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Nothosaurus

Nothosaurus is an extinct genus of carnivorous aquatic sauropterygian reptiles belonging to the family Nothosauridae, which thrived during the Middle Triassic epoch from the Anisian to Ladinian stages, approximately 247 to 237 million years ago.^[1] These medium-sized marine predators, reaching lengths of 2 to 6 meters, possessed a streamlined body with a long neck, elongated trunk, and short tail, adapted for semi-aquatic life in shallow coastal and open marine environments.^[2] Fossils of Nothosaurus are primarily known from the Muschelkalk deposits of the Germanic Basin in Europe, as well as from the eastern Tethys in southwestern China, indicating a wide paleogeographic distribution across epicontinental seas.^[2] The genus encompasses at least ten valid species, including the type species N. mirabilis (Münster, 1834), N. giganteus, N. marchicus, N. edingerae, N. juvenilis, N. winterswijkensis, N. youngi, N. yangjuanensis, N. luopingensis, and N. cristatus, with ongoing taxonomic revisions due to fragmentary specimens and morphological variability. First described in 1834 based on material from the Upper Muschelkalk near Bayreuth, Germany, the holotype of N. mirabilis represents a partially articulated postcranial skeleton lacking a skull but featuring high neural spines and robust limb girdles.^[1] Subsequent discoveries, such as the gigantic N. youngi from Luoping Biota in China, have expanded understanding of intraspecific size variation and regional adaptations.^[3] Physically, Nothosaurus species exhibited a dorsoventrally flattened, crocodile-like skull with an elongated rostrum, heterodont dentition including prominent maxillary fangs, and paddle-like limbs modified for aquatic propulsion.^[2] The humeri were robust and hydrofoil-shaped in larger forms, supporting paraxial locomotion via lateral undulation of the trunk and "rowing" motions of the forelimbs, akin to modern sea lions, while the tail provided additional thrust.^[2] Bone histology reveals a progression from osteosclerosis in smaller, near-shore species like N. marchicus—indicating buoyancy control for shallow diving—to reduced bone mass in larger, open-water taxa, suggesting increased swimming efficiency and active predatory lifestyles.^[2] As piscivorous hunters, Nothosaurus preyed primarily on fish, with evidence from foraging tracks also indicating small crustaceans and possibly other invertebrates, occupying top predator niches in Triassic marine ecosystems.^[3] Smaller species inhabited brackish lagoons and coastal shallows, while larger ones ventured into deeper, open seas, contributing to the diversification of Sauropterygia before the rise of plesiosaurs in the Late Triassic.^[2] The genus's extinction by the early Carnian likely resulted from environmental changes, including marine regression and biotic turnover in the Tethyan realm.^[1]

Discovery and naming

Etymology

The genus name Nothosaurus derives from the Ancient Greek words nóthos (νόθος), meaning "bastard," "spurious," or "false," and saûros (σαῦρος), meaning "lizard" or "reptile," resulting in a translation of "spurious lizard" or "false lizard."^[4] This term was coined by German paleontologist Georg Graf zu Münster in 1834 for the type species N. mirabilis, based on incomplete fossil material from the Upper Muschelkalk of Bavaria, Germany.^[5] Münster's naming reflected the prevailing uncertainty in early 19th-century paleontology about the affinities of newly discovered marine reptile fossils from the Triassic Muschelkalk formations, where Nothosaurus exhibited a puzzling mix of characteristics resembling both plesiosaurs and crocodiles, setting it apart from "true" saurians.^[6] At the time, the field was rapidly expanding with finds of diverse aquatic reptiles, but their evolutionary relationships remained unclear, leading to descriptive names that highlighted perceived anomalies rather than definitive classifications.^[4] Although later phylogenetic analyses firmly placed Nothosaurus within Sauropterygia, a clade of secondarily aquatic reptiles specialized for marine life, the genus name has endured as a nod to these early interpretive challenges.^[4]

Type species

The type species of the genus Nothosaurus is Nothosaurus mirabilis, formally named and described by Georg zu Münster in 1834 based on fossil material collected from the Upper Muschelkalk deposits near Bayreuth, southern Germany.^[1] Münster's original account provided a brief inventory of the specimen rather than a detailed morphological analysis, noting its discovery in the Oschenberg locality within the Lainecker Höhenzug mountain range.^[1] The holotype, designated as UMO 1000 and housed at the Urweltmuseum Bayreuth, consists of an articulated vertebral column including the neck and anterior trunk, portions of the anterior tail, both humeri, the right femur, and the right pelvic girdle; unfortunately, the skull and shoulder girdle were lost prior to formal description.^[1] This specimen represents an immature individual with a reconstructed total body length of approximately 4 meters, featuring an elongated neck reminiscent of plesiosaurs and paddle-like limb elements adapted for aquatic locomotion.^[1] Early taxonomic interpretations of N. mirabilis were marked by debate, with Münster emphasizing a peculiar combination of plesiosaur-like vertebral features and crocodile-like traits in the extremities, leading to initial comparisons with crocodilians before its recognition as a distinct group of marine reptiles.^[1] The genus name Nothosaurus, derived from Greek roots meaning "false lizard," underscores this early uncertainty about its reptilian affinities.^[1]

Fossil record

Following the initial recognition of the genus through the type species Nothosaurus mirabilis in the 1830s from the Upper Muschelkalk near Bayreuth, Germany, further explorations in the Middle Triassic Muschelkalk deposits of central Europe revealed a wealth of additional material. In Germany, ongoing quarrying and paleontological surveys since the mid-19th century have uncovered numerous skulls, partial skeletons, and isolated elements from localities such as Winterswijk in the Lower Muschelkalk, contributing to the understanding of early nothosaur diversity.^[7] A standout specimen is a nearly complete skeleton of N. giganteus from the Upper Muschelkalk at Oschenberg, dating to the Ladinian, which measures up to 7 meters in length and represents one of the largest known individuals in the genus.^[8] In neighboring Italy and Switzerland, the Monte San Giorgio UNESCO World Heritage site has been a prolific source of high-quality fossils, with systematic excavations from the 1930s through the 1950s yielding several hundred articulated nothosaur skeletons from four distinct horizons in bituminous limestones and shales spanning the Anisian-Ladinian boundary.^[9] These efforts, led by institutions like the University of Zurich, focused on the Grenzbitumenzone and Meride Limestone, preserving complete individuals that highlight the genus's prevalence in shallow marine settings. A more recent find from 2003 in the nearby Besano Formation (Grenzbitumenzone) includes a nearly complete but disarticulated small-sized skeleton, exemplifying the variable preservation in these lagoonal deposits.^[10] Asian discoveries expanded the known geographic range, with significant material emerging from China's Yunnan Province in the 2000s via the Luoping Biota in the Guanling Formation (Anisian, Pelsonian substage). Excavations starting around 2008 produced well-preserved skeletons, including juveniles and a large N. zhangi specimen with a 65 cm mandibular ramus, estimated at 5–7 meters overall length, offering insights into post-extinction recovery dynamics.^[11] Complementing these body fossils, a 2009 quarry excavation (published in 2014) uncovered 247 nothosaur paddle prints forming 15 trackways (with over 350 individual paddle markings overall) on a 22 m × 10 m seabed surface in the same formation near Luoping, suggesting occasional terrestrial foraging and adding behavioral evidence to the record.^[12] Preservation challenges persist across sites, as Nothosaurus fossils are frequently disarticulated or incomplete due to the dynamic marine environments of deposition, such as tidal lagoons and subtidal shelves in the Muschelkalk and Tethyan equivalents, where currents and bioturbation disrupted carcasses before burial.^[10]

Description

Overall morphology

Nothosaurus was a semi-aquatic sauropterygian reptile characterized by a slender, streamlined body build adapted for life in shallow marine environments, with a dorsoventrally flattened form similar to that of modern semi-aquatic crocodiles or seals.^[13]^[14] Estimated body lengths for the type species N. mirabilis are around 3 m (based on holotype), with larger species such as N. zhangi reaching up to 7 m.^[6]^[8] This seal-like habitus featured a flexible trunk supported by a robust torso of approximately 20 dorsal vertebrae, enabling lateral undulation during swimming.^[6] The neck was notably elongated for a nothosaur, consisting of 18–23 cervical vertebrae that provided greater maneuverability compared to terrestrial reptiles, though shorter than in later sauropterygians.^[4]^[15] Four paddle-like limbs, with broadened humeri and femora, dominated propulsion, while the digits likely bore interdigital webbing inferred from hyperphalangy and aquatic bone adaptations.^[13] The tail, comprising numerous caudals, contributed to steering and thrust, potentially with a fin-like structure for enhanced efficiency in water.^[14] Specimen size variations within species suggest possible sexual dimorphism, potentially linked to differences in growth patterns or microanatomical features, although evidence remains inconclusive.^[16]

Skull and dentition

The skull of Nothosaurus is typically triangular in outline, with a short, rounded snout in species like N. giganteus and a more elongated rostrum in N. mirabilis, measuring 40–50 cm in condylobasal length for adults of medium-sized species such as N. mirabilis.^[4] Large temporal fenestrae dominate the lateral surfaces, often 2.1–3.8 times the diameter of the orbits and anteriorly constricted, providing space for powerful jaw adductor muscles adapted to aquatic predation.^[4] Orbits are proportionally large, comprising about 20% of skull length and oriented anterolaterally to enhance binocular vision for detecting prey in marine environments.^[17] Dentition is homodont to slightly heterodont, featuring numerous needle-like, conical teeth suited for grasping slippery fish and soft-bodied prey rather than crushing hard items. Each jaw typically bears 20–30 teeth, including 4–5 enlarged fangs at the premaxilla with recurved tips and fine striations, followed by smaller postcanine teeth forming a trapping basket; roots are deeply embedded for stability during rapid strikes.^[4]^[18] Tooth replacement occurs in waves, similar to other reptiles, ensuring continuous functionality for piscivory.^[18] Sensory adaptations include a well-developed pineal foramen for photoreception and putative rostral grooves suggesting a lateral line system or electrosensory plexus for underwater prey detection in low-visibility conditions.^[17] In larger species like N. giganteus and N. zhangi, jaws are more robust with thicker symphyses and larger fangs up to 34 mm tall, indicating capability for tackling bigger prey, while smaller species retain finer dentition.^[8]^[4] This cranial structure integrates with the elongated neck to facilitate precise, ambush-style prey capture in coastal habitats.^[4]

Postcranial skeleton

The postcranial skeleton of Nothosaurus comprises the axial column, appendicular elements including limbs and girdles, and ventral supports such as ribs and gastralia, reflecting adaptations for a semi-aquatic lifestyle.^[1] The axial skeleton features a vertebral column totaling approximately 70–90 elements across species, with presacral counts varying slightly by taxon. Cervical vertebrae number around 19, forming a flexible neck approximately 60 cm long in medium-sized individuals like N. mirabilis, characterized by low neural spines, large intercentral spaces (about 0.5 cm), and double rib facets per centrum for enhanced mobility.^[1] Dorsal vertebrae, numbering 19–25, follow with higher neural spines (up to twice the centrum height) and prominent zygosphene-zygantrum articulations that stiffen the trunk, alongside single, figure-eight-shaped rib facets.^[1] Sacral vertebrae total 4–5, with heart-shaped centra and short, rectangular ribs, while the caudal series includes at least 22–40 elements with progressively keeled, rounded centra, haemapophyses on mid-caudals, and reducing rib facets posteriorly for tail propulsion.^[1] Limb structure emphasizes aquatic efficiency, with fore- and hindlimbs modified into paddle-like appendages. The humerus, measuring 20–40 cm in adults depending on species size (e.g., 23 cm in N. mirabilis holotype), has a flattened, broad shaft with a triangular cross-section and prominent proximal head, facilitating hydrodynamic lift.^[1]^[2] Both manus and pes exhibit hyperphalangy, with extra phalanges beyond the basal tetrapod count (e.g., formulas approaching 2–3–4–5–3 or more in digits), and flattened, rectangular phalanges that spread radially to form broad, webbed paddles nearly as wide as long.^[1] The pectoral girdle includes flat, massive scapulae and coracoids that are dorsoventrally broadened to support expansive limb motion, while the pelvic girdle features small, simple ilia (e.g., 5 cm wide in N. mirabilis) with slightly convex dorsal margins, alongside symmetrical ischia (12–13 cm) and pubes with slit-like obturator foramina for robust hindlimb attachment.^[2]^[1] Ribs are slender and variably headed, with double-headed cervical forms up to 24 cm long articulating via capitulum and tuberculum, transitioning to single-headed dorsal ribs with uncinate processes in some specimens, and flattened caudal ribs that decrease in size posteriorly, promoting a streamlined, unarmored torso.^[1] Gastralia comprise disarticulated rods (lateral elements) and V-shaped median gastralia, densely packed to reinforce the ventral abdominal wall without adding significant bulk.^[1]

Classification

Phylogenetic position

Nothosaurus belongs to the family Nothosauridae within the superfamily Nothosauroidea, forming part of the clade Eusauropterygia, and represents a basal group of sauropterygians that flourished during the Middle Triassic epoch.^[19] This positioning places Nothosaurus among early diverging members of Sauropterygia, a diverse lineage of marine reptiles that adapted progressively to aquatic lifestyles following the Permian-Triassic extinction.^[20] Phylogenetic analyses have debated the monophyly of Nothosaurus, with a 2014 study by Liu et al. suggesting paraphyly due to close morphological overlaps with Lariosaurus, requiring additional evolutionary steps to enforce monophyly.^[8] However, more recent matrices, including a 2022 analysis incorporating new taxa like Nothosaurus luopingensis, reconfirm the monophyly of the genus, supported by synapomorphies such as the maxillary tooth row extending beyond the anterior margin of the upper temporal fenestra and an upper temporal fenestra at least twice the length of the orbit.^[19] Within Nothosauridae, Nothosaurus forms a sister group to the monophyletic Lariosaurus, highlighting their shared derived features in cranial and postcranial anatomy.^[19] Nothosaurus exemplifies a transitional form in sauropterygian evolution, bridging the gap between the more amphibious pachypleurosaurs—characterized by sprawling limbs and terrestrial affinities—and the highly specialized, fully pelagic derived marine reptiles such as those in Pistosauria leading to Plesiosauria.^[21] Some earlier hypotheses positioned Nothosauria, including Nothosaurus, as a potential stem group to Plesiosauria and Pliosauria, based on shared traits like an elongated neck and paddle-like limbs that facilitated improved aquatic propulsion.^[22] Updated cladistic frameworks resolve prior paraphyly concerns through refined character coding, affirming Nothosaurus's role in the early diversification of eusauropterygians without direct ancestry to plesiosauromorphs.^[19]

Valid species

The genus Nothosaurus currently encompasses approximately 10–12 valid species, based on revisions of Triassic sauropterygian taxonomy, with ongoing debates over some assignments due to fragmentary material and ontogenetic variation in cranial features.^[23]^[24] The type species, N. mirabilis, was described from the Middle Triassic (Anisian) Muschelkalk of Germany and represents a typical form reaching about 4 meters in length, characterized by a moderately elongate skull with a temporal fenestra roughly twice as long as wide and a dentition featuring prominent caniniform teeth.^[6]^[25] Among the larger species, N. giganteus from the same Germanic Basin deposits stands out as the biggest known, attaining up to 7 meters, distinguished by an expanded orbital region and more robust limb elements adapted for powerful propulsion in shallow marine environments.^[25]^[4] In contrast, Asian representatives include the smaller N. yangjuanensis from the Middle Anisian of Guizhou, China, with adults estimated at 2.5–3 meters, notable for its relatively short, broad rostrum and plesiomorphic short mandibular symphysis.^[26]^[12] Other valid species encompass N. edingerae from the Ladinian of southern Germany, diagnosed primarily by the presence of only two enlarged caniniform maxillary teeth and a narrower postorbital bar; N. youngi from the Ladinian Zhuganpo Member of China, featuring a short upper tooth row and narrow postorbital region; N. marchicus from the Lower Muschelkalk of Germany and the Netherlands; N. haasi from the Middle Triassic of Israel; N. cymatosauroides; N. winterswijkensis from the Dutch Lower Muschelkalk; N. zhangi, a gigantic form exceeding 7 meters from the Luoping biota in China with an exceptionally large lower jaw (over 65 cm); N. tchernovi; N. luopingensis from the Anisian of Luoping, China, distinguished by the jugal entering the orbital margin and a relatively short rostrum; and N. cristatus from the Ladinian Lower Keuper of Germany, characterized by a crested neural arch and reduced dentition.^[27]^[28]^[29]^[19]^[30] Several proposed species have been synonymized or reassigned. For instance, N. juvenilis, originally from the Middle Triassic of Europe, was reclassified as Lariosaurus juvenilis in 2017 based on phylogenetic analysis revealing closer affinities to pachypleurosaurs due to its smaller size, reduced temporal fenestra, and more gracile build.^[31]^[32] Similarly, N. oldenburgi was invalidated due to its fragmentary holotype, consisting of isolated vertebrae lacking diagnostic autapomorphies, rendering it a nomen dubium. N. youngi and N. winkelhorsti have also faced scrutiny for potential reassignment to Lariosaurus, though they remain provisionally in Nothosaurus pending further material.^[32] Debated taxa include material from North Africa, such as isolated elements potentially attributable to Nothosaurus but lacking sufficient diagnostic traits for species-level assignment, highlighting gaps in the genus's southern Tethyan distribution.^[24]

Paleobiology

Locomotion and habitat

Nothosaurus employed a combination of tail undulation and limb paddling for aquatic locomotion, with the laterally compressed tail serving as the primary propulsive structure through lateral undulations facilitated by a flexible vertebral column and dorsoventrally flattened body. The paddle-like limbs, particularly the forelimbs, contributed to thrust via drag-based rowing motions, while the hindlimbs aided in steering and stability. This paraxial swimming style, while effective for maneuvering in confined spaces, was less efficient for prolonged open-water travel than the hydrofoil propulsion of later plesiosaurs, which relied more on oscillatory flipper movements.^[33]^[13] Fossil trackways from the Middle Triassic Guanling Formation in Luoping, Yunnan Province, China, discovered and described in 2014, provide direct evidence of a semi-aquatic lifestyle, documenting quadrupedal progression on shallow mudflats. These ichnofossils, attributed to nothosaurs based on V-shaped paddle prints and trackway patterns, show both synchronous and alternating limb gaits used for punting along the seabed, indicating frequent transitions between swimming and terrestrial foraging in coastal settings.^[12] The preferred habitats of Nothosaurus encompassed the shallow marine shelves and near-shore environments of the Tethys Ocean, including coastal lagoons and reef-associated zones during the Middle Triassic. Fossil assemblages from these deposits, such as the Luoping biota, associate Nothosaurus remains with marine invertebrates like ammonites and schooling fish, suggesting tolerance for variable salinities in epicontinental seas.^[13]^[8] Bone histology of Nothosaurus long bones reveals primarily lamellar-zonal tissue with varying vascularization, indicative of moderate growth rates—higher than many extant reptiles but lower than advanced sauropterygians—that supported an active predatory lifestyle in open-water niches. This microanatomical profile, including increased bone mass in early ontogeny for buoyancy control, underscores adaptations for energy-efficient exploitation of shallow aquatic environments.^[21]^[34]

Diet and reproduction

Nothosaurus exhibited a primarily piscivorous diet, targeting fish and soft-bodied prey in shallow marine environments. Its dentition, characterized by needle-like, conical teeth and large recurved rostral fangs, formed a "trapping basket" suited for grasping and holding slippery prey such as fish, rather than crushing hard-shelled organisms.^[35] Cranial adaptations, including a dorsoventrally flattened skull with large orbits comprising about 20% of skull length, supported visual ambush predation near the seafloor.^[35] Feeding likely involved punting locomotion with the forelimbs to flush prey from the substrate, analogous to behaviors in modern seals, followed by rapid sideways head strikes to seize targets.^[35] Trace fossils from the Middle Triassic of China, such as the ichnogenus Dikoposichnus luopingensis, further corroborate this fish-snatching strategy.^[36] Reproductive strategies in Nothosaurus are inferred to have included viviparity (live-bearing) in at least some species, based on humeral bone histology from 24 specimens that yielded reliable sigmoidal growth curves.^[37] Life-history traits for seven of these specimens—such as larger relative birth sizes, delayed sexual maturity, and extended longevity—align more closely with those of extant viviparous squamates than oviparous ones, contrasting with the lack of nesting or egg evidence in the fossil record.^[37] Sexual maturity was estimated to occur between 0.2 and 4.4 years across specimens, with delayed maturity indicated for potentially viviparous individuals, marked by inflection points in growth curves where individuals reached approximately 30% of asymptotic body length.^[37] Juveniles displayed rapid growth phases early in ontogeny, transitioning to slower rates in adulthood, with evidence of indeterminate growth continuing beyond maturity.^[37] Estimated litter sizes for potentially viviparous individuals were at least nine offspring, suggesting high fecundity consistent with their moderate body size of up to 4 meters.^[37] No direct evidence exists for parental care in Nothosaurus.^[37]

Distribution

Geographic range

Nothosaurus exhibits a primary distribution centered around the ancient Tethys Ocean, with fossil occurrences documented across a broad paleogeographic span from western Europe to eastern Asia. In western and central Europe, the genus is particularly well-represented in the Middle Triassic Muschelkalk Formation, where skeletal remains, including complete specimens, have been recovered from sites in Germany (such as the Lettenkeuper of southern Germany), the Netherlands (Winterswijk), Switzerland, Italy, Spain (Valdelcubo locality), and Poland (Sadowa Góra quarry).^[38]^[39]^[40] These European finds, often associated with key localities like Monte San Giorgio on the Swiss-Italian border, highlight the genus's prevalence in shallow marine settings of the western Tethyan realm.^[38] Further afield, Nothosaurus fossils occur in North Africa, including Morocco, and disjunct records extend to the Middle East and East Asia. Isolated teeth and fragmentary remains from Israel (Negev Desert) indicate possible wider dispersal, potentially facilitated by ocean currents along Tethyan seaways.^[41] In East Asia, significant discoveries include well-preserved skeletons from the Anisian (early Middle Triassic) Zhuganpo Formation in Guizhou Province and the Luoping Biota in Yunnan Province, China, where multiple species such as Nothosaurus youngi and Nothosaurus luopingensis have been identified.^[11]^[28] These Asian sites underscore the genus's extension into the eastern Paleotethys. Paleogeographic reconstructions place Nothosaurus occurrences primarily at equatorial to subtropical latitudes (approximately 0° to 30° N), within shallow epicontinental seas that formed along the expansive margins of the Tethys Ocean during the Middle Triassic.^[42] The fossils commonly co-occur with biostratigraphic markers such as conodonts (e.g., from the Nicomedites Zone) and bivalves (e.g., Myophoria and Posidonia), signaling deposition in reefal and lagoonal environments conducive to diverse marine reptile assemblages.^[38] This distribution reflects the genus's adaptation to warm, coastal marine habitats across a connected paleoceanographic system, with no verified records beyond the Tethyan province during its temporal range.

Temporal range

Nothosaurus first appeared during the early Anisian stage of the Middle Triassic, approximately 247 million years ago, representing one of the early radiations of sauropterygian reptiles following the Permian-Triassic mass extinction.^[6] The genus persisted through the Ladinian stage, achieving its peak diversity in this interval, with limited records extending into the early Carnian stage around 235 million years ago.^[43] Fossils are primarily known from marine deposits associated with Tethyan faunas, overlapping with ceratite ammonoids that provide precise biostratigraphic dating for these horizons.^[6] Key fossil-bearing formations include the Lower Muschelkalk of the Germanic Basin, dated to the early Anisian at approximately 242–235 million years ago, where multiple species such as Nothosaurus winkelhorsti have been documented.^[7] In China, the Luoping biota within the Guanling Formation (Member II) yields specimens from the early Anisian, around 244 million years ago, including large-bodied forms like Nothosaurus youngi.^[8] These occurrences mark the initial diversification of Nothosaurus in mid-Triassic shallow marine environments. For instance, N. edingerae represents one of the youngest known species from the early Carnian Lower Keuper of Germany.^[43] The evolutionary timeline of Nothosaurus reflects post-extinction recovery, with rapid diversification in the mid-Triassic coinciding with expanding epicontinental seas, followed by extinction in the early Carnian, possibly linked to environmental changes and increasing competition from more specialized marine reptiles such as ichthyosaurs.^[13] Biostratigraphic correlation relies heavily on co-occurring ceratite ammonoids, such as those in the Ceratites zones, which anchor Nothosaurus-bearing strata to standard Triassic chronostratigraphy across the Germanic Basin and eastern Tethys.^[6]

References

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[30]
A new species of Lariosaurus (Sauropterygia: Nothosauridae) from ...
Three species previously referred to Nothosaurus are more closely related to Lariosaurus and are hereby reassigned to Lariosaurus, namely, L. juvenilis, L. ...
[31]
A new specimen of Lariosaurus xingyiensis (Reptilia, Sauropterygia ...
Apr 20, 2017 · The study suggests a need for taxonomic revision within Nothosauridae, potentially reclassifying Nothosaurus juvenilis, youngi, and winkelhorsti ...
[32]
The locomotory apparatus and paraxial swimming in fossil and living ...
Jun 1, 2021 · Nothosaurs and plesiosaurs are not comparable to sea turtles in that the former evolved their flippers by hyperphalangy and the latter by ...
[33]
Long bone histology of sauropterygia from the lower Muschelkalk of ...
Jul 21, 2010 · Methodology/principal findings: Nothosaurus shows a typical plesiomorphic lamellar-zonal bone type, but varying growth patterns and the ...<|separator|>
[34]
https://pubmed.ncbi.nlm.nih.gov/20657768/
[35]
A gigantic nothosaur (Reptilia: Sauropterygia) from the Middle ...
Nov 27, 2014 · Although the postcranial skeleton of N. zhangi is incomplete, its phylogenetic placement and the generally conservative postcranial anatomy ...
[36]
Life‐history strategies indicate live‐bearing in Nothosaurus ...
Mar 13, 2019 · Viviparity could have allowed Nothosaurus individuals to increase their survival rate during the early phase of life (Shine 2014) to ...
[37]
Paleobiogeography of Middle Triassic Sauropterygia in Central and ...
According to Rieppel and Hagdorn (1997) , the range of Placodus gigas in the Upper Muschelkalk is restricted to its lower part up to the evolutus biozone, ...
[38]
Nothosaur tracks from the Middle Triassic of Spain suggest a global ...
May 30, 2022 · ... length of the humerus. In this case, for a trackway of 50 cm in width, the torso of the animal would be around 35–40 cm. The marine reptiles ...
[39]
[PDF] The results of palaeontological excavations in the Sadowa Góra ...
The Sadowa Góra quarry is another fossil site that documents paleographical distribution as well as evolution of Nothosaurus genus. Geological settings. The ...
[40]
Speciation along rifting continental margins: a new Nothosaur from ...
Middle Triassic Muschelkalk deposits in the Negev (Israel) yielded two endemic species of the sauropterygian reptile genus Nothosaurus, one of which is new.
[41]
https://www.sciencedirect.com/science/article/pii/S1251805097823804
[42]
The redescription of the holotype of Nothosaurus mirabilis (Diapsida ...
Aug 26, 2022 · The genus Nothosaurus existed during the Middle Triassic (mainly Anisian to Ladinian; one species is known from the early Carnian). Isolated ...Missing: peak | Show results with:peak