Anseriformes
Temporal range:
Magpie goose, Anseranas semipalmata
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Superorder: Galloanserae
Clade: Odontoanserae
Clade: Anserimorphae
Order: Anseriformes
Wagler, 1831
Subtaxa
  • Anachronornis
  • Anatalavis
  • Conflicto?
  • Eonessa
  • Naranbulagornis
  • Paakniwatavis
  • Palaeopapia
  • Peioa
  • Petropluvialis?
  • Proherodius?
  • Vegavis?
  • Wunketru
  • Anhimae Wetmore & Miller, 1926
    • Anhimidae
    • †Dromornithidae?
  • Anseres Wetmore & Miller, 1926
    • Anseranatoidea Sclater, 1880
    • Anatoidea Leach, 1820
      • Anatidae
      • Paranyroca
      • †Presbyornithidae?
Range of the waterfowl and allies

Anseriformes is an order of birds also known as waterfowl that comprises 178 living species of birds in three families: Anhimidae (three species of screamers), Anseranatidae (the magpie goose), and Anatidae, the largest family, which includes the other 174 species of waterfowl, among them the ducks, geese, and swans. Most modern species in the order are highly adapted for an aquatic existence at the water surface. With the exception of screamers, males have penises, a trait that has been lost in the Neoaves, the clade consisting of all other modern birds except the galliformes and paleognaths. Due to their aquatic nature, most species are web-footed.

Evolution

Anseriformes are one of only two types of modern bird to be confirmed present during the Mesozoic alongside the other dinosaurs, and in fact were among the very few birds to survive their extinction, along with their cousins, the Galliformes. These two groups only occupied two ecological niches during the Mesozoic, living in water and on the ground, while the toothed Enantiornithes were the dominant birds that ruled the trees and air. The asteroid that ended the Mesozoic destroyed all trees as well as animals in the open, a condition that took centuries to recover from, with some models estimating that greenhouse effects lasted for thousands of years.[1] The Anseriformes and Galliformes are thought to have survived in the cover of burrows and water, and not to have needed trees for food and reproduction.[2]

The earliest known stem anseriform is the presbyornithid Teviornis from the Nemegt Formation of Mongolia.[3] Some members apparently surviving the KT extinction event, including presbyornithids, thought to be the common ancestors of ducks, geese, swans, and screamers, the last group once thought to be Galliformes, but now genetically confirmed to be closely related to geese. The first known duck fossils start to appear about 34 million years ago.

Waterfowl are the best-known examples of sexually antagonistic genital coevolution in vertebrates, causing genital adaptations to coevolve in each sex to advance control over mating and fertilization. Sexually antagonistic coevolution (or SAC) occurs as a consequence of sexual conflict between males and females, resulting in coevolutionary process that reduce fit, or that functions to decrease ease of having sex.[4]

Taxonomy

The Anseriformes and the Galliformes (pheasants, etc.) belong to a common group, the Galloanserae. They are the most primitive neognathous birds, and as such they should follow the Palaeognathae (ratites and tinamous) in bird classification systems. Several unusual extinct families of birds like the albatross-like pseudotooth birds and the giant flightless gastornithids and mihirungs have been found to be stem-anseriforms based on common features found in the skull region, beak physiology and pelvic region.[5][6][7][8][9][10] The genus Vegavis for a while was found to be the earliest member of the anseriform crown group but a recent 2017 paper has found it to be just outside the crown group in the family Vegaviidae.[11] However, the monophyly of Vegaviidae was questioned by Torres et al. (2025) who described a nearly complete skull of Vegavis in 2025, supporting its placement within crown group Anseriformes.[12] However, Irazoqui et al. (2026) who redescribed this skull suggested that Vegavis can only be confidently placed as a neognath of uncertain affinities.[13]

Below is the general consensus (prior to Torres et al. (2025)[12]) of the phylogeny of anseriforms and their stem relatives.[5][6][7][8][9][11]

Odontoanserae

†Pelagornithidae (pseudo-tooth birds)

Anserimorphae

†Gastornithidae

†Dromornithidae (mihirungs)

†Vegaviidae

Anseriformes (screamers and waterfowl)

Systematics

Anatidae is traditionally divided into subfamilies Anatinae and Anserinae.[14] The systematics, especially regarding placement of some "odd" genera in the dabbling ducks or shelducks, is better resolved following the genetic analysis by Buckner et al. (2018);[15] this has led to the reassignment of many genera to different tribes to which they were traditionally assigned. The list below follows the AviList, which has accepted these revisions:[16] Note that AviList only includes extant and recently extinct genera:

Extinct Anseriformes (fossil & subfossil)

Early basal Anseriformes:

Assigned to named families and subfamilies:

Unassigned extinct Anseriformes:

In addition, a considerable number of mainly Late Cretaceous and Paleogene fossils have been described where it is uncertain whether or not they are anseriforms. This is because almost all orders of aquatic birds living today either originated or underwent a major radiation during that time, making it hard to decide whether some waterbird-like bone belongs into this family or is the product of parallel evolution in a different lineage due to adaptive pressures.

Molecular studies

Studies of the mitochondrial DNA suggest the existence of four branches – Anseranatidae, Dendrocygninae, Anserinae and Anatinae – with Dendrocygninae being a subfamily within the family Anatidae and Anseranatidae representing an independent family.[20] The clade Somaterini has a single genus Somateria.

See also

References

  1. "Chicxulub Impact Event". www.lpi.usra.edu.
  2. Quail-like creatures were the only birds to survive the dinosaur-killing asteroid impact
  3. Marjanović, D. (2021). "The Making of Calibration Sausage Exemplified by Recalibrating the Transcriptomic Timetree of Jawed Vertebrates". Frontiers in Genetics. 12. 521693. doi:10.3389/fgene.2021.521693. PMC 8149952. PMID 34054911.
  4. Brennan, Patricia L.R.; Prum, Richard O. (July 2015). "Mechanisms and Evidence of Genital Coevolution: The Roles of Natural Selection, Mate Choice, and Sexual Conflict". Cold Spring Harbor Perspectives in Biology. 7 (7) a017749. doi:10.1101/cshperspect.a017749. ISSN 1943-0264. PMC 4484975. PMID 26134314.
  5. Andors, A. (1992). "Reappraisal of the Eocene groundbird Diatryma (Aves: Anserimorphae)". Science Series Natural History Museum of Los Angeles County. 36: 109–125.
  6. Murrary, P.F; Vickers-Rich, P. (2004). Magnificent Mihirungs: The Colossal Flightless Birds of the Australian Dreamtime. Indiana University Press.
  7. Bourdon, E. (2005). "Osteological evidence for sister group relationship between pseudo-toothed birds (Aves: Odontopterygiformes) and waterfowls (Anseriformes)". Naturwissenschaften. 92 (12): 586–91. Bibcode:2005NW.....92..586B. doi:10.1007/s00114-005-0047-0. PMID 16240103. S2CID 9453177.
  8. Agnolín, F. (2007). "Brontornis burmeisteri Moreno & Mercerat, un Anseriformes (Aves) gigante del Mioceno Medio de Patagonia, Argentina". Revista del Museo Argentino de Ciencias Naturales. 9: 15–25. doi:10.22179/revmacn.9.361.
  9. Livezey, B.C.; Zusi, R.L. (2007). "Higher-order phylogeny of modern birds (Theropoda, Aves: Neornithes) based on comparative anatomy. II. Analysis and discussion". The Science of Nature. 149 (1): 1–95. doi:10.1111/j.1096-3642.2006.00293.x. PMC 2517308. PMID 18784798.
  10. Louchart, A.; Sire, J.-Y.; Mourer-Chauviré, C.; Geraads, D.; Viriot, L.; de Buffrénil, V. (2013). "Structure and Growth Pattern of Pseudoteeth in Pelagornis mauretanicus (Aves, Odontopterygiformes, Pelagornithidae)". PLOS ONE. 8 (11) e80372. Bibcode:2013PLoSO...880372L. doi:10.1371/journal.pone.0080372. PMC 3828250. PMID 24244680.
  11. Agnolín, F.L.; Egli, F.B.; Chatterjee, S.; Marsà, J.A.G (2017). "Vegaviidae, a new clade of southern diving birds that survived the K/T boundary". The Science of Nature. 104 (87): 87. Bibcode:2017SciNa.104...87A. doi:10.1007/s00114-017-1508-y. hdl:11336/50697. PMID 28988276. S2CID 13246547.
  12. Torres, Christopher R.; Clarke, Julia A.; Groenke, Joseph R.; Lamanna, Matthew C.; MacPhee, Ross D. E.; Musser, Grace M.; Roberts, Eric M.; O'Connor, Patrick M. (2025). "Cretaceous Antarctic bird skull elucidates early avian ecological diversity". Nature. 638 (8049): 146–151. doi:10.1038/s41586-024-08390-0. ISSN 1476-4687.
  13. Irazoqui, Facundo; Acosta Hospitaleche, Carolina; Paulina-Carabajal, Ariana; Bona, Paula; Vega, Nahuel (January 30, 2026). "New species of Vegavis (Neornithes) from Antarctica highlights unexpected Cretaceous Antarctic diversity". Diversity. 18 (2): 82. doi:10.3390/d18020082. ISSN 1424-2818.
  14. Gonzalez, J.; Düttmann, H.; Wink, M. (2009). "Phylogenetic relationships based on two mitochondrial genes and hybridization patterns in Anatidae". Journal of Zoology. 279 (3): 310–318. doi:10.1111/j.1469-7998.2009.00622.x.
  15. Buckner, Janet C.; Ellingson, Ryan; Gold, David A.; Jones, Terry L.; Jacobs, David K. (2018). "Mitogenomics supports an unexpected taxonomic relationship for the extinct diving duck Chendytes lawi and definitively places the extinct Labrador Duck". Molecular Phylogenetics and Evolution. 122: 102–109. doi:10.1016/j.ympev.2017.12.008.
  16. AviList Core Team (2025). "AviList: The Global Avian Checklist, v2025". doi:10.2173/avilist.v2025.
  17. Houde, Peter; Dickson, Meig; Camarena, Dakota (February 2023). "Basal Anseriformes from the Early Paleogene of North America and Europe". Diversity. 15 (2): 233. doi:10.3390/d15020233. ISSN 1424-2818.
  18. Pavia, M.; Meijer, H.J.M.; Rossi, M.A.; Göhlich, U.B. (2017). "The extreme insular adaptation of Garganornis ballmanni Meijer, 2014: a giant Anseriformes of the Neogene of the Mediterranean Basin". Royal Society Open Science. 4 (1) 160722. Bibcode:2017RSOS....460722P. doi:10.1098/rsos.160722. PMC 5319340. PMID 28280574.
  19. Zelenkov, Nikita (2024). "A remarkable diversity of waterfowl (Aves: Anseriformes) from the upper Eocene and lower Oligocene of Kazakhstan". Journal of Vertebrate Paleontology. 43 (6). e2374306. doi:10.1080/02724634.2024.2374306.
  20. Liu, G; Zhou, L; Zhang, L; Luo, Z; Xu, W (2013). "The complete mitochondrial genome of bean goose (Anser fabalis) and implications for anseriformes taxonomy". PLOS ONE. 8 (5) e63334. Bibcode:2013PLoSO...863334L. doi:10.1371/journal.pone.0063334. PMC 3662773. PMID 23717412.

Cited texts

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