Strisores contains the extant orders
Aegotheliformes,
Apodiformes (with families
Apodidae,
Hemiprocnidae, and
Trochilidae),
Caprimulgiformes,
Nyctibiiformes,
Podargiformes,
Steatornithiformes. Apodidae and Hemiprocnidae are grouped together as Apodi, Apodi and Trochilidae are grouped together as
Apodiformes, and Apodiformes and Aegotheliformes are grouped together as Daedalornithes. The classification of the various birds that make up the order has long been controversial and difficult, particularly in the case of the nightjars and the paraphyly of the traditional Caprimulgiformes in relation to "
Apodiformes", traditionally considered a separate order. The
IUCN adopts the following classification of Order Caprimulgiformes, which follows recent phylogenetic studies: • Family
Trochilidae (hummingbirds, 368 species) • Family
Apodidae (swifts, 96 species) • Family
Caprimulgidae (nightjars, 98 species) • Family
Podargidae (frogmouths, 14 species) • Family
Aegothelidae (owlet-nightjars, 10 species) • Family
Nyctibiidae (potoos, 7 species) • Family
Hemiprocnidae (treeswifts, 4 species) • Family
Steatornithidae (oilbird, 1 species) The IUCN definition renders the order Caprimulgiformes identical to the clade Strisores. Authorities that favor the use of Strisores for this group (e.g., Yuri et al. 2013 and Chen
et al. 2019 Traditionally, Caprimulgiformes were regarded, on morphological grounds, as being midway between the
owls (Strigiformes) and the
swifts. Like the owls, they are nocturnal hunters with a highly developed sense of sight, and like the swifts they are excellent flyers with small, weak legs. At one time or another, they have been allied with owls, swifts,
kingfishers,
hoopoes,
mousebirds,
hornbills,
rollers,
bee-eaters,
woodpeckers,
trogons and
hummingbirds. A close relationship to owls can be rejected since there is strong molecular evidence that owls are members of a clade, called
Telluraves, that excludes Caprimulgiformes. Based on analysis of
DNA sequence data – notably β-
fibrinogen intron 7 – Fain and Houde considered the families of the Caprimulgiformes to be members of the proposed clade
Metaves, which also includes the
hoatzin,
tropicbirds,
sandgrouse,
pigeons,
kagu,
sunbittern,
mesites,
flamingos,
grebes and swifts and hummingbirds. Metaves was also found by the expanded study of Ericson
et al. (2006), but support for the clade was extremely weak. While only the latter study recovered monophyly of the
Cypselomorphae (see below) within Metaves, the former was based on only a single locus and could not resolve their relationships according to standard criteria of statistical confidence. No morphological
synapomorphies have been found that uniquely unite Metaves (or Caprimulgiformes for that matter), but numerous unlinked nuclear
genes independently support their monophyly either in majority or whole. Ericson
et al. (2006) concluded that if valid, the "Metaves" must originate quite some time before the
Paleogene, and they reconciled this with the fossil record. While the relationships of cypselomorphs are a subject of ongoing debate, the
phylogeny of the individual lineages is better resolved. Much of the remaining uncertainty regards minor details. Initial
mtDNA cytochrome b sequence analysis agreed with earlier morphological and
DNA–DNA hybridization studies insofar as that the oilbird and the frogmouths seemed rather distinct. The other lineages appeared to form a
clade, but this is now known to have been caused by methodological limitations. The Aegothelidae (
owlet-nightjars) with about a dozen living species in one genus are apparently closer to the
Apodiformes; these and the Caprimulgiformes are closely related, being grouped together as
Cypselomorphae. The oilbird and the frogmouths seem quite distinct among the remaining Caprimulgiformes, but their exact placement cannot be resolved based on osteological data alone. Even the study of Ericson
et al. could not properly resolve the oilbird's and frogmouths' relationships beyond the fact that they are quite certainly well distinct. It robustly supported, however, the idea that the owlet-nightjars should be considered closer to Caprimulgiformes, unlike the methodologically weaker studies of Mariaux & Braun (1996) and Fain and Houde (2004). Alternatively, Mayr's
phylogenetic taxon Cypselomorphae might be placed at order rank and substitute the two present orders Caprimulgiformes and Apodiformes. Such a group would be fairly uninformative as regards its evolutionary history, as it has to include some very
plesiomorphic and some extremely derived lineages (such as hummingbirds) to achieve monophyly. Reddy
et al. (2017) included hummingbirds and swifts in Caprimulgiformes, preserving the monophyly of the order. The following
cladogram follows the results of Mayr's (2002) phylogenetic study, which used a parsimony analysis of 25 morphological characters: Subsequent molecular work has converged on two alternative topologies (topologies 1 and 2 below) that differ in the placement of the root. Although Braun et al. (2019)) subsequent analyses of datasets with many non-coding loci have also recovered topology 2. Thus, topology 2 should be viewed as the best-corroborated hypothesis at this time. Topology 1: phylogeny according to Reddy
et al. (2017), The cladogram below is based on the
molecular phylogenetic study by Josefin Stiller and collaborators published in 2024. The relationships are identical to those obtained by Richard Prum and collaborators using different data in 2015. }} ==References==