Most of the skeleton is preserved, the bones still attached to each other in their original anatomical position. The tail, hind feet, and hind portion of the pelvis had eroded away before the mummy was discovered. Fossils often become flattened during fossilization, but AMNH 5060 is preserved three-dimensionally, without significant deformation. The specimen was found lying on its back, with head and neck twisted upwards, backwards, and to the right side of the body. Both knees are drawn forwards, while the forelimbs are outstretched. Although the tail curves upwards and forwards over the body in many dinosaur skeletons, it was probably straight in the mummy as movement would have been restricted by . Almost two-thirds of the total skin area is preserved, often with excellent preservation. The skin impressions are pressed tightly onto the bones, and are partially drawn into the body in between the bones. When discovered, skin impressions probably encased the whole skeleton, but were partially destroyed while freeing it from the surrounding rocks. Skin impressions are preserved on the forelimbs, neck and throat, and the chest, as well as on the right side of the trunk. As well as the skin impressions, Sternberg noted the preservation of muscle impressions. In 2007, paleontologist
Kenneth Carpenter suggested that even impressions of inner organs are possibly preserved; this cannot be evaluated without detailed
computer tomography and
x-ray analyses.
Skin The skin was thin and delicate in relation to the size of the animal. As typical for dinosaurs, the skin consisted of non-overlapping scales called
tubercles. Two sorts of tubercles can be distinguished. Evenly distributed on the skin were the "ground tubercles", which were small, rounded scales between in diameter. The larger "pavement tubercles", less than in diameter, were pentagonal in shape, raised relative to the ground tubercles, and arranged in irregular clusters interrupting the surface formed by the lower ground tubercles. These clusters consisted of between twenty and several hundred individual pavement tubercles, and were bordered by intermediate tubercles which mediated in size and shape between ground and pavement tubercles. In the chest and abdominal region, clusters were small, oval in shape and arranged in irregular longitudinal lines. They became larger towards the sides of the trunk, where they reached in diameter; their shape became more irregular. The largest clusters could be found above the pelvis and measured in diameter; clusters of similar size were presumably present along the whole back of the animal. Muscles and joints were generally occupied with smaller tubercles to enable greater flexibility—larger tubercles are found in those parts that are tightly pressed to the bones. The largest surviving scales are found on the outer side of the arms; these polygonal tubercles were up to in diameter. The inner side of the arms was completely covered by small tubercles. The thigh also showed relatively small tubercles on the inner side; no impressions of the outer side are preserved. A patch of skin is also present in the nostril region of the snout; these scales measured in diameter.
Skin frill Above the neck vertebrae, a long and deep skin impression is preserved. Osborn interpreted this impression as part of an ornamental frill of loose skin that extended along the midline of the neck and back. Osborn noted that this frill was folded above the vertebral joints to ensure mobility of the neck, giving the comb a ruff-like appearance. The areas in-between the folded areas were occupied by an oval cluster of pavement tubercles. Osborn observed that the upper edge of the comb had been destroyed during the recovery of the mummy, so that the height of the crest can no longer be determined. He assumed that the frill would have extended upwards by at least one further row of clusters. An
Edmontosaurus fossil described by the paleontologist
John Horner in 1984 shows a regular row of broad spikes in the tail area. Stephen Czerkas, in 1997, argued that this row would likely have extended over much of the body, including the neck, making a frill of loosely folded skin seem unlikely. Instead, the skin impression described by Osborn would have come from the fleshy crest above the downward-curved neck spine. This neck crest would have been much deeper than previously assumed, connecting the base of the head to the shoulder region. The observed folding would have been a consequence of mummification and caused by a withered
nuchal ligament. In 2025, Sereno and colleagues confirmed the presence of a skin frill based on two newly discovered
Edmontosaurus mummies. These specimens show that the frill continued down the neck and trunk, grading into the row of spikes in the hip region. The frill was probably flexible in life.
Hand AMNH 5060 allowed for the first accurate reconstruction of the hand skeleton of a hadrosaurid. Barnum Brown, in 1912, showed that the
carpus of the mummy did not consist of two complete rows of ossified
carpals, as
Othniel Charles Marsh had assumed in his reconstruction of 1892, but that only two ossified carpals were present. In the mummy, these elements lie directly above each other and above the third
metacarpal. This arrangement probably reflects the original position in the living animal since both hands show the same arrangement. Brown further pointed out that the first finger was missing and the second to fifth fingers each consisted of three
phalanges. Marsh had reconstructed the first finger as a reduced element with only two phalanges, while the fifth finger was absent in his reconstruction. The fingers of the mummy are partially connected to each other by an envelope of skin impressions. In 1912, Osborn suggested that this skin envelope represented
webbing between fingers and that the forelimb would have functioned as a paddle, which he considered a clear indication of an aquatic lifestyle for
Trachodon (=
Edmontosaurus) and presumably other representatives of the Trachodontidae (= Hadrosauridae). The webbing would not only have connected the fingers with each other, but would also have extended up to beyond the fingertips. Furthermore, Osborn noted the lack of clearly pronounced hooves and large fleshy foot pads on the forelimb—features to be expected in a primarily land-dwelling animal. With the Senckenberg mummy, another
Trachodon specimen with supposed webbing was discovered in 1910. A possible aquatic lifestyle of hadrosaurids had been proposed before, in particular based on the great depth and flat sides of a well-preserved tail discovered by Brown in 1906. This hypothesis appeared to be in accordance with an 1883 account by
Edward Drinker Cope describing hadrosaurid teeth as "slightly attached" and "delicate", and therefore suitable for feeding on soft aquatic plants. It was only after the discovery of the two mummies that the hypothesis of an aquatic lifestyle became the undisputed doctrine. Charles H. Sternberg wrote in 1917: of
Trachodon (
Edmontosaurus) drawn by
Charles R. Knight under supervision of
Henry Fairfield Osborn. The fingers are shown to be joined into a paddle, as was inferred from the apparent interdigital webbing seen in the mummy. It was not until 1964 that
John H. Ostrom voiced doubts about the webbed-finger hypothesis. Ostrom was able to show that hadrosaurids did not feed on soft aquatic plants as previously assumed, but that their elaborate chewing apparatus was designed to crush resistant plant material such as conifers. The skeletal anatomy would furthermore indicate a highly specialized two-legged locomotion on land. Ostrom noted that hadrosaurids showed no
osteoderms or similar structures to defend against predators that are found in many other herbivorous dinosaurs, and suggested that the webs may have been used to allow escape into the water in case of danger.
Robert Bakker, in 1986, argued that the animal had no webs, and that the skin between its fingers was the remnant of a fleshy pad enveloping the hand that had dried out and flattened during mummification. Very similar skin structures originating from foot pads can be found on modern-day mummified camel carcasses. Furthermore, Bakker argued that the fingers were short and could hardly have been spread apart, which distinguishes them fundamentally from the long, spread toes of today's paddling animals such as ducks. Bakker concluded: Today, the webbing hypothesis is widely refuted. Phil Senter, in 2012, examined AMNH 5060 and several other hadrosaurid specimens to reconstruct the orientation of the hand. While trackway evidence indicates that the palm was directed inwards and only slightly backwards, many hadrosaurid skeletons have instead been mounted with the palm of the hand facing backwards. In such reconstructions, the
radius either crosses the
ulna (instead of being parallel) or connects to the inner of the two
condyles of the
humerus (instead of to the outer). Although the palms of the mummy face backwards, this is because the carcass lay on its back, which caused the forelimbs to sprawl and the humeri to detach from the shoulder joints. In both forelimbs of the mummy, radius and ulna are parallel to each other and the radius is connected to the outer condyle, confirming that the palm must have faced inwards in life.
Ossified tendons and stomach contents In 1909, Charles H. Sternberg noted that hundreds of ossified tendons were preserved along the dorsal spine, each about as thick as a pencil. Sternberg speculated that these tendons served as defensive structures and could not be penetrated by the claws of predatory dinosaurs such as the contemporary
Tyrannosaurus. Today it is known that these tendons stiffened the spine, probably to counteract bending forces on the spine during walking. Although the tail is not preserved in the mummy, other
Edmontosaurus specimens show that it had also been stiffened by such tendons. Sternberg also reported carbonized food remains discovered in the stomach region of the mummy. An analysis of these remains has not yet been performed. In 1922, the
paleobotanist Richard Kräusel studied a mass of brown plant material in the body cavity of the Senckenberg mummy that consisted mainly of branches and needles of conifers. These remains are now thought be have been washed into the cadaver, and the same could be true for the plant remains in the AMNH mummy.
Attempts to reconstruct color patterns '' Osborn observed in 1912 that clusters of "pavement tubercles" were more numerous on the upper sides of the trunk and limbs than on the underside. Consequently, they would dominate in areas that would have been exposed to the sun when the animal was alive; in many reptiles living today, these sun-exposed areas contain the most
pigment. From these observations, Osborn hypothesized a connection between pigmentation and scaling: the "pavement tubercle" clusters might have represented dark-colored areas on a bright base; the irregular distribution of the clusters would indicate an irregular color pattern; and the most elaborate color pattern would be present on the skin frill of the neck. Osborn did admit that in today's
lizards the distribution of pigments is largely independent of the type of scaling.
Catherine Forster, in 1997, stated that color information can in principle not be derived from the skin impressions of dinosaur mummies. In 2015, Philip Manning and colleagues concluded that skin in dinosaur mummies is not simply preserved as an impression but contains organic compounds, either
biomolecules or their breakdown products. These researchers inferred the presence of
melanin pigments in the skin of another
Edmontosaurus mummy nicknamed
Dakota. While clarifying that a reconstruction of the coloration is currently not possible given the many different factors that influence coloration, they remarked that the melanin distribution may potentially allow for deriving a monochrome (black-and-white) picture of the animal's pigmentation pattern. Any chemical analysis of AMNH 5060 would be problematic, however, as consolidating chemicals have been applied to its skin for preservation. In their 2025 study, Sereno and colleagues found no evidence of organic compounds in the skin of two new mummies from the Lance Formation, and suggested that the same is likely the case in other mummies from the formation, including the AMNH and Senckenberg mummies.
Nostrils (on exhibition in the
Senckenberg Museum in
Frankfurt am Main, Germany) As in other
Edmontosaurus specimens, the sides of the snout were excavated by a large and elongated depression, the circumnarial depression, which housed the nostrils. As confirmed by AMNH 5060, the would not have occupied the entire depression.
Richard Swann Lull and Nelda Wright, in a 1942 publication, suggested that skin impressions are preserved within the depression; a deepening in this possible skin in the front part of the depression could mark the position of the fleshy nostrils. This skin is smooth and wrinkled and tubercles are absent, in contrast with the rest of the body. Accordingly,
paleoart often shows the remainder of the depression being occupied by a scaleless, inflatable bladder. In 2015, however, Albert Prieto-Márquez and Jonathan Wagner found low and subtle impressions of polygonal scales in the frontmost part of the depression behind the beak. These scales suggest that the rest of the skin that once covered the depression might have been scaly. For this reason, these authors preferred an older interpretation by James A. Hopson from 1975, who proposed a scaly bladder with brightly colored skin between the scales which became visible only when the bladder was inflated. Prieto-Márquez and Wagner further suggested that sedimentary ridges within the depression likely represent former soft-tissue structures. The rear edge of the bony nostril was extended towards the front by a flange which was probably a cartilaginous structure, indicating that the rear part of the bony nostril was covered by soft tissue, forming a nasal cavity. As this covering was apparently restricted to the rear part, it is likely that the opening of the nasal passage into the skull interior would also have been situated there. A ridge running diagonally across the depression might have been a cartilaginous septum supporting a nasal cavity. The ridge ends in the lower front of the depression, which is the most likely location for the fleshy nostril. The nasal cavity that this ridge once supported would therefore have been the main nasal air passage. == Taphonomy ==