Material relevant to the genus was first named by Lawrence Lambe in 1902. Over twenty years later, the modern name was coined in 1923 by William Parks, in honour of Lambe, based on better preserved specimens. The genus has a complicated taxonomic history, in part because small-bodied crested hadrosaurids now recognized as juveniles were once thought to belong to their own genera and species. Currently, the various skulls assigned to the type speciesL. lambei are interpreted as showing age differences and sexual dimorphism. Lambeosaurus was closely related to the better known Corythosaurus, which is found in slightly older rocks, as well as the less well-known genera Hypacrosaurus and Olorotitan. All had unusual crests, which are now generally assumed to have served social functions like noisemaking and recognition.
History and species
Early discoveries and names
Lambeosaurus has a complicated taxonomic history, beginning in 1902 with Lawrence Lambe's naming of hadrosaurid limb material and other bones (originally GSC 419) from Alberta as Trachodon marginatus.[2] In the same publication Trachodon altidens, a left upper jaw (GSC 1092) from the Dinosaur Park Formation was also described by Lambe.[3] In the same volume, Henry Fairfield Osborn suggested T. altidens could belong to a new genus, which he labelled "Didanodon" without further discussion.[2]
Paleontologists began finding better remains of hadrosaurids from the same rocks in the 1910s, in what is now known as the late Campanian-age (Upper Cretaceous) Dinosaur Park Formation. Lambe assigned two new skulls to T. marginatus, and based on the new information, coined the genus Stephanosaurus for the species in 1914.[4] Unfortunately, there was very little to associate the skulls with the scrappy earlier marginatus material, so in 1923 William Parks proposed a new genus and species for the skulls, with both generic and specific names honoring Lambe (who had died four years earlier): Lambeosaurus lambei (type specimenNMC 2869, originally GSC 2869). In the same publication, this species was made the type genus of the new subfamily Lambeosaurinae, as a replacement for the pre-existed Stephanosaurinae.[5]
Procheneosaurus and Tetragonosaurus
Although the early workers in Alberta did not recognize it at the time, they were finding the remains of juvenile Lambeosaurus as well. These fossils of small-bodied crested duckbills were interpreted as adults of a distinct lineage of hadrosaurids, the subfamily Cheneosaurinae.[6] In 1920, William Diller Matthew used the name Procheneosaurus (no species name) in a brief mention of a skeleton at the American Museum of Natural History, from the Dinosaur Park Formation (AMNH 5340).[7] Parks believed that the procedure and description were inadequate for the name to be considered valid, and to address the situation, he coined the genus Tetragonosaurus. Into this genus he placed the type speciesT. praeceps (based on ROM 3577) and a second species T. erectofrons (based on ROM 3578) for small skulls from the Dinosaur Park Formation, and assigned Matthew's Procheneosaurus skeleton to T. praeceps.[8]Charles M. Sternberg followed in 1935 by adding the slightly larger T. cranibrevis, based on GSC (now NMC) 8633.[9]
The use of Tetragonosaurus was rejected by Richard Swann Lull in favor of Procheneosaurus. Lull requested that the name Tetragonosaurus be suppressed in favor of Procheneosaurus, which was granted, and Procheneosaurus received official approval from the ICZN as a conserved name.[10] In 1942 he and Wright transferred the Tetragonosaurus species and, tentatively, Trachodonaltidens, to Procheneosaurus, with P. praeceps serving as the type species.[11] This usage was generally followed until 1975, when Peter Dodson proposed all three species were actually juveniles of Lambeosaurus.[12]
"Procheneosaurus" convincens, from the Late Cretaceous of Kazakhstan, is known from a nearly complete skeleton missing only the snout and end of the tail. It was named by A. K. Rozhdestvensky in 1968.[13] It has at times been considered synonymous with Jaxartosaurus aralensis,[14] or deserving of its own genus.[15] Bell and Brink (2013) made "P." convincens the type species of the new genus Kazaklambia.[16]
Other discoveries
The "cheneosaurines" weren't the only crested duckbills being studied and named in the early 1900s. It was then the accepted practice to name genera and species for what is now seen as more likely individual variation, variation due to age or sex, or distortion from fossilization. Three more species were named during this period that relate to Lambeosaurus, all in 1935. Sternberg, in the same paper as T. cranibrevis, named a skull and partial skeleton (GSC-8705, now NMC—8705) L. magnicristatum (corrected in 1937 to magnicristatus), and a smaller skull (GSC—8705, now NMC—8703) L. clavinitialis, with a less prominent crest and reduced spine pointing from the back.[9] Parks contributed Corythosaurus frontalis, based on skull GSC 5853 (now ROM 869), which differed from the well-known tall, straight, rounded crest of other specimens of Corythosaurus by having a low crest cocked forward.[17]
In 1975, Peter Dodson, examining why there should be so many species and genera of lambeosaurine duckbills within such a short geological time frame and small area, published the results of a morphometric study in which he measured dozens of skulls. He found that many of the species had been based on remains that were better interpreted as juveniles or different sexes, something touched on but largely ignored in older literature. For Lambeosaurus, he found that L. clavinitialis was probably the female of L. lambei, and Corythosaurus frontalis and Procheneosaurus praeceps were probably its juveniles. L. magnicristatus was different enough to warrant its own species. He interpreted Procheneosaurus cranibrevis and P. erectofrons as juvenile corythosaurs.[12] However, restudy of the Procheneosaurus/Tetragonosaurus remains indicates that within species, assignments had become confused, and the type specimen of P. cranibrevis was a Lambeosaurus juvenile, whereas others were Corythosaurus, based on the distinctive form of the contact of the nasal bone with the premaxilla.[19]
Dodson's model would become widely accepted, and two species of Lambeosaurus are regularly recognized today, with a third sometimes accepted. L. lambei (Parks, 1923) is known from at least 17 individuals, with seven skulls and partial skeletons and around ten isolated skulls. L. clavinitialis (C.M. Sternberg, 1935), Corythosaurus frontalis (Parks, 1935), and Procheneosaurus praeceps (Parks, 1931) are all still regarded as synonyms of L. lambei in recent reviews.[14] Some palaeontologists suggest that L. clavinitialis skulls without the backward spine may represent L. magnicristatus individuals instead,;[20] this was rejected in the 2007 redescription of L. magnicristatus.[21]
The second species, L. magnicristatus (C.M. Sternberg, 1935) is only definitely known from two specimens, both with skulls. Unfortunately, the majority of the articulated skeleton of the type specimen has been lost. Many of the bones were extensively damaged by water while in storage and were discarded before description; other portions of this skeleton have also been lost. Its remains come from slightly younger rocks than L. lambei.[21] The specific name is derived from the Latinmagnus "large" and cristatus "crested", referring to its bony crest.[22] Additionally, Jack Horner has identified fragmentary lambeosaurine jaws from the Bearpaw Formation of Montana as possibly belonging to L. magnicristatus; these represent the first lambeosaurine remains from marine rocks.[23]
Other less accepted species have been discussed in the 21st century. Lambeosaurus paucidens (named by Marsh 1889 and referred to Lambeosaurus in 1964) is generally regarded as a dubious name and was listed as Hadrosaurus paucidens in a 2004 review,[14] although at least one author, Donald F. Glut, has accepted it as a species of Lambeosaurus.[24] In this case, the specific epithet is derived from the Latin pauci- "few" and dens "tooth".[22] The irregularities of Procheneosaurus cranibrevis, and the identity of the type as a juvenile lambeosaur, were recognized in 2005.[19] Finally, "Didanodon altidens" has been assigned without comment to Lambeosaurus in two 21st Century reviews.[25][14]
During the late 1970s, Bill Morris was studying giant lambeosaurine remains from Baja California. He named them L.? laticaudus in 1981 (type specimen LACM 17715). Morris used a question mark in his work because no complete crest had been found for his species, and without it a definitive assignment could not be made. From what was known of the skull, he considered it to be most like Lambeosaurus. He interpreted this species as water-bound, due to features like its size, its tall and narrow tail (interpreted as a swimming adaptation), and weak hip articulations, as well as a healed broken thigh bone that he thought would have been too much of a handicap for a terrestrial animal to have survived long enough to heal.[26] This species was later (2012) assigned to the new genus Magnapaulia.[27]
Description
Lambeosaurus, best known through L. lambei,[28] was quite similar to Corythosaurus in everything but the form of the head adornment. Compared to Corythosaurus, the crest of Lambeosaurus, largely formed by the premaxillae, was shifted forward, and the hollow nasal passages within were at the front of the crest and stacked vertically.[12] It also can be differentiated from Corythosaurus by its lack of forking nasalprocesses making up part of the sides of the crest, which is the only way to tell juveniles of the two genera apart, as the crests took on their distinctive forms as the animals aged.[19]Lambeosaurus was like other hadrosaurids, and could move on both two legs and all fours, as shown by footprints of related animals. It had a long tail stiffened by ossified tendons that prevented it from drooping. The hands had four fingers, lacking the innermost finger of the generalized five-fingered tetrapod hand, while the second, third, and fourth fingers were bunched together and bore hooves, suggesting the animal could have used the hands for support. The fifth finger was free and could be used to manipulate objects. Each foot had only the three central toes.[14]
The most distinctive feature, the crest, was different in the two well-known species. In L. lambei, it had a hatchet-like shape when the dinosaur was full-grown, and was somewhat shorter and more rounded in specimens interpreted as females.[12] The "hatchet blade" projected in front of the eyes, and the "handle" was a solid bony rod that jutted out over the back of the skull. The "hatchet blade" had two sections: the uppermost portion was a thin bony "coxcomb" that grew out relatively late in life, when an individual neared adulthood; and the lower portion held hollow spaces that were continuations of the nasal passages.[12] In L. magnicristatus, the "handle" was greatly reduced, and the "blade" expanded,[29] forming a tall, exaggerated pompadour-like crest. This crest is damaged in the best overall specimen, and only the front half remains.[21]
Large adult specimens of Lambeosaurus have been estimated to be around 7–7.7 m (23–25 ft) in length and 2.5–3.3 metric tons (2.8–3.6 short tons) in body mass.[30] Impressions of the scales are known for several specimens; a specimen now assigned to L. lambei had a thin skin with uniform, polygonal scutes distributed in no particular order on the neck, torso, and tail.[31] Similar scalation is known from the neck, forelimb, and foot of a specimen of L. magnicristatus.[21]
Classification
Lambeosaurus is the type genus of the Lambeosaurinae, the subfamily of hadrosaurids that had hollow skull crests. Among the lambeosaurines, it is closely related to similar dinosaurs such as Corythosaurus and Hypacrosaurus, with little separating them but crest form.[14] The relationships among these dinosaur genera are difficult to pick out. Some early classifications placed these genera in the tribe Corythosaurini, which was found by David Evans and Robert Reisz to include Lambeosaurus as the sister taxon to a clade made up of Corythosaurus, Hypacrosaurus, and the Russian genus Olorotitan; these lambeosaurines, with Nipponosaurus.[21] However, later researchers pointed out that due to the rules of priority set forth by the ICZN, any tribe containing Lambeosaurus is properly named Lambeosaurini, and that therefore the name "Corythosaurini" is a junior synonym.[32] The following cladogram illustrating the relationships of Lambeosaurus and its close relatives was recovered in a 2022 phylogenetic analysis by Xing Hai and colleagues, finding it to be a close relative of Amurosaurus.[33]
As a hadrosaurid, Lambeosaurus was a large bipedal/quadrupedal herbivore, eating plants with a sophisticated skull that permitted a grinding motion analogous to mammalianchewing. Its teeth were continually replaced and were packed into dental batteries that each contained hundreds of teeth, only a relative handful of which were in use at any time. It used its beak to crop plant material, which was held in the jaws by a cheek-like organ. Feeding would have been from the ground up to around 4 meters (13 feet) above.[14] As noted by Bob Bakker, lambeosaurines have narrower beaks than hadrosaurines, implying that Lambeosaurus and its relatives could feed more selectively than their broad-beaked, crestless counterparts.[34]
Cranial crest
Like other lambeosaurines such as Parasaurolophus and Corythosaurus, Lambeosaurus had a distinctive crest on the top of its head. Respiratory tracts, ending in a nasal cavity, ran back through this crest, making it mostly hollow. Many suggestions have been made for the function or functions of the crest, including housing salt glands, improving the sense of smell, use as a snorkel or air trap, acting as a resonating chamber for making sounds, or being a method for different species or different sexes of the same species to recognize each other.[20][35] Social functions such as noisemaking and recognition have become the most widely accepted of the various hypotheses.[14]
The large size of hadrosaurid eye sockets and the presence of sclerotic rings in the eyes imply acute vision and diurnal habits, evidence that sight was important to these animals. The hadrosaurid sense of hearing also appears to be strong. There is at least one example, in the related Corythosaurus, of a slender stapes (reptilian ear bone) in place, which combined with a large space for an eardrum implies a sensitive middle ear, and the hadrosaurid lagena is elongate like a crocodilian's. This indicates that the auditory portion of the inner ear was well-developed.[20] If used as a noisemaker, the crest could also have provided recognizable differences for different species or sexes, because the differing layouts of the nasal passages corresponding to the different crest shapes would have produced intrinsically different sounds.[36]
^Parks, William A. (1923). "Corythosaurus intermedius, a new species of trachodont dinosaur". University of Toronto Studies, Geological Series. 15: 1–57.
^Parks, William A. (1931). "A new genus and two new species of trachodont dinosaurs from the Belly River Formation of Alberta". University of Toronto Studies, Geological Series. 31: 1–11.
^ abSternberg, Charles M. (1935). "Hooded hadrosaurs of the Belly River Series of the Upper Cretaceous". Canada Department of Mines Bulletin (Geological Series). 77 (52): 1–37.
^Rozhdestvensky, A.K. (1968). "Hadrosaurs of Kazakhstan". In Tatarinov, L.P.; et al. (eds.). Upper Paleozoic and Mesozoic Amphibians and Reptiles (in Russian). Moscow: Akademia Naul SSSR. pp. 97–141.
^ abcdefghHorner, John R.; Weishampel, David B.; Forster, Catherine A. (2004). "Hadrosauridae". In Weishampel, David B.; Dodson, Peter; Osmólska, Halszka (eds.). The Dinosauria (2nd ed.). Berkeley: University of California Press. pp. 438–463. ISBN978-0-520-24209-8.
^Bell, P. R.; Brink, K. S. (2013). "Kazaklambia convincens comb. nov., a primitive juvenile lambeosaurine from the Santonian of Kazakhstan". Cretaceous Research. 45: 265–274. Bibcode:2013CrRes..45..265B. doi:10.1016/j.cretres.2013.05.003.
^Parks, William A. (1931). "New species of trachodont dinosaurs from the Cretaceous formations of Alberta". University of Toronto Studies, Geological Series. 37: 1–45.
^Ostrom, John H. (1964). "The systematic position of Hadrosaurus (Ceratops) paucidens Marsh". Journal of Paleontology. 38 (1): 130–134. JSTOR1301503.
^ abcdeEvans, David C.; Reisz, Robert R. (2007). "Anatomy and relationships of Lambeosaurus magnicristatus, a crested hadrosaurid dinosaur (Ornithischia) from the Dinosaur Park Formation, Alberta". Journal of Vertebrate Paleontology. 27 (2): 373–393. doi:10.1671/0272-4634(2007)27[373:AAROLM]2.0.CO;2. ISSN0272-4634. S2CID86070917.
^ abSimpson, D.P. (1979). Cassell's Latin Dictionary (5th ed.). London: Cassell Ltd. p. 883. ISBN978-0-304-52257-6.
^Horner, John R. (1979). "Upper Cretaceous dinosaurs from the Bearpaw Shale (marine) of south-central Montana with a checklist of Upper Cretaceous dinosaur remains from marine sediments in North America". Journal of Paleontology. 53 (3): 566–577. JSTOR1303998.
^Lund, E.K. and Gates, T.A. (2006). "A historical and biogeographical examination of hadrosaurian dinosaurs." pp. 263 in Lucas, S.G. and Sullivan, R.M. (eds.), Late Cretaceous vertebrates from the Western Interior. New Mexico Museum of Natural History and Science Bulletin 35.
^Morris, William J. (1981). "A new species of hadrosaurian dinosaur from the Upper Cretaceous of Baja California: ?Lambeosaurus laticaudus". Journal of Paleontology. 55 (2): 453–462. JSTOR1304231.
^Norman, David B. (1985). "Hadrosaurids II". The Illustrated Encyclopedia of Dinosaurs: An Original and Compelling Insight into Life in the Dinosaur Kingdom. New York: Crescent Books. pp. 122–127. ISBN978-0-517-46890-6.
^Weishampel, David B.; Barrett, Paul M.; Coria, Rodolfo A.; Le Loeuff, Jean; Xu Xing; Zhao Xijin; Sahni, Ashok; Gomani, Elizabeth, M.P.; and Noto, Christopher R. (2004). "Dinosaur Distribution", in The Dinosauria (2nd ed.). Berkeley: University of California Press. pp. 517–606. ISBN0-520-24209-2
Lull, Richard S.; Wright, Nelda E. (1942). "Hadrosaurian Dinosaurs of North America". 40 : Hadrosaurian Dinosaurs of North America. Geological Society of America Special Papers. Vol. 40. pp. 1–272. doi:10.1130/SPE40-p1.
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