| Confuciusornithids | |
|---|---|
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| Fossil specimen ofConfuciusornis sanctus | |
Scientific classification | |
| Kingdom: | Animalia |
| Phylum: | Chordata |
| Class: | Reptilia |
| Clade: | Dinosauria |
| Clade: | Saurischia |
| Clade: | Theropoda |
| Clade: | Avialae |
| Clade: | Pygostylia |
| Clade: | †Confuciusornithiformes Houet al., 1995 |
| Family: | †Confuciusornithidae Houet al., 1995 |
| Type species | |
| †Confuciusornis sanctus Houet al., 1995 | |
| Genera | |
Confuciusornithidae is an extinct family ofpygostylianavialans known from theEarly Cretaceous, found innorthern China. They are commonly placed as a sister group toOrnithothoraces, a group that contains all extant birds along with their closest extinct relatives. Confuciusornithidae contains four genera, possessing both shafted and non-shafted (downy) feathers. Some specimens probably referable to this clade represents one of the earliest known fossil evidence of primary feathermoulting.[1] They are also noted for their distinctive pair of ribbon-like tail feathers of disputed function.
The wing anatomy of confuciusornithids suggests an unusual flight behavior, due to anatomy that implies conflicting abilities. They possessed feathers similar to those of fast-flapping birds, which rely on quick flapping of their wings to stay aloft. At the same time, their wing anatomy also suggests a lack of flapping ability. Confuciusornithids are also noted for their beak and lack of teeth, similar to modern birds. Both predators and prey, confuciusornithid fossils have been observed with fish remains in their digestive systems and have themselves been found in the abdominal cavities ofSinocalliopteryx, acompsognathid predator.
| Avialae |
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Confuciusornithidae was first named by Houet al. in 1995 to contain the type genus,Confuciusornis, and assigned to the monotypic clade Confuciusornithiformes within theclassAves.[2] The group was given aphylogenetic definition by Chiappe, in 1999, who defined a node-basedclade Confuciusornithidae to include onlyChangchengornis andConfuciusornis.[3]
There are a number of features that define the clade. The most significant is the presence of a toothless jaw, which shows a more birdlike adaptation compared toArchaeopteryx. The other defining features are as follows, according to Chiappeet al. (1999):[3]
Confuciusornithidae is the most basal group of the cladePygostylia, whose members possess apygostyle, a fused set of caudal vertebrae at the end of the tail. The pygostyle replaced the longer, unfused tail found in more primitive avialans such asArchaeopteryx,[3] and may have served to improve flight. Pygostylia includes all modern birds, the only living members of the clade.
Additional members have been added to Confuciusornitidae since 1999.Jinzhouornis was added by Hou, Zhou, and Zhang in 2002,[4] and in 2008, Zhang, Zhou and Benton assigned the newly described genusEoconfuciusornis to the family.[5]
Most confuciusornithids are known from the upperJehol group, theYixian Formation andJiufotang Formation, dating from 125 to 120 million years ago.Eoconfuciusornis, however, predated the other confuciusornithids by 6 million years, dating to 131 Ma ago.
The entire body of confuciusornithids was covered in contour feathers, except for the foot, base of beak, and the tarsometatarsus, the bone directly attached to the foot.[6] It appears that they may also have had down feathers.[6]
The beaks of confuciusornithids show development of modern birdlike characteristics, such as a large beak and lack of teeth. The premaxilla and dentary are larger than those ofArchaeopteryx.[7] The anterior of these bones shows evidence of vasculature and innervation, implying the presence of a beak.[3] The lack of recovery of this structure indicates that the beak had a soft horny sheath. The softness of the beak along with the innervation suggest that the beak was sensitive, making it useful for searching for prey.[6]
Much of their anatomy resembles that ofArchaeopteryx, especially the pectoral girdle and forelimbs.[7] They were better adapted for flight thanArchaeopteryx, due to the elimination of two thoracic vertebrae.[7] The development of a pygostyle also shows better adaptation for flight, as this replaces the long tails present in earlier avialans.[3] Similarly toArchaeopteryx, confuciusornithids possessed a large first digit with a hook-like claw. The digit implies a climbing lifestyle, as it serves to allow for hooking onto the grooves of trees. A similar anatomy and function is seen in the nestlings of thehoatzin, an extant South American bird.
The biomechanics of the wing itself are quite contentious due to a combination of traits that imply different modes of flight.[8] Confuciusornithids possessed long primary feathers similar to those of modern fast-flapping birds, as opposed to gliding birds which have short primaries relative to their size.[8] However, the narrowness of the wings of confuciusornithids along with the lack of upstroke ability during flapping motion seem to preclude the ability to flap their wings quickly.[8] Thus, they may have relied upon a flight method that no longer exists in modern birds.
The hindlimbs of confuciusornithids did not resemble those of living birds.[6] They were bad runners, with feet curved in a way that implies they did not move on the ground.
The long feathers of the tail (centralrectrices) of confuciusornithids are of disputed function. Sexual dimorphism is an explanation, with males presumed to use the feathers in mating displays.[9] However, it has been argued that the long rectrices were instead used as a defense against predators, as many birds shed feathers to protect themselves. The observation that less than 10% of confuciusornithid fossils possess these feathers supports this, as they may have been shed either in response to predators, or to the stress of the sudden death that produced the fossils.[9]
Confuciusornithids were first thought to be herbivorous due to the lack of teeth.[6] However, their anatomy was not adapted for plant consumption, as gastroliths have never been found, nor did the weak rhamphotheca of the beak allow for grinding. Instead, the beak appears to have been sensitive enough to assist in food acquisition and capable of holding potential prey. This beak type is well suited for skimming prey off of the top of a body of water.[6] Large numbers of fossils appear to originate from the tops of freshwater lakes, further supporting the water feeding connection. The remains of fish have been found in fossils ofC. sanctus.[10] Confuciusornithids appear to have been unable to take off from water and lacked the adaptations necessary to live aquatically.[6] Thus, it appears that they flew along the surface of the water, using their beak to search for fish.
Confuciusornithid remains have been found in the abdominal contents ofSinocalliopteryx gigas, a compsognathid predator.[11] Multiple confuciusornithids were present in the remains, implying that they were all captured in a short time.[11]
Confuciusornithids appear to have been social animals, as concurrently buried fossils are often found in close proximity.[6]
A 2018 study suggests that confuciusornithids could not have incubated their eggs like modern birds do.[12] Other paravians (includingDeinonychus) and pterosaurs are known to be superprecocial and able to fly soon after birth,[13][14][15] but for now there are no unambiguous confuciusornithid juveniles to attest this.
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