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Items: 1 to 20 of 102

1.

An unusual bird (Theropoda, Avialae) from the Early Cretaceous of Japan suggests complex evolutionary history of basal birds.

Imai T, Azuma Y, Kawabe S, Shibata M, Miyata K, Wang M, Zhou Z.

Commun Biol. 2019 Nov 14;2:399. doi: 10.1038/s42003-019-0639-4. eCollection 2019.

2.

An unusual bird (Theropoda, Avialae) from the Early Cretaceous of Japan suggests complex evolutionary history of basal birds.

Imai T, Azuma Y, Kawabe S, Shibata M, Miyata K, Wang M, Zhou Z.

Commun Biol. 2019 Nov 14;2(1):399. doi: 10.1038/s42003-019-0639-4.

PMID:
31925202
3.

A new basal bird from China with implications for morphological diversity in early birds.

Wang M, Wang X, Wang Y, Zhou Z.

Sci Rep. 2016 Jan 25;6:19700. doi: 10.1038/srep19700.

4.

A long-tailed, seed-eating bird from the Early Cretaceous of China.

Zhou Z, Zhang F.

Nature. 2002 Jul 25;418(6896):405-9.

PMID:
12140555
5.

A Jurassic avialan dinosaur from China resolves the early phylogenetic history of birds.

Godefroit P, Cau A, Dong-Yu H, EscuilliƩ F, Wenhao W, Dyke G.

Nature. 2013 Jun 20;498(7454):359-62. doi: 10.1038/nature12168. Epub 2013 May 29.

PMID:
23719374
6.

A new clade of basal Early Cretaceous pygostylian birds and developmental plasticity of the avian shoulder girdle.

Wang M, Stidham TA, Zhou Z.

Proc Natl Acad Sci U S A. 2018 Oct 16;115(42):10708-10713. doi: 10.1073/pnas.1812176115. Epub 2018 Sep 24.

7.

An Enantiornithine with a Fan-Shaped Tail, and the Evolution of the Rectricial Complex in Early Birds.

O'Connor JK, Wang X, Zheng X, Hu H, Zhang X, Zhou Z.

Curr Biol. 2016 Jan 11;26(1):114-9. doi: 10.1016/j.cub.2015.11.036. Epub 2015 Dec 31.

8.

Was dinosaurian physiology inherited by birds? Reconciling slow growth in archaeopteryx.

Erickson GM, Rauhut OW, Zhou Z, Turner AH, Inouye BD, Hu D, Norell MA.

PLoS One. 2009 Oct 9;4(10):e7390. doi: 10.1371/journal.pone.0007390.

9.
10.

An Archaeopteryx-like theropod from China and the origin of Avialae.

Xu X, You H, Du K, Han F.

Nature. 2011 Jul 27;475(7357):465-70. doi: 10.1038/nature10288.

PMID:
21796204
11.

Rates of morphological evolution are heterogeneous in Early Cretaceous birds.

Wang M, Lloyd GT.

Proc Biol Sci. 2016 Apr 13;283(1828). pii: 20160214. doi: 10.1098/rspb.2016.0214.

12.

On the absence of sternal elements in Anchiornis (Paraves) and Sapeornis (Aves) and the complex early evolution of the avian sternum.

Zheng X, O'Connor J, Wang X, Wang M, Zhang X, Zhou Z.

Proc Natl Acad Sci U S A. 2014 Sep 23;111(38):13900-5. doi: 10.1073/pnas.1411070111. Epub 2014 Sep 8.

13.

An advanced, new long-legged bird from the Early Cretaceous of the Jehol Group (northeastern China): insights into the temporal divergence of modern birds.

Liu D, Chiappe LM, Zhang Y, Bell A, Meng Q, Ji Q, Wang X.

Zootaxa. 2014 Nov 14;3884(3):253-66. doi: 10.11646/zootaxa.3884.3.4.

PMID:
25543783
14.

An exceptionally preserved Lower Cretaceous ecosystem.

Zhou Z, Barrett PM, Hilton J.

Nature. 2003 Feb 20;421(6925):807-14. Review.

PMID:
12594504
15.

A new troodontid dinosaur from China with avian-like sleeping posture.

Xu X, Norell MA.

Nature. 2004 Oct 14;431(7010):838-41.

PMID:
15483610
16.

Insight into the early evolution of the avian sternum from juvenile enantiornithines.

Zheng X, Wang X, O'Connor J, Zhou Z.

Nat Commun. 2012;3:1116. doi: 10.1038/ncomms2104.

PMID:
23047674
17.
18.

A new paravian dinosaur from the Late Jurassic of North America supports a late acquisition of avian flight.

Hartman S, Mortimer M, Wahl WR, Lomax DR, Lippincott J, Lovelace DM.

PeerJ. 2019 Jul 10;7:e7247. doi: 10.7717/peerj.7247. eCollection 2019.

19.

Flight aerodynamics in enantiornithines: Information from a new Chinese Early Cretaceous bird.

Liu D, Chiappe LM, Serrano F, Habib M, Zhang Y, Meng Q.

PLoS One. 2017 Oct 11;12(10):e0184637. doi: 10.1371/journal.pone.0184637. eCollection 2017.

20.

Re-evaluation of the Haarlem Archaeopteryx and the radiation of maniraptoran theropod dinosaurs.

Foth C, Rauhut OWM.

BMC Evol Biol. 2017 Dec 2;17(1):236. doi: 10.1186/s12862-017-1076-y.

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