Hesperonychus

Hesperonychus Temporal range: Late Cretaceous, 76.5 Ma PreЄ Є O S D C P T J K Pg N ↓
Life restoration
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Class:	Reptilia
Clade:	Dinosauria
Order:	Saurischia
Suborder:	Theropoda
Family:	†Dromaeosauridae
Clade:	†Microraptoria
Genus:	†Hesperonychus Longrich & Currie, 2009
Species:	†H. elizabethae
Binomial name
Hesperonychus elizabethae Longrich & Currie, 2009

Hesperonychus (meaning "western claw") was a genus of small, carnivorous dromaeosaurid dinosaur. There is one described species, Hesperonychus elizabethae; the type species was named in honor of the woman who collected it in 1982.^[1] It is known from fossils recovered from the lowermost strata of the Dinosaur Park Formation of Alberta, dating to the late Cretaceous Period (Campanian stage) about 76.5 million years ago).

Hesperonychus is known from one partial pelvic girdle, holotype specimen UALVP 48778, collected by Dr. Elizabeth Nicholls in Dinosaur Provincial Park in 1982. The fossil remained undescribed, however, until Nick Longrich and Phil Currie published on it in 2009. A number of very small toe bones, including "sickle claws", in the collection of the Royal Tyrrell Museum may also belong to Hesperonychus. Despite their small size, the pubic bones were fused, a characteristic of adult dinosaurs, indicating that the specimen does not represent a juvenile of a known species.^[2]

Though known from only partial remains, Longrich and Currie estimated its total length at under one meter and weight at about 1.9 kilograms, making it one of the smallest known carnivorous dinosaurs from North America. The alvarezsaurid Albertonykus was smaller.^[2]

Classification

A phylogenetic analysis performed by Longrich and Currie found Hesperonychus to be a member of the Microraptorinae,^[3] a clade of small dromaeosaurids previously thought to be restricted to the Early Cretaceous of Asia. The authors described this find as "remarkable"; the previously youngest known microraptorine was Microraptor itself from the Aptian stage of the Early Cretaceous, so the discovery of Hesperonychus in the Late Cretaceous Campanian stage pushed the fossil range of microraptorines forward by 45 million years.^[2] While the Late Cretaceous, North American Bambiraptor had sometimes been classified as a microraptorine, more recent studies (including those by Longrich and Currie) have found that it is more closely related to Saurornitholestes.

Paleobiology

Microraptorines are well known for their small size and, in some cases, ability to fly or glide. Longrich and Currie concluded that it was unlikely for Hesperonychus to exhibit four wings or gliding behavior as in Microraptor, and speculated that it was more likely to be similar to Sinornithosaurus given their closer similarity in size. Nevertheless, Hesperonychus seems to show that microraptorines did not vary much in size, remaining very small relative to other dromaeosaurids throughout their history.^[2]

Aside from extending the known range of microraptorines, the discovery of Hesperonychus filled in a gap in the ecology of Late Cretaceous North America. Unlike roughly contemporary environments in Europe and Asia, North America appeared to lack very small carnivorous dinosaurs. In modern ecosystems dominated by endothermic mammals, small animal species outnumber larger ones. Since dinosaurs are also presumed to have been endotherms, the lack of small species and great number of known large species in North America was unusual.^[2] Hesperonychus helped to fill that gap, especially since, given the number of fragmentary remains and claws that have been collected (representing at least ten distinct specimens, compared to thirty of the contemporary Saurornitholestes and two of Dromaeosaurus), it appears to have been a very common feature of the Dinosaur Park Formation environment.^[2]

The next smallest carnivore in the environment was the mammal Eodelphis, which weighed only 600 grams. There does not appear to have been any overlap between the smallest dinosaurs and the largest mammals in ecosystems such as this, which Longrich and Currie explained by hypothesizing that either competition from dinosaurs kept mammals from growing larger (the traditional view), competition from mammals kept the dinosaurs from growing smaller, or both.^[2]

See also

• Timeline of dromaeosaurid research
• 2009 in paleontology

References

Dromaeosauridae
Kingdom: Animalia Phylum: Chordata Class: Sauropsida Clade: Dinosauria Order: Saurischia Clade: Maniraptora
Major clades Unenlagiinae Microraptoria Eudromaeosauria
Basal dromaeosaurs Dromaeosauridae Luanchuanraptor Mahakala Pyroraptor Shanag Tsaagan Zhenyuanlong Unenlagiinae Austroraptor Buitreraptor Neuquenraptor Pamparaptor Rahonavis ?Timimus Unenlagia Microraptoria Changyuraptor Graciliraptor Hesperonychus Microraptor Sinornithosaurus Tianyuraptor Eudromaeosauria
Eudromaeosauria Eudromaeosauria Bambiraptor Deinonychus Saurornitholestinae Atrociraptor Saurornitholestes Velociraptorinae Acheroraptor Boreonykus Linheraptor Velociraptor Dromaeosaurinae Achillobator Adasaurus Dakotaraptor Dromaeosauroides Dromaeosaurus Utahraptor
Related categories Coelurosaurs Theropods Dromaeosaurs