The Sibley–Ahlquist taxonomy is a bird taxonomy proposed by Charles Sibley and Jon E. Ahlquist. It is based on DNA–DNA hybridization studies conducted in the late 1970s and throughout the 1980s. DNA–DNA hybridization is among a class of comparative techniques in molecular biology that produce distance data and that can be analyzed to produce phylogenetic reconstructions only using phenetic tree-building algorithms. In DNA–DNA hybridization, the percent similarity of DNA between two species is estimated by the reduction in hydrogen bonding between nucleotides of imperfectly complemented heteroduplex DNA, compared with perfectly matched homoduplex DNA. This revolutionary reordering was initially widely accepted by North American ornithologists, and the American Ornithologists' Union adopted some of its provisions. In other parts of the world its adoption has been more deliberative: it has been a major influence on existing classification schemes but hardly any authority adopted it in its entirety.
Characteristics
The classification appears to be an early example of cladistic classification because it codifies many intermediate levels of taxa: the "trunk" of the family tree is the class Aves, which branches into subclasses, which branch into infraclasses, and then "parvclasses", superorders, orders, suborders, infraorders, "parvorders", superfamilies, families, subfamilies, tribes, subtribes and finally genera and species. However the classification study did not employ modern cladistic methods, as it relies strictly on DNA-DNA hybridization as the sole measure of similarity. The Sibley–Ahlquist arrangement differs greatly from the more traditional approach used in the Clements taxonomy. The major changes at order level are as follows:
Enlarged Struthioniformes replaces the ratite orders Rheiformes, Casuariiformes, and Apterygiformes and Struthioniformes.
Tinamiformes is unchanged.
A new, greatly enlarged Ciconiiformes includes the previous Sphenisciformes, Gaviiformes, Podicipediformes, Procellariiformes, Pelecaniformes, Ciconiiformes, Falconiformes, Charadriiformes, and the family Pteroclidae.
Anseriformes is unchanged.
New Craciformes chachalacas etc. Previously Galliformes
New Ralliformes rails and crakes
New Gruiformes Cranes
New Turniciformes button-quails etc. Previously Gruiformes
Columbiformes doves. Sandgrouse moved to Ciconiiformes.
Psittaciformes cockatoos and parrots unchanged
New Musophagiformes turacos. Previously Cuculiformes.
New Cuculiformes rest of cuckoos
New Strigiformes owls enlarged to include Caprimulgiformes nightjars
New Apodiformes swifts
New Trochiliformeshummingbirds. Previously Apodiformes.
Some of these changes are minor adjustments. For instance, instead of putting the swifts, treeswifts, and hummingbirds in the same order that includes nothing else, Sibley and Ahlquist put them in the same superorder that includes nothing else, consisting of one order for the hummingbirds and another for the swifts and treeswifts. In other words, they still regard the swifts as the hummingbirds' closest relatives. Other changes are much more drastic. The penguins were traditionally regarded as distant from all other living birds. For instance, Wetmore put them in a superorder by themselves, with all other non-ratite birds in a different superorder. Sibley and Ahlquist, though, put penguins in the same superfamily as divers, tubenoses, and frigatebirds. According to their view, penguins are closer to those birds than herons are to storks. The new research suggested that the ducks and gallinaceous birds are each other's closest relatives and together form the basal lineage of neognathous birds, distinct from the others which are collectively called Neoaves. The ratites and tinamous are followed by the ducks and their allies and the pheasants and their allies. Penguins, grebes and divers are placed with other groups that were traditionally considered more modern. The Galloanseres has found widespread acceptance. The DNA evidence of Sibley–Ahlquist for the monophyly of the group is supported by the discovery of the fossil bird Vegavis iaai, an essentially modern but most peculiar waterfowl that lived near Cape Horn some 66-68 million years ago, still in the age of the dinosaurs.
