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Saturday, 22 August 2020

Elessaurus gondwanoccidens: A new species of Tanystropheid Archosauromorph from the Early Triassic Sanga do Cabral Formation of the Paraná Basin, Southern Brazil.

Archosauromorpha comprises an exceptionally diverse clade of Diapsids, which originated during the Permian and progressively increased its diversity throughout the Mesozoic and Cainozoic eras. The most critical adaptive radiation of this clade took place following the aftermath of the Permian-Triassic mass extinction, resulting in a wide spectrum of occupation regarding both habitat and ecological niches. After the Permian-Triassic crisis, the Archosauromorph fossil record is considerably abundant and morphologically diverse, including highly specialised herbivores (Rhynchosaurs), large apex predators (Erythrosuchids), aquatic predators (Phytosaurs), armored Crocodile-like forms (Aetosaurs), and gracile Dinosaur precursors. One of the early Archosauromorph clades that better illustrates the morphological disparity of the group is the Tanystropheidae, which comprises Macrocnemus, Tanystropheus, Amotosaurus, Langobardisaurus, and Tanytrachelos. Recently, Boreopricea funerea and Dinocephalosaurus orientalis and were also recovered as phylogenetically closer to the Tanystropheids than to other Archosauromorphs. Tanystropheidae is remarkable for including sometimes bizarre representatives with extreme morphologies. Members of this clade are recognizable by their long necks, composed of eight (Macrocnemus) to thirteen (Tanystropheus) moderately to extremely elongated cervical vertebrae with very long and low neural spines. Overall, the Tanystropheid bauplan is regarded as evidence of a semiaquatic or even completely aquatic lifestyles. However, recent studies failed to support a fully aquatic habit for Tanystropheids, demonstrating that Macrocnemus was presumably terrestrial, whereas the lifestyle of the enigmatic Tanystropheus, the largest and most bizarre of all Tanystropheids, remains enigmatic. The fossil record of Tanystropheids and related forms mostly come from the Middle/Late Triassic of Asia, Europe and North America, and the clade is exceptionally rare in Lower Triassic rocks. Although the fossil record of Tanystropheidae was, until recently, restricted to the Northern Hemisphere, in 2018 isolated cervical vertebrae that share synapomorphies with this clade were reported from the Induan/Olenekian Sanga do Cabral Formation, which belongs to the Brazilian portion of the Sanga do Cabral Supersequence. In addition, a humeral fragment compatible with Tanystropheidae was recovered from Upper Permian strata of the Rio do Rasto Formation, Southern Brazil.

In a paper published in the journal PLoS One on 8 April 2020, Tiane De-Oliveira of the Programa Pós-Graduação em Biodiversidade Animal at the Universidade Federal de Santa Maria, and the Laboratório de Paleobiologia at the Universidade Federal do Pampa, Felipe Pinheiro, also of the Laboratório de Paleobiologia at the Universidade Federal do Pampa, Átila Augusto Stock Da-Rosa and Sérgio Dias-Da-Silva, also of the Programa de Pós-Graduação em Biodiversidade Animal, and of the Laboratório de Paleobiodiversidade Triássica, at the Universidade Federal de Santa Maria, and Leonardo Kerber, once again of the Programa de Pós-Graduação em Biodiversidade Animal and also the Centro de Apoio à Pesquisa Paleontológica da Quarta Colônia at the Universidade Federal de Santa Maria, as well as the Museu Paraense Emílio Goeldi, describe a new species of Tanystropheid Archosauromorph from the Early Triassic Sanga do Cabral Formation of the Paraná Basin, Southern Brazil, which provides insights on the hidden western Gondwanan Archosauromorph diversity after the Permo-Triassic global crisis, adding information on the early distribution and lifestyle of Tanystropheid-like fDe-Oliveiraorms.

Based upon its Tetrapod content, the Sanga do Cabral Formation is regarded as Lower Triassic, being correlated to the Katberg Formation of the South African Karoo Basin (Lystrosaurus Assemblage Zone). Although recent collection efforts substantially increased the number of Archosauromorph specimens recovered from the Sanga do Cabral Formation, its diversity is still poor when compared to coeval deposits from South Africa, which have yielded the Rhynchosaur Noteosuchus, the well-known Prolacerta, and the Archosauriform Proterosuchus. Nevertheless, the Sanga do Cabral Formation is one of the oldest Triassic sedimentary units yielding fossil Vertebrates De-Oliveirafrom South America and provides a unique opportunity to study the biotic recovery after the Permian/Triassic boundary.

The material, under collection number UFSM 11471, consists of an almost complete posterior limb with an articulated femur, tibia, fibula, and pes. The specimen also preserves portions of the pelvic girdle, sacral, and caudal vertebrae. The new specimen was collected at the locality Bica São Tomé, Sanga do Cabral Formation (Sanga do Cabral Supersequence, Paraná Basin) municipality of São Francisco de Assis, Rio Grande do Sul, Southern Brazil. It is housed at the palaeontological collection of the Laboratório de Paleobiologia e Estratigrafia of the Universidade Federal de Santa Maria, Santa Maria, Rio Grande do Sul, Brazil. No permits were required for the described study, which complied with all relevant regulations.

Specimen UFSM 11471 comprises a partially articulated hind limb associated with axial elements, composed of femur, tibia, fibula, pelvic girdle bones, sacral and caudal vertebrae, as well as an almost complete pes. 

The new species is named Elessaurus gondwanoccidens, where Elessaurus derives from 'Elessar', meaning ‘elf-stone’ in the fictional language Quenya, created by J.R.R. Tolkienl in Tolkien’s Middle Earth universe, Elessar Telcontar is the name chosen by king Aragorn II, who, by his turn, is also known as Strider or ‘longshanks’, the comparatively long zeugopodium of UFSM 11471 makes it a long-shanked animal, justifying the name, plus '-saurus' comes from Greek, meaning ‘Lizard’, and 'gondwanoccidens' is derived from the supercontinent Gondwana and the Latin adjective occidens, ‘from west’, in a reference to the locality from where the new species was recovered.

Elessaurus gondwanoccidens differs from all other archosauromorphs based upon a unique combination of characters: second sacral vertebral rib elongated and distally bifurcated, with a robust articular surface; transverse processes of the caudal vertebrae inclined posterodorsally; strongly sigmoidal femur; tibia and fibula longer than femur; metatarsals increase in size from the first to the fourth toe; fifth metatarsal short, with a proximal hook-shaped end; presence of a calcaneal tuber.

The specimen was collected at the locality known as Bica São Tomé, Sanga do Cabral Formation (Sanga do Cabral Supersequence, Paraná Basin), municipality of São Francisco de Assis, Rio Grande do Sul, Southern Brazil. Elessaurus gondwanoccidens was collected in one of the five outcrops comprising the Bica São Tomé. An Induan-Olenekian age (251–247 million years old) is inferred for this formation based on the presence of the Parareptile Procolophon trigoniceps, and comparisons with the Lystrosaurus Assemblage Zone of the South African Karoo Basin. Elessaurus gondwanoccidens represents the most complete postcranial skeleton so far recovered from this unit, as Sanga do Cabral fossils are often fragmentary, with rare occurrences of associated elements.

 
Type locality of Elessaurus gondwanoccidens (UFSM 11471). (A) Geographic map evidencing the type-locality of Elessaurus gondwanoccidens, (São Francisco de Assis, Brazil); (B) Simplified stratigraphic profile of the outcrop, showing the level where UFSM 11471 was found. Silhouette shows bones preserved of UFSM 11471 in dark grey colour. De-Oliveira et al. (2020).

The Elessaurus gondwanoccidens holotype is composed of an almost complete hindlimb associated with pelvic girdle bones and partially articulated sacral and caudal vertebrae. Although some elements show signs of compression (e.g. femur, tibia), all bones are close to a natural position, except for a slight displacement of some tarsal elements and distal phalanges missing in most digits. The specimen is morphologically compatible with basal Archosauromorphs, especially with Tanystropheidae.

 
Elessaurus gondwanoccidens (UFSM 11471) from the Sanga do Cabral Formation (Lower Triassic), Brazil. Photograph and explanatory drawing respectively. Abbreviations: fe, femur; ti, tibia; gr, groove; fi, fibula; il, ilium; sv, sacral vertebra; cv, caudal vertebrae. De-Oliveira et al. (2020).
 
Specimen UFSM 11471 preserves a complete second sacral vertebra associated with the first and second caudal elements. The first sacral comprises scattered fragments articulated to sacral II, which is well preserved and articulated to the ilium. The pleurapophysis of the second sacral vertebra is bifurcated distally, with a posterior process ending in a pointed tip. The distal end of the pleurapophysis is expanded and presents a wide triangular surface (as observed in dorsal view) which contacts the ilium.
 
 
Sacral and caudal vertebrae of Elessaurus gondwanoccidens (UFSM 11471) in dorsal view. Photograph and explanatory drawing respectively. Abbreviations: sv2, second sacral vertebra; cv, caudal vertebrae 1–3. De-Oliveira et al. (2020).
 
The elongated and distally bifurcated pleurapophysis of the second sacral vertebra resembles the condition observed in Tanystropheids such as Macrocnemus. This condition, however, is also present in Trilophosaurus buettneri and Prolacerta, as well as in some extant Lizards. Augustaburiania vatagini shows an alternative condition, where sacral vertebrae present small sacral ribs that deviate laterally in the middle of the centrum. Tanystropheus longobardicus, the best-known tanystropheid, lacks distally bifurcated sacral ribs, whereas Amotosaurus rotfeldensis presents the bifurcation of the second sacral rib more anteroposteriorly expanded than Elessaurus gondwanoccidens, which presents the posterior process of the second sacral rib distally sharp, ending in a pointed tip, whereas in Prolacerta  this process is terminally blunt. Tanytrachelos does not present a bifurcated second sacral rib, and, together with Jesairosaurus lehmani, it presents the transverse processes of the caudal vertebrae slightly inclined posterolaterally.

The anteriormost caudal vertebra has the same anteroposterior length of the second sacral and shows prominent transverse processes, projecting distinctly laterally to the pleurapophysis of the sacral vertebrae and the dorsal part of the ilium. In dorsal view, the transverse processes are posterolaterally directed. Although the transverse processes of the second caudal vertebra are scattered, they are slightly longer than those from the first caudal vertebra. The anterior caudal vertebrae also present distinct transverse processes in Tanystropheus and Langobardisaurus.

The pelvic girdle is fragmented, with its bones only partially preserved and exposed, being relatively small when compared to the large hindlimbs. The ilium is discernible in dorsolateral view, and it is not clear if both pubis and ischium are preserved. The ilium is expanded into a dorsal lamina that articulates with the large pleurapophysis of the sacral vertebra. Anteriorly to this, the ilium presents a strongly projected process. The dorsal margin of the iliac lamina is predominantly straight, with a horizontal orientation. The supracetabular surface is thickened, and the lateral surface of the acetabulum is roughly circular. The posterior process of the ilium is strongly developed, extending posteriorly to the acetabulum.

The pelvic girdles of Prolacerta and Tanystropheids are similar to that of Elessaurus gondwanoccidens regarding the presence of a posterodorsally directed triangular blade on the ilium. Although the iliac lamina of Elessaurus is partially broken, it is possible to discern a short preacetabular process similar to that observed in Macrocnemus bassanii (specimen T 2472). This is a robust process in this specimen, being also present (albeit less pronounced) in Tanystropheus longobardicus (specimen MSNM BES SC 1018) and Dinocephalosaurus (IVPP V13898), this latter presents the ilium with moderately developed preacetabular process and distinct dorsal iliac blade. Conversely, in Prolacerta the anterior margin of the ilium is convex, the same occurring in Jesairosaurus lehmani.

With a total size of 64.85 mm, the femur is slightly shorter than the tibia and fibula. Its proximal end is poorly preserved and strongly compressed. The distal end of the femur is 16.55 mm in width, whereas the proximal part measures 15.44 mm. It is a gracile bone, with the ratio between the transversal width of the distal end and the total length of the bone being 3.91. Despite it shows signs of preservational compression, the femur is strongly sigmoid in lateral view, differing from the specimen GR-304, which is nearly straight, turning distally from the surface of the proximal head.

Both Tanystropheus longobardicus (MSNM BES SC 265) and Tanytrachelos (YPM 7622) present a more subtle femur curvature when compared to Elessaurus gondwanoccidens, which resembles Macrocnemus bassanii (T 4355) and Augustaburiania, as both present gracile and strongly sigmoidal femora. The femur of Dinocephalosaurus (IVPP V13898) is also a slightly curved element that resembles Tanystropheus longobardicus (MSNM BES SC 265). The shaft of the left femur of Boreopricea funerea (PIN 3708/1) also shows a slight sigmoid bend.

Probably due to poor preservation, the proximal surface of the femur has a quadrangular outline. The femoral head appears to be confluent with the shaft. The dorsolateral margin of the proximal portion of the femur is smooth and featureless, as is the transition between the femoral head and diaphysis. The femoral head is weakly expanded in Tanystropheids (e.g. Tanytrachelos ahynis, AMNH FARB 7206, GR 301). In other basal Archosauromorphs such as Azendohsaurus madagaskarensis (UA 7-20-99-653), the proximal end is moderately expanded relative to the midshaft, as it is in some Rhynchosaurs and early Archosauriforms (e.g. Proterosuchus alexanderi, NMQR 1484; Erythrosuchus africanus, NHMUK 3592). The internal trochanter is present as a ridge-shaped process that defines a relatively wide intertrochanteric fossa, converging to the proximal end. The internal trochanter is continuous with the proximal articular surface. The transition from the plesiomorphic condition of a proximal trochanter, including an inner trochanter and a posterior trochanter (e.g. Erythrosuchus africanus; Trilophosaurus buettneri) to a large fourth trochanter and a larger trochanter (e.g. Alligator, Dinosaurs), occurs within Archosauriforms. Thus, the presence of an internal trochanter allied to the absence of a fourth trochanter strongly supports nesting of Elessaurus gondwanoccidens in a clade outside Eucrocopoda (defined as a suprageneric taxon including non-Proterosuchian Archosauriforms). A well-developed internal trochanter projecting from the proximal end of the femur is present in early Archosauromorphs, including Tanystropheids (e.g. Macrocnemus bassanii and Tanystropheus longobardicus). An internal trochanter that does not reach the proximal surface of the femur is evident in Rhynchosaurs and some Archosauriforms, such as Proterosuchus fergusi and Erythrosuchus africanus.

Despite its compression, the femur of Elessaurus gondwanoccidens is slightly widened distally. Distally expanded femora (although in a lesser degree) occur in Prolacerta broomi (BP/1/2676), Tanystropheids (e.g. Tanystropheus, GR 301, and Dinocephalosaurus, that presents the proximal and distal ends of the femur distinctly expanded.

The distal end of the femur is marked by two delineated, unequal distal condyles, with the lateral larger than the medial one. They are distinctly expanded beyond the circumference of the femoral shaft. In distal view, the fibular condyle has a subtriangular lateral surface.

The poor preservation of the tibia hinders a proper morphological assessment of this bone. Tibia and fibula present both a length about 12% greater than the femur. The length relationship between tibia and fibula is considered an important phylogenetic feature in basal Archosaurs. Among those, the tibia is longer than the femur in basal Pterosaurs (e.g. Preondactylus), Lagerpeton, Dromomeron, Marasuchus, Pseudolagosuchus, basal Ornithischians, Eoraptor, and most basal Dinosauromorphs. Within non-Archosauriforms, this characteristic is prominent among some Tanystropheids (e.g. Macrocnemus). Compared to the forelimbs, the hindlimbs of Macrocnemus are strongly elongated, which is mainly acquired by an elongation of the tibia/fibula.

Besides, a short femur relative to the tibia and fibula is also present in Prolacerta (AMNH 9502, BP / 1/2676). Although also having a proportionally short femur, Prolacerta specimen (UWBM 95529) shows a proportionally longer femur when compared to Macrocnemus and Elessaurus. Specimen UWBM 95529 has a femur measuring 72.4 mm, whereas the tibia is 69.3 mm in length. This is also the case of Dinocephalosaurus (IVPP V13898), which has a femur length of 116.2 mm and a tibia length of 63.7 mm. In this specimen, the fibula is longer than the tibia, but more delicately built and more distinctly curved than in Elessaurus.

Tibia and fibula at least 20% longer than the femur is one of the synapomorphies diagnosing Macrocnemus. There are reports of proportional differences, among Macrocnemus bassanii, Macrocnemus fuyuanensis, and Macrocnemus obristi. Some authors even suggest that these differences may be related to sexual dimorphism. The tibia of Elessaurus gondwanoccidens is much thicker than the fibula and has its distal end articulated with mesopodial elements. The distal end of the tibia is fragmented, which may be a result of pre-burial fracturing. Although the tibia is severely damaged, it is possible to observe a small groove in the lateral surface of its distal end, a feature only observed in some Dinosaurs and Proterochampsids (e.g. Chanaresuchus, Tropidosuchus). In the context of non-Aarchosauriforms, thus, this may potentially be an autapomorphy of the new taxon described by De-Oliveira et al. However, this character might be also an artifact of poor preservation. The proximal end of the fibula is fragmented and compressed in proximal view, being rounded and symmetrical in lateral view. The area for insertion of the iliofibularis muscle is evident by the presence of a distinct but low tubercle located near the proximal portion of the bone. The distal portion of the fibula is slightly asymmetrical in lateral view.

Metatarsals and phalanges are articulated and arranged close to a natural position, with only a slight displacement of some elements. Elessaurus gondwanoccidens preserves the metatarsals I-V, but phalanges of the fifth digit are missing. The metatarsals increase in length from the first to the fourth digit, where the metatarsal IV is distinctly larger than the III. The fourth digit of non-Archosauriform Archosauromorph pes (e.g. Rhynchosaurs, Trilophosaurus, Prolacerta) is the longest, whereas digit 3 is the longest in Euparkeria (UMCZ T692) and all Archosaurs in which this character can be accessed. Metatarsals increase in size from the first to the fourth toe in Macrocnemus bassanii (T 2477; A III/208; T 2472), Amotosaurus (SMNS 54810), Prolacerta, and Langobardisaurus. The metatarsus of Tanystropheus is asymmetrical, although not in the same degree as Macrocnemus and Langobardisaurus as, in Tanystropheus, the third metatarsal is the longest. Tanytrachelos (YPM 7540) apparently has a similar metatarsal configuration as Tanystropheus.

Plantar (A) and posteroplantar (B) views of the pes of Elessaurus gondwanoccidens (UFSM 11471) from the Sanga do Cabral Formation (Lower Triassic), Brazil. Photographs and explanatory drawings respectively. Abbreviations (A): ca, calcaneum; dt 4, distal tarsal 4; mt. metatarsal 1–5; d3—d4, digits; ph, phalange. (B) ti, tibia; fi, fı´bula; ca, calcaneum; as. astragalus; tu, calcaneal tuber; mt, metatarsal 5; dt 1, distal tarsal 1; ce, centrale; dt 3, distal tarsal 3; dt 4, distal tarsal 4. De-Oliveira et al. (2020).

The fifth metatarsal is short and has a proximal hook-shaped end: its proximal process is abruptly flexed and, as a result, the metatarsal is 'L'-shaped in ventral view. This morphology is observed in Macrocnemus bassanii, Allokotosaurs (e.g. Pamelaria dolichotrachela, Azendohsaurus madagaskarensis), a few basal Rhynchosaurs (e.g. Noteosuchus colletti), Boreopricea funerea, Prolacerta broomi, and some Archosauriforms (e.g. Proterosuchus fergusi). Among Tanystropheids, the morphology of metatarsal V of Elessaurus gondwanoccidens resembles the condition displayed by Macrocnemus (PIMUZ T AIII / 208) and differs from that of Langobardisaurus and Tanystropheus (MSNM V 3730), as these present a less pronounced hook-shaped element. In Dinocephalosaurus (IVPP V13898), all five metatarsals are preserved, the fourth being the longest in the series and the first one being the shortest, and the fifth metatarsal is distinctly longer than the first and shows no trace of a ’hooked’ shape.

The metatarsals diverge from the tarsus distally but overlap proximally. In digits I and II the distal phalanges are not preserved and the digits III and IV present two middle and one distal phalanges. The lack of some distal phalanges prevents an exact account of the phalangeal formula.

Six tarsals are preserved in Elessaurus gondwanoccidens, including the proximal elements (astragalus and calcaneum), and four ossifications identified here as the distal tarsal elements I, III, IV, and the centrale. Excepting the centrale, these elements are displaced laterally towards the calcaneum, distal to the tibia and proximal to the metatarsals I and II. A fifth distal tarsal is missing. From the distal elements, the fourth and the centrale are the largest. Distal tarsal IV is located between the astragalus and calcaneum, proximal to metatarsals III and IV, whereas distal tarsals III and I are placed medial to the centrale. Four distal tarsals occur in most early Archosauromorphs (e.g. Mesosuchus browni, SAM-PK 7416, Protorosaurus speneri, Trilophosaurus buettneri, TMM 31025–140). Macrocnemus bassanii presents four distal tarsals, one being the centrale. However, only three distal tarsals occur in Macrocnemus fuyuanensis and Amotosaurus, and only two in Tanystropheus longobardicus (MCSN BES SC 1018; MCSN V 3730). Prolacerta broomi (BP/1 2676) was described as having a centrale in close contact with the mesial surface of the astragalus, besides four distal elements, of which the first three are small and fragmented. It has been argued that the centrale is absent in AMNH 9502, in contrast to the description for Prolacerta. However, this bone had likely been lost during fossilisation. Prolacerta specimen UWBM 95529 preserves a centrale, therefore, similar to what is observed in Elessaurus gondwanoccidens. No centrale bones appear to be present in Tanystropheus longobardicus (MCSN V 3730), although the distal tibial articular surface is wide. In Tanystropheus, the astragalar body and centrale thus are possibly indistinguishably fused. The presence of a cartilaginous centrale in Tanystropheus also remains highly. Langobardisaurus and Macrocnemus have the area distal and/or medial to the astragalus occupied by an ossified centrale. In Macrocnemus, the tibia articulates with the astragalus, bearing a distinct articular facet on its medial side. This facet forms the proximal part of an embayment completed by the centrale and distal tarsal I, which accommodates the tibia during the stride phase when maximal propulsive force is applied. In Dinocephalosaurus orientalis the tarsus preserves three ossifications of generally rounded outlines. A small ossification is present between the astragalus and the calcaneum; it presumably corresponds to the fourth distal tarsal. The proximal part of the ankle of Boreopricea (PIN 3708/1) consist of four elements, the centrale, the astragalus, the distal tarsal IV and the calcaneum. A foramen between the astragalus and the calcaneum is apparently missing in this specimen.

In Elessaurus gondwanoccidens, astragalus and calcaneum are unfused and lack a perforating foramen. This contrasts with Prolacerta, in which it is possible to observe a perforating foramen between these elements (UWBM 95529). A perforating foramen is absent in Langobardisaurus (MCSNB 2883, MCSNB 4870, MFSN 1921, MFSN 26829) and Tanytrachelos  (VMNH 120015, YPM 8600), although this may be the consequence of small size, or even an artifact of preservation. This foramen is absent in Tanystropheus cf. Tanystropheus longobardicus. A larger perforating foramen is present in Macrocnemus bassanii and Amotosaurus. The surface for tibial articulation of the calcaneum is slightly rounded, and the articular surface of the distal tarsal IV is concave. The articular surface for the astragalus appears to be continuous with the articulation of the distal tarsals.

The calcaneum is quadrangular in lateral view, being wider on its anteroposterior axis than proximo-distally, becoming 'L'-shaped distal to the fibula. The proximal surface of the calcaneum is marked by the presence of a rough tuberosity, the calcaneal tuber. In proximal view, the calcaneal tuber is 'square'-shaped, longer proximo-distally than dorsoventrally, and the distal part presents a curvature. The tuber is proximo-distally longer than dorsoventrally tall, in similar proportions to that observed in most early Archosauromorphs (e.g., Tanytrachelos ahynis, GR 306; Trilophosaurus buettneri, TMM 31025–140; Azendohsaurus, FMNH PR 2776). There is a notch between the main body of the calcaneum and the tuber. Among Tanystropheids, the calcaneal tuber is only present in Tanytrachelos ahynis, although it is a typical characteristic of several clades within Archosauriformes. A lateral tuber has been described in Boreopricea funerea (PIN 3708/1). This element is almost rectangular, curves slightly upwards and both ventral and dorsal surfaces are smooth and slightly concave.

A fibular facet continuous with the lateral tuber is present in some Trilophosaurus (AMNH FARB 30836), Proterosuchus alexanderi (MCZ 4301), and Erythrosuchus africanus (NHMUK R3592). Specimen  GR 306 was assigned Tanytrachelos based on features of the calcaneum, such as the strongly laterally expanded distal end and the distal curvature of the calcaneal tuber. The calcaneal tuber of GR 306 is still larger than those observed in other taxa. This structure is well evident in Elessaurus gondwanoccidens and compatible with that observed in GR 306, as the proximal surface of the calcaneum is marked by the development of its lateral margin, characterising a rough tuberosity. A similar condition to Tanytrachelos ahynis (GR 306) has been noted in Azendohsaurus (FMNH PR 2776).

De-Oliveira et al.'s first analysis recovered two maximum parsimony trees with 1104 steps, in which Elessaurus gondwanoccidens is the sister taxon of Tanystropheidae, the latter being a node-based clade comprising the most recent common ancestor of Macrocnemus, Tanystropheus, and Langobardisaurus and all its descendants. Elessaurus gondwanoccidens shares some similar character states with Tanystropheidae, as the pleurapophysis of the second sacral vertebra distally bifurcated, tibia and fibula with a total length slightly larger than the femur and 'hook'-shaped fifth metatarsal. The node (Elessaurus gondwanoccidens + Tanystropheidae) is supported by the presence of a distally sharp posterior process of the second sacral rib, and the transverse process of the anterior caudal vertebrae angled posterolaterally. In addition, the new specimen presents some features only found in more specialized representatives within Tanystropheidae, such as the presence of a well-developed calcaneal tuber with a rough lateral margin.

(A) Archosauromorph phylogeny showing the recovered position of Elessaurus gondwanoccidens (UFSM 11471), and the geographic distribution maps for Tanystropheidae through time (green circles) and the Brazilian fossil record (red star). (B) Early Triassic; (C) Middle Triassic; (D) Late Triassic. De-Oliveira et al. (2020).

De-Oliveira et al.'s second analysis, which included Jesairosaurus lehmani and Dinocephalosaurus orientalis as operational taxonomic units resulted in 13 equally parsimonious trees, each one with 1150 steps. In this second analysis, Elessaurus adopts different positions among the maximum parsimony trees, it is recovered, e.g. within Archosauriformes, as a sister-taxa of Allokotosauria + Archosauriformes and an early Rhynchosaur. The strict consensus of this alternative analysis depicts a large polytomy that includes Elessaurus, as well as most sampled Archosauromorphs. Although well-established clades, such as Rhynchosauria were not recovered by the strict consensus topology, the Tanystropheidae was consistently found as monophyletic. Most interestingly, (Jesairosaurus + Dinocephalosaurus) has a sister-group relationship with the clade formed by the remaining Archosauromorphs. Albeit this unusual position may reflect the protocol De-Oliveira et al. employed to include both taxa as operational taxonomic units (as well as the fact that they were not able to first-hand analyze relevant material), De-Oliveira et al. note that their second analysis may indicate that Elessaurus was more closely related to Tanystropheids than to Jesairosaurus and Dinocephalosaurus.

The specimen described by De-Oliveira et al. is morphologically compatible with non-Archosauriform Archosauromorphs, and a close relationship with Tanystropheidae is supported by several characters.

Recent phylogenetic analyses recovered Tanystropheids and Jesairosaurus lehmani more closely related to each other than to other Archosauromorphs. Albeit the matrix used by De-Oliveira et al. does not include Jesairosaurus lehmani, Elessaurus gondwanoccidens differs from Jesairosaurus lehmani in several characters. It was not possible to observe the presence of an internal trochanter or fourth trochanter in Jesairosaurus lehmani. Besides, the calcaneum of Jesairosaurus lehmani, although poorly preserved, lacks a calcaneal tuber (present in Elessaurus gondwanoccidens), and the distal end of the femur does not taper distally in dorsal view. The presence of these characters may indicate that Elessaurus gondwanoccidens is more closely related to Tanystropheidae than to Jesairosaurus lehmani. Among basal Archosauromorphs, tibia/fibula longer than the femur is observed in Tanystropheidae and Prolacerta. Although Prolacerta is one of the best represented early Archosauromorphs, its postcranial morphology remains poorly known, and most studies have focused on cranial anatomy. Despite the overall similarity among Elessaurus gondwanoccidens, Tanystropheidae (e.g. Macrocnemus), and Prolacerta, the specimen herein described is more consistent with Tanystropheidae than with Prolacerta. A foramen perforating the astragalus/ calcaneum is present in Prolacerta, whereas Elessaurus gondwanoccidens does not exhibit this feature. The good preservation of the proximal tarsals in Elessaurus gondwanoccidens suggests that the absence of this foramen is not a preservation bias. Moreover, the posterior process of the bifurcated second sacral rib of Elessaurus gondwanoccidens is distally sharp, whereas in Prolacerta this process is blunt.

Teyujagua paradoxa lacks comparable elements with Elessaurus gondwanoccidens, this species was recovered as the sister taxon to the Archosauriforms and is thus more closely related to Proterosuchids than Prolacerta and, consequently, Elessaurus gondwanoccidens.

In the aftermath of the Permian–Triassic crisis, earliest Triassic continental communities were extremely impoverished, including few small and unspecialised tetrapod taxa. The adaptive radiation of early Archosauromorphs, including Tanystropheids, possibly occurred already during the Early Triassic. Although the most abundant and the better-known records of this group belong to the Middle Triassic (Ladinian) of Switzerland and Italy, this group also has rare records in Lower Triassic strata. Amotosaurus rotfeldensis and Augustaburiania vatagini are thus far the earliest nominal taxa of Tanystropheidae, being known from non-marine rocks from Germany and Russia.

Among the genera dsicussed, only Macrocnemus and Tanystropheus are known to occur in both the western and eastern Tethyan province, with specimens of Macrocnemus aff. fuyuanensis and Tanystropheus longobardicus from Europe being slightly older (late Anisian to early Ladinian) than Chinese ones (Ladinian). It has been suggested that during the late Early Triassic, tanystropheid reptiles first evolved from their late Permian and Early Triassic ancestors in central Pangea and dispersed afterwards along the western and eastern margins of the Tethys Ocean during the Middle Triassic.

Elessaurus gondwanoccidens, together with the specimens reported previously from the Sanga do Cabral Supersequence, comprises the known record of Tanystropheidae-like Archosauromorphs in South America. Albeit the Tanystropheid remains previously reported  may correspond to Elessaurus gondwanoccidens, a direct comparison is hindered by the fact that previous to the discovery of this latter, only cervical vertebrae were recovered. The recovery of Elessaurus gondwanoccidens close to Tanystropheidae, suggests the diversification of Tanystropheid-related animals in South America still during the Early Triassic. Furthermore, it corroborates an early diversification of the group in central Pangea, possibly with a Gondwanan origin, reaching cosmopolitan distribution already during the early Mesozoic.

The transition of Tanystropheids from terrestrial to semiaquatic and, then, aquatic and even marine habitats throughout the Triassic was probably connected with the diversification of the terrestrial biota, niche packing, increasing competitive pressure within continental communities, and diversification of predators. Elessaurus gondwanoccidens may represent one of the oldest Tanystropheidae-related Archosauromorphs to this date. The fact that the new specimen was collected in a depositional environment of ephemeral fluvial systems in an arid landscape, quite distinct from the marine deposits where Tanystropheids are usually found, further corroborates the ecological plasticity of the clade.

Tanystropheidae is a clade mainly characterized by a long neck formed by elongate cervical vertebrae with low neural spines. Some Tanystropheids possibly inhabited terrestrial or semi-aquatic habitats, whereas more specialized forms may have been fully aquatic. Tanystropheid lifestyle, however, is still a matter of controversy. Macrocnemus and Langobardisaurus were supposedly terrestrial. The association of Tanytrachelos ahynis with numerous fossil Fish, a lacustrine Insect assemblage, abundant Branchiopods, and Phyllocarids, suggests it was aquatic, living in freshwater environments. Some researchers indicate a digitigrade stance in the pes of Tanytrachelos, Macrocnemus, and Langobardisaurus, and a possibly bipedal posture, during rapid locomotion, as previously suggested for Macrocnemus, or even while standing and walking. The foot of Macrocnemus appears to suit terrestrial locomotion, a conclusion further supported by the structure of its pelvic girdle. The lifestyle of Tanystropheus, the largest and most bizarre of all Tanystropheids, is still debatable. Recent osteological analyses do not support a fully aquatic habit for this Animal, even though many skeletal features indicative of terrestrial habits in Macrocnemus are absent in Tanystropheus. For instance, it does not present bifurcating pleurapophyses on the second sacral vertebra; the preacetabular process is absent in the ilium; tarsal ossifications show a greater degree of reduction; the hooked fifth metatarsal is less distinctly differentiated and, finally, the metatarsus is far less asymmetrical. One of the most striking features would be the much longer neck present in Tanystropheus. It has been emphasised that the neck of Tanystropheus was rather mobile and held horizontally or considerably raised. On the other hand, a comparison with extant reptiles (Iguana and Varanus), concluded that the neck of Tanystropheus would be almost inflexible, indicating a fully aquatic habit. Moreover, the reduced size of the forelimb suggests that it did not have a major contribution to any kind of locomotion. A recent reassessment  of this genus, regarded Tanystropheus as an aquatic Animal with close terrestrial ancestors, living in shallow waters and probably returning to land for reproduction. Recently, some authors have proposed that the locomotion of Tanystropheus is consistent both with feeding on aquatic prey and with a semi-aquatic lifestyle in the near-shore environments. 

A 2017 study described a new specimen of the aquatic Reptile Dinocephalosaurus (LPV 30280) from the Middle Triassic of South China containing an embryo in the abdominal region. The features observed in this specimen and the limb skeleton of Dinocephalosaurus, as well as the proportions of the limbs, indicates that amongst all Archosauromorphs related to Tanystropheids it is the taxon most highly adapted to a marine habitat, although functional considerations indicate that Tanystropheus was most probably marine as well. 

The skeletal anatomy of Tanystropheus is unique, and there are no analogs in present-day or extinct Animals. Its peculiar body plan, together with its impressive overall size (the largest individuals of Tanystropheus longobardicus reached up to five meters in length) renders this animal a weird appearance, being still a palaeoecological and functional enigma.

At least one specimen of Tanytrachelos (AMNH FARB 7206) bears a calcaneal tuber similar to that one of Elessaurus gondwanoccidens. Some authors have argued for the absence of calcaneal tuber in Tanystropheids. The absence of this tuber in more specialised forms might be attributable to an aquatic lifestyle. Based on the presence of a calcaneal tuber, the hooked fifth metatarsal and the distally bifurcating pleurapophyses on the second sacral vertebra, we propose a terrestrial habit for Elessaurus gondwanoccidens, similar to what is argued for Macrocnemus and Tanytrachelos, and distinct from what is usually proposed for Tanystropheus. This interpretation agrees with some authors in which Tanystropheids or close relatives were able to inhabit a wide range of climatic conditions and that, although possessing most of its representatives with affinities to an aquatic lifestyle, this group possibly presents close ancestors with terrestrial habit.

Life restoration of Elessaurus gondwanoccidens, from the Sanga do Cabral Formation (Lower Triassic), Brazil. Márcio Castro in De-Oliveira et al. (2020).

The depositional model of the locality from where Elessaurus gondwanoccidens was collected also supports the interpretation based on its morphology. The Sanga do Cabral Formation is characterised as a system of ephemeral, high energy river channels with wide and extensive alluvial plains, containing a rich assemblage of terrestrial and aquatic tetrapods composed of Temnospondyls, Procolophonoids, and Archosauromorphs. Considering both morphology and the environment described for the locality of Bica São Tomé, this Animal would probably be terrestrial, inhabiting the vicinities of shallow waters and low-sinuosity river environments.

Until recently, the Sanga do Cabral Formation provided only few remains assigned to indeterminate Archosauromorphs. Now, at least two independent lineages were reported for this unit. Although rare, these fossils demonstrate that Archosauromorphs had already diversified in the Early Triassic of western Gondwana. Elessaurus gondwanoccidens was ecovered as the sister taxon of Tanystropheidae and was collected from rocks reminiscent of continental environments dominated by ephemerous water bodies. Most representatives of Tanystropheidae (e.g. Tanystropheus) belong to marine environments. The results of the present work suggest that a terrestrial mode of life was plesiomorphic for Tanystropheidae and maintained by some of its representatives (e.g. Macrocnemus). The record of Tanystropheidae-related taxa in Permian and Lower Triassic layers from South America indicates a premature wide distribution of this clade, with a possible Gondwanan origin.

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