Passerine Birds. Annu. Rev. Ecol. Evol. Syst. 48:231–253.
  5. ^ Marki P.Z., Fabre P.-H., Jønsson K.A., Rahbek C., Fjeldså J., Kennedy J.D. (2015) Breeding system evolution influenced the geographic expansion and diversification of the core Corvoidea (Aves: Passeriformes). Evolution. 69:1874–1924.
  6. ^ Kennedy J.D., Borregaard M.K., Jønsson K.A., Holt B., Fjeldså J., Rahbek C. (2017) Does the colonization of new biogeographic regions influence the diversification and accumulation of clade richness among the Corvides (Aves: Passeriformes)? Evolution. 71:38–50.
  7. ^ Kennedy J.D., Borregaard M.K., Jønsson K.A., Marki P.Z., Fjeldså J., Rahbek C. (2016) The influence of wing morphology upon the dispersal, geographical distributions and diversification of the Corvides (Aves; Passeriformes). Proceedings of the Royal Society B: Biological Sciences. 283:20161922.
  8. ^ Kennedy J.D., Borregaard M.K., Marki P.Z., Machac A., Fjeldså J., Rahbek C. (2018) Expansion in geographical and morphological space drives continued lineage diversification in a global passerine radiation. Proceedings of the Royal Society B.
  9. ^ Kennedy J.D., Marki P.Z., Fjeldså J., Rahbek C. (2020) The association between morphological and ecological characters across a global passerine radiation. J. Anim. Ecol. 89:1094–1108.
  10. ^ Kennedy J.D., Marki P.Z., Fjeldså J., Rahbek C. (2021) Peripheral eco‐morphology predicts restricted lineage diversification and endemism among corvoid passerine birds. Glob. Ecol. Biogeogr. 30:79–98.
  11. ^ Aggerbeck, M., Fjeldså, J., Christidis, L., Fabre, P.-H., Jønsson, K.A., (2014) Resolving deep lineage divergences in core corvoid passerine birds supports a proto407 Papuan island origin. Molecular Phylogenetics and Evolution 70, 272–285.
  12. ^ Gill, F., M. Wright, & D. Donsker. (2010) IOC World Bird Names, version 2.7.