The Enantiornithes, or "opposite birds" (because their foot bones are fused differently than in modern birds), are an extinct group of flying birds. Early discoveries were incorrectly referred to modern bird groups. They were first recognized as a distinct "subclass" by C.A. Walker in 1981, based on some partial remains from the Late Cretaceous of Argentina. In the 1990s, more complete enantiornithines were discovered, and it was more demonstrated that a few previously found birds (Iberomesornis, Sinornis) have enantiornithine features. Scientific classification or biological classification is how biologists group and categorize extinct and living species of organisms. ... Phyla Porifera (sponges) Ctenophora (comb jellies) Cnidaria Placozoa Subregnum Bilateria  Acoelomorpha  Orthonectida  Rhombozoa  Myxozoa  Superphylum Deuterostomia     Chordata (vertebrates, etc. ... Typical Classes Subphylum Urochordata - Tunicates Ascideiacea Thaliacea Larvacea Subphylum Cephalochordata - Lancelets Subphylum Myxini - Hagfishes Subphylum Vertebrata - Vertebrates Petromyzontida - Lampreys Placodermi (extinct) Chondrichthyes - Cartilaginous fishes Acanthodii (extinct) Actinopterygii - Ray-finned fishes Actinistia - Coelacanths Dipnoi - Lungfishes Amphibia - Amphibians Reptilia - Reptiles Aves - Birds Mammalia - Mammals Chordates (phylum Chordata) include the vertebrates, together with... For other meanings of bird, see bird (disambiguation). ... Orders Many - see section below. ... The Cretaceous period is one of the major divisions of the geologic timescale, reaching from the end of the Jurassic period (about 146 MYA) to the beginning of the Paleocene epoch of the Tertiary period (65. ...

Enantiornithines have been found in North America, South America, Europe, Asia, and Australia. Known fossils attributable to this group are exclusively Cretaceous, and it is believed that enantiornithines became extinct at the same time as their non-avian dinosaur relatives. One biogeobraphic study in the 1990s suggested that the distribution of enantiornithines implies a Middle Jurassic origin for the clade, but this theory has not been widely accepted by paleoornithologists. The earliest known enatiornithines are from the Early Cretaceous) of Spain (eg. Noguerornis) and China (eg. Eoenantiornis), and the latest from the Late Cretaceous of North and South America (eg. Avisaurus). The Cretaceous period is one of the major divisions of the geologic timescale, reaching from the end of the Jurassic period (about 146 MYA) to the beginning of the Paleocene epoch of the Tertiary period (65. ... Orders Saurischia    Sauropodomorpha    Theropoda Ornithischia Dinosaurs are animals that dominated the terrestrial ecosystem for over 100 million years. ... The Jurassic period is a major unit of the geologic timescale that extends from about 200 million years BP at the end of the Triassic to 146 million years BP at the beginning of the Cretaceous. ... The Cretaceous period is one of the major divisions of the geologic timescale, reaching from the end of the Jurassic period (about 146 MYA) to the beginning of the Paleocene epoch of the Tertiary period (65. ... The Cretaceous period is one of the major divisions of the geologic timescale, reaching from the end of the Jurassic period (about 146 MYA) to the beginning of the Paleocene epoch of the Tertiary period (65. ...

Enantiornithines were more advanced than Archaeopteryx, but more primitive than all living birds (Neornithes). Over 30 species have been named, but probably not all are valid. All but the most primitive enantiornithes belong to a clade called Euenantiornithes. Some had many teeth, but others were toothless. They have been found in both inland and marine sediments, suggesting that they were an ecologically diverse group. The smallest enantiornithines are described as sparrow-sized, but Enantiornis was much larger, with an estimated wingspan of 1.2 m. Binomial name Archaeopteryx lithographica Meyer, 1861 Archaeopteryx lithographica is widely accepted as the earliest and most primitive known bird. ... Genera Passer Petronia Carpospiza Montifringilla This article is about the Old World sparrows in the family Passeridae. ...

Although many frustratingly incomplete specimens of enatiornithines have held back attempts to understand the phylogeny of this group, some examples are spectacularly well-preserved with even their feathers in place. A few examples of embryonic enantiornithines have been found inside fossil eggs. Recently, palaeontologists in China found a enantiornithine fossil with flight feathers on its legs as well as its arms, linking it with the four-winged dinosaur Microraptor. This may suggest that some early birds had four wings, not two. However, the leg feathers of the enantiornithine differ from those of Microraptor in being shorter, and only extending down to the ankle rather than along the foot as in the four-winged dinosaur. A paleontologist carefully chips rock from a column of dinosaur vertebrae. ... Closeup on a single white feather A feather is one of the epidermal growths that forms the distinctive outer covering, or plumage, on a bird. ... Microraptor was a small, bird-like dinosaur related to the dromaeosaurs. ...

Taxonomy

Enantiornithine systematics generally follows one of 2 phylogenies. Both are presented below.

Phylogeny after Chiappe, 1992, Chiappe & Calvo, 1994 and Zhou & Hou, 2002 and Chiappe & Walker, 2002:

Subclass Enantiornithes In object-oriented programming, subclass is a class that is derived from another class or classes. ...

• Basal Enantiornithes and Enantiornithes incerta sedis
• Superorder Euenantiornithes
  • Basal Euenantiornithes
  • Euenantiornithes incerta sedis
    • Family Cathyornithidae
  • Order Gobipterygiformes
  • Order Enantiornithiformes
    • Family Avisauridae

Phylogeny after Kurochkin, 1996: Scientific classification or biological classification refers to how biologists group and categorize extinct and living species of organisms. ... Scientific classification or biological classification refers to how biologists group and categorize extinct and living species of organisms. ... Scientific classification or biological classification refers to how biologists group and categorize extinct and living species of organisms. ...

Subclass Enantiornithes In object-oriented programming, subclass is a class that is derived from another class or classes. ...

• Basal Enantiornithes and Enantiornithes incerta sedis
• Superorder Euenantiornithes
  • Basal Euenantiornithes and Euenantiornithes incerta sedis
  • Order Euornithiformes
  • Order Axelornithiformes
    • Family Axelornithidae
    • Family Enantiornithidae

References:

1. Chiappe, L. 1992. Enantiornithine(Aves) tarsometatarsi and the avian affinites of the Cretaceous Avisauridae. Journal of Vertebrate Paleontology 12(3):344-350.
2. Chiappe, L. & Calvo, J. M. 1994. Neuquenornis volans, a new Late Cretaceous bird (Enantiornithes: Avisauridae) from Patagonia, Argentina. Journal of Vertebrate Paleontology 14(2):230-246.
3. Chiappe, L. & Walker, C. 2002. Skeletal morphology and systematics of the Cretaceous Euenantiornithes (Ornithothoraces: Enantiornithes). In: Chiappe, L. & Witmer, L. (eds.), Mesozoic Birds: Above the Heads of Dinosaurs, 240-267.
4. Kurochkin, E. 1996. A new enantiornithid of the Mongolian Late Cretaceous, and a general appraisal of the Infraclass Enantiornithes (Aves). Paleontological Institute, Moscow, 60 pp.
5. Zhou, Z. & Hou, L.-H., 2002: The Discovery and Study of Mesozoic Birds in China. Chiappe, L. & Witmer, L. (eds.), Mesozoic Birds: Above the Heads of Dinosaurs, 160-183.