An elephant-sized Late Triassic synapsid with erect limbs

A proto-mammalian giant Early terrestrial amniotes evolved into two groups: the sauropsids, which led to the bird and dinosaur lineages, and the synapsids, which led to mammals. Synapsids were diverse during the Permian but were greatly reduced after the end-Permian extinction (about 252 million years ago). The few groups that survived into the Triassic were mostly small and retained a sprawling gait. Sulej and Niedźwiedzki, however, describe a dicynodont from the Late Triassic of Poland that is as large as some coexisting dinosaurs and appears to have had an erect gait—like modern mammals. Thus, megaherbivores in the Triassic were not only dinosaurs. Science, this issue p. 78 A fossil found in present-day Poland represents a proto-mammal giant herbivore named Lisowicia bojani. Here, we describe the dicynodont Lisowicia bojani, from the Late Triassic of Poland, a gigantic synapsid with seemingly upright subcursorial limbs that reached an estimated length of more than 4.5 meters, height of 2.6 meters, and body mass of 9 tons. Lisowicia is the youngest undisputed dicynodont and the largest nondinosaurian terrestrial tetrapod from the Triassic. The lack of lines of arrested growth and the highly remodeled cortex of its limb bones suggest permanently rapid growth and recalls that of dinosaurs and mammals. The discovery of Lisowicia overturns the established picture of the Triassic megaherbivore radiation as a phenomenon restricted to dinosaurs and shows that stem-group mammals were capable of reaching body sizes that were not attained again in mammalian evolution until the latest Eocene.

T he time interval from the end of the Permian to the beginning of the Jurassic (252 to 201 million years ago) coincided with a trophic and taxonomic restructuring of terrestrial ecosystems (1). During the middle Permian, the predominant large herbivores were dinocephalians-stem-group mammals (in the clade Synapsida, "mammal-like reptiles") such as Tapinocephalus, which was up to 3 m in length and weighed an estimated 2 tons (2). These animals were associated with faunas of nonsynapsid pareiasaurian parareptiles and a rich variety of other synapsids. In the late Permian, the largesize synapsid herbivores (rhachiocephalid dicynodonts) and the last pareiasaurians played the role of largest terrestrial herbivores (2). By the Early Jurassic, no stem-group mammals were larger than a half meter in length, and most were much smaller (3,4), whereas herbivorous dinosaurs exceeded 15 m in length and 10 tons in weight; virtually all mid-sized to large tetrapods were archosaurs. Until now, this pattern has appeared clear-cut, with Triassic synapsids approaching the largest Permian forms in size but with no forms reaching sizes of the first large sauropodomorphs.
Dicynodonts were among the most abundant and diverse synapsids from the middle Permian to the early Late Triassic (5,6). There were two episodes of body size increase in their evolution: the first in the late Permian, exemplified by Rhachiocephalus, and the second in the Middle to Late Triassic, when dicynodonts such as Placerias were the dominant herbivores in some ecosystems (6). There have been comparatively few rigorous estimates of dicynodont or dinocephalian body masses presented in the literature. The largest of these dicynodonts (such as kannemeyeriiforms) are estimated previously to have reached lengths of 3 to 3.5 m and weights of up to 1 to 2 tons (2, 7), which is very similar to the largest middle Permian dinocephalians, such as Tapinocephalus or Moschops (2).
Fossils of Triassic dicynodonts are extremely abundant in African, Asian, and North and South American deposits but are comparatively poorly known from other regions (5,6). Dicynodonts were seemingly rare in the European Late Triassic, being known only from a single mandible (8) and questionable isolated bones (9). The Late Triassic dicynodont fossils described here, of Lisowicia bojani, are the first substantial finds from Europe (10,11).
Many previous authors have analyzed the structure of the pelvic girdle of Triassic dicynodonts, resulting in the unanimous opinion that the posture of the hindlimbs was erect (12). By contrast, most authors agree that Triassic dicynodonts had sprawling forelimbs with the horizontal position of the humerus (13). Lisowicia has a relatively conventional dicynodont hindlimb construction but departs from the standard forelimb posture (Fig. 1). In many respects, its forelimb position resembles that of large quadrupedal dinosaurs, but forelimb elements of Lisowicia are morphologically similar to other dicynodonts (Fig. 2). The result is a subcursorial tetrapod with upright limb posture, unlike any other known stem-group mammal but comparable with that of large crown-group mammals such as rhinoceroses and hippopotami, as well as quadrupedal dinosaurs such as sauropodomorphs and ceratopsians.
Histological data from limb bones of Lisowicia provide life history data that complement its distinctness. Like other large dicynodonts, Lisowicia shows a large area of bone resorption in the inner cortex. However, unlike in other genera, there is no clear sign of growth-slowing later in life. The presence of potential lines of arrested growth in the studied tibia might be indicative of slower, more episodic growth. However, the lack of characteristic slow-growing tissue on the periphery of the largest bones of Lisowicia suggests that the studied material represents either a fastgrowing taxon or juvenile/subadult individuals of extremely large body size. However, the second explanation is rather unlikely because of its size and that these two bones are well ossified.
Lisowicia demonstrates that Late Triassic dicynodonts became specialized herbivores. It displays several features in the limb skeleton that suggest that this group evolved new postural adaptations. The massive scapula of Lisowicia lacks a distinct acromion process for articulation with the clavicle, the scapula articulates with the humerus on its posteroventrally (instead of posterolaterally) located glenoid, and distal articulation surfaces of the humerus are in the same plane instead of being rotated (formal taxonomic description is provided in the supplementary materials).
On the basis of published scaling relationships (14), we estimate an adult body mass of 9000 kg, which approaches that of an African elephant [the largest recorded individual stood 4 m at the shoulders and weighed 10,000 kg (15)]. This confirms that Lisowicia was certainly the largest Triassic land nondinosaur tetrapod. Gigantism in herbivorous dinosaurs first emerged in the Late Triassic, with the evolution of the first large sauropodomorphs (16,17) and then the earliest true sauropods (18). Until now, gigantism in the Triassic appeared to be entirely a dinosaur adaptation (19), and previously known Triassic dicynodonts were substantially smaller. The discovery of Lisowicia suggests that general ecological factors may have been driving the process, rather than clade-specific attributes of dinosaurs (20).
The find of Lisowicia shows that at least one dicynodont lineage also participated in the "push for gigantism" at the same time as the sauropodomorphs (20) but also suggests that their evolutionary history in the Late Triassic is poorly documented (Fig. 3A). In addition, recognition of Lisowicia as a placeriine dicynodont together with the resurrection and recent description of Pentasaurus from South Africa (21) alters our understanding of the Late Triassic fossil record of dicynodonts. Although their relatively lower abundance and richness compared with those of Middle and early Late Triassic faunas suggest evolutionary decline, the concept of the Late Triassic kannemeyeriiforms as highly geographically restricted relicts is no longer valid (22). The recognition of dicynodonts in the late Norian-earliest Rhaetian of Europe (10) and Karoo Basin (21) conflicts with some ideas on early Late Triassic dicynodont extinction and survival, namely their supposed absence during the radiation of early sauropodomorphs (Fig. 3B).
Upright posture has been associated with decreased joint stress and energetic cost of locomotion (23). Selection pressures on some aspects of lifestyle or ecology were likely drivers of the evolution of the distinct posture of Lisowicia among dicynodonts. Increase in the body size of dicynodonts across the Late Triassic may have been driven by selection pressure to reach a size refuge from large predators (24). It is possible also that the gigantism of the latest dicynodonts was a metabolic adaptation that allowed these animals to maximize food retention time and consequently the energy gain (25). It took Late Triassic dicynodonts some 20 million years to produce giant forms (Fig. 3, B and C), and it was a rather gradual size increase and a similar pace Sulej  to that observed in the evolution of herbivorous dinosaurs in the Mesozoic and mammalian lineages in the mid-late Paleogene (26). All suggest that in the Late Triassic, there was a substantial temporal overlap in the occurrence of very large herbivores: the previously dominant dicynodonts and their emerging ecological analogs among archosaurs, the sauropodomorph dinosaurs.