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Perichelydia
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Perichelydia
Temporal range: Middle Jurassic–Present
Meiolania (Meiolaniidae)
Helochelydra skull (Helochelydridae)
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Pantestudines
Clade: Testudinata
Clade: Mesochelydia
Clade: Perichelydia
Joyce, 2017
Subgroupings

Perichelydia (from Greek peri "near" and chelys "turtle") is a clade within Pantestudines (turtles and their extinct relatives) known from the Middle Jurassic to Holocene. Alongside crown group Testudines, it also contains Helochelydridae, which is known from the Cretaceous of Europe and North America, Sichuanchelyidae from the Middle Jurassic to Paleocene of Asia and Europe, Meiolaniformes, which is known from the Cretaceous to Holocene of South America, Australia and Oceania,[1] and Spoochelys, known from the Mid-Cretaceous Griman Creek Formation of Australia. Kallokibotion from the Late Cretaceous of Europe is also considered part of this group.[2] Several other groups, including the proposed clade Angolachelonia (containing Thalassochelydia and Sandownidae), Paracryptodira, Macrobaenidae, Sinemydidae and Xinjiangchelyidae, which are sometimes considered members of Cryptodira, have also been found outside crown Testudines in several analyses. These groups are usually considered to be closer to the crown group than the other members of Perichelydia.[3]

The clade Perichelydia was created by W. G. Joyce in 2017.[1] They are distinguished from other mesochelydians by two characters: the presence of processus trochlearis oticum, and a closed interpterygoid vacuity.[4]

Cladogram after Tong et al. 2022:[5]

Mesochelydia

Kayentachelys

Condorchelys

Perichelydia

Meiolaniidae

Spoochelys

Sichuanchelyidae

Chubutemys

Helochelydridae

Paracryptodira

Compsemydidae

Crown group Testudines

Platychelyidae

crown group Pleurodira (side-necked turtles)

Jurassichelon

Solnhofia

Santanachelys

Portlandemys

Pleisochelys

crown group Cryptodira (hidden neck turtles, tortoises)

References

[edit]

Grokipedia

Perichelydia

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from Grokipedia
Perichelydia is a clade within the turtle lineage (Testudinata), defined phylogenetically as the smallest clade containing Helochelydra nopcsai, Meiolania platyceps, Sichuanchelys chowi, and Testudo graeca.[1] Introduced in 2017, the name derives from Greek words meaning "near turtle," reflecting its position as a derived group of stem turtles closely related to the crown group Testudines.[2] This clade is characterized by the absence of an open interpterygoid vacuity in the skull and the presence of a well-developed processus trochlearis oticum, features that distinguish it from more basal turtle relatives.[1] Known from the Middle Jurassic to the present day, Perichelydia includes both extinct stem lineages and all modern turtles, representing a key evolutionary stage in turtle diversification.[2] Phylogenetically, Perichelydia occupies an intermediate position between the broader Testudinata (all turtles and their stem relatives) and the crown Testudines (extant turtles and their most recent common ancestor), nested within the larger Mesochelydia clade.[2] It comprises several major subgroups, including the primarily Euramerican Helochelydridae (known from the Late Jurassic to Late Cretaceous, with terrestrial to semi-aquatic habits), the Asian Sichuanchelyidae (Middle Jurassic to Paleocene, featuring thin-shelled forms adapted to varied environments), the southern Gondwanan Meiolaniformes (Cretaceous to Pleistocene, notable for horned shells and quadrupedal locomotion), and the crown Testudines.[2][3] Additional Mesozoic members, such as the Romanian Kallokibotion bajazidi from the Late Cretaceous, highlight its Laurasian dominance during the Mesozoic era.[3] Fossil evidence indicates that Perichelydia originated in Laurasia, with subsequent dispersals to Gondwana, and early members show a preference for terrestrial habitats that shifted toward more continental diversity nearer the crown.[2] During the Late Cretaceous, Perichelydia exhibited significant diversity across three main Laurasian lineages, but the Cretaceous-Paleogene mass extinction led to the extinction of European helochelydrids and most other stem forms, leaving Asian Sichuanchelyidae as key survivors.[3] Post-extinction recovery is exemplified by taxa like Laurasichersis relicta from the Paleocene of France, which represents a rare Cenozoic stem turtle that dispersed from Asia to recolonize vacated niches in Europe.[3] Overall, the clade's fossil record, comprising around 26 valid Mesozoic stem taxa (excluding Meiolaniformes), underscores its role in bridging basal turtle evolution to the radiation of modern species, with over 360 extant turtle species descending from this lineage.[2][4]

Etymology and definition

Etymology

The name Perichelydia is derived from the Greek prefix peri- (περί), meaning "around," and chelydia, a plural form derived from chelys (χεlys), meaning "turtle." This etymology alludes to the clade's position in turtle phylogeny, as it encompasses a group of stem turtles that closely surround the crown group Testudines. The term was formally introduced by paleontologist Walter G. Joyce in 2017, as part of a revised phylogenetic framework for basal Mesozoic turtles, to facilitate clearer communication about internested clades within the stem lineage.

Phylogenetic definition

Perichelydia is phylogenetically defined as the smallest clade containing Helochelydra nopcsai, Meiolania platyceps, Sichuanchelys chowi, and Testudo graeca, and all descendants of their most recent common ancestor.[1] This node-based definition was initially proposed informally in 2017 to encompass a group of derived stem turtles that bridge the gap between more basal testudinates and the crown group of modern turtles.[5] The clade was later formalized under the Phylonyms registration system in 2021, ensuring stability in nomenclature for this internested group within turtle evolution.[1] Within the broader turtle phylogeny, Perichelydia occupies a derived position inside Mesochelydia, a larger clade that includes all testudinates more advanced than the basalmost stem turtles of the Triassic and Early Jurassic.[5] It is more inclusive than the crown clade Testudines, which comprises all extant turtles and their most recent common ancestor, but excludes primitive stem taxa such as Proganochelys quenstedti.[5] This positioning highlights Perichelydia as a key evolutionary stage where several cranial and postcranial innovations emerged, setting the stage for the diversification of crown-group lineages.[1] Members of Perichelydia are diagnosed by a suite of apomorphies, primarily cranial features that distinguish them from more basal mesochelydians.[5] These include the absence of an open interpterygoid vacuity and the presence of a well-developed processus trochlearis oticum.[1] These synapomorphies reflect adaptations in skull architecture that likely supported enhanced sensory and structural capabilities in early diverging turtle lineages.[1]

Anatomy

Cranial features

Members of Perichelydia exhibit several distinctive cranial features that distinguish them from more basal turtles, including a closed interpterygoid vacuity formed by the medial meeting of the ossified pterygoids, which eliminates the open space present in earlier lineages.[1] This closure supports enhanced structural integrity of the palate. Additionally, a well-developed processus trochlearis oticum is present on the otic capsule; this structure provides a trochlea through which the tendon of the m. pterygoideus jaw adductor muscle passes, facilitating efficient jaw closure mechanics.[1][6] These traits are apomorphic for Perichelydia relative to Mesochelydia, the broader group encompassing them.[5] Shared cranial characteristics inherited from Mesochelydia include the absence of lacrimal bones and associated lacrimal ducts, as well as the lack of supratemporal bones and fossae, resulting in a more compact temporal region.[1] A single vomer fully separates the pterygoids along the midline, contributing to a unified palatal structure. The external nares are confluent without an internal septum, forming a single narial opening. Furthermore, the ear region features a fully ossified cavum tympani and antrum postoticum, along with an elongate processus interfenestralis bridging the fenestra ovalis and fenestra pseudorotunda, and paired tubercles on the basioccipital for muscle attachment. These modifications are conserved across perichelydians and relate to auditory function.[1] Cranial morphology varies among perichelydian subclades, with Meiolaniformes displaying notably robust skulls featuring horn-like projections on the squamosals and quadratojugals, potentially serving defensive or display functions.[7] In contrast, members of Helochelydridae possess more streamlined crania with reduced ornamentation and a relatively elongate snout, adapted to their inferred semi-aquatic lifestyles.[8]

Shell and postcranial features

The shell of perichelydian turtles is distinguished by the presence of eleven pairs of peripheral bones encircling the carapace, a condition that supports the structural integrity of the bony framework while accommodating variations in body size and habitat. Supramarginal bones are reduced or absent, simplifying the marginal series and allowing for a more streamlined carapace edge compared to more basal stem turtles. The entoplastron features a shortened posterior process, which contributes to a more compact plastron configuration, and a nuchal notch is often present at the anterior margin of the carapace, potentially facilitating neck mobility. The plastron typically includes a reduced intergular scute, reflecting adaptations in scute arrangement that align with the clade's diverse lifestyles. Postcranial elements in Perichelydia exhibit robust limb bones, with humerus and femur showing thickened cortices suited to weight-bearing in terrestrial or semi-aquatic environments, as evidenced by specimens from multiple included clades. As in all turtles, there are eight elongated cervical vertebrae enabling neck retraction and flexibility.[3] The pelvic girdle features ilia that contact the plastron, providing anchorage for hindlimb musculature and enhancing locomotion efficiency. Variations in shell morphology within Perichelydia reflect ecological diversity; for instance, Meiolaniformes display heavily armored, domed carapaces with thick peripherals and additional osteoderms, often accompanied by tail clubs formed from fused caudal vertebrae and osteoderms for defense, as seen in Meiolania platyceps. In contrast, Helochelydridae exhibit flatter shells with a tuberculate outer surface and high bridge peripherals, indicative of semi-aquatic habits, alongside ligamentous connections between carapace and plastron for flexibility.[3]

Evolutionary history

Origins and temporal range

Perichelydia originated in the Middle Jurassic, approximately 170 million years ago, evolving from earlier Mesochelydia stem turtles within Laurasia.[9] The clade is phylogenetically defined as the smallest group containing Helochelydra nopcsai, Meiolania platyceps, Sichuanchelys chowi, and Testudo graeca, encompassing several stem turtle lineages alongside crown-group Testudines.[10] Earliest known fossils, such as those of Sichuanchelyidae from Asia, document this emergence during a period of post-Triassic turtle radiation.[9] The temporal range of Perichelydia spans from the Middle Jurassic to the Holocene, with peak diversity occurring in the Late Jurassic to Early Cretaceous.[9] Diversification into major subclades—Helochelydridae in Euramerica, Sichuanchelyidae in Asia, and Meiolaniformes in southern Gondwana—followed the initial radiation of stem turtles, reflecting vicariance patterns similar to those in crown Testudines.[9] By the Late Cretaceous, terrestrial lineages within Perichelydia inhabited Laurasia, contributing to the clade's overall expansion. Perichelydia survived the Cretaceous-Paleogene mass extinction primarily through terrestrial adaptations in lineages like Meiolaniformes, while most aquatic stem groups declined. By the Paleogene, the majority of stem perichelydians had gone extinct, leaving crown Testudines as the dominant survivors; however, Meiolaniformes persisted until the late Pleistocene-Holocene, with taxa such as Meiolania in New Caledonia enduring until approximately 3,000 years ago. This prolonged survival highlights the resilience of certain perichelydian branches amid global biotic crises.[9]

Biogeographic distribution

Perichelydia exhibited a widespread global distribution throughout the Mesozoic Era, with fossils documented across both Laurasian and Gondwanan landmasses, reflecting a biogeographic partitioning among its major clades. Helochelydridae, a prominent lineage, was primarily restricted to Euramerica, encompassing Europe and North America, where it persisted from the Late Jurassic to the Late Cretaceous. In Europe, representatives are known from sites in Germany, the United Kingdom, France, and Spain, while in North America, they occur in formations across the western United States. In contrast, Sichuanchelyidae were confined to Asia, with records from China and Mongolia spanning the Middle Jurassic to the Late Cretaceous. Meiolaniformes, another key clade, showed a distinctly southern distribution in Gondwana, including South America and Australia, from the Early Cretaceous onward, with some lineages extending into the Cenozoic.[11][7] The biogeographic history of Perichelydia suggests origins in Laurasia during the Early to Middle Jurassic, followed by dispersal to Gondwana by the Late Jurassic or Early Cretaceous, likely facilitated by vicariance and limited intercontinental migration as Pangaea fragmented. This Laurasian cradle is inferred from the earliest records in Europe and Asia, with subsequent southward expansion leading to the isolation of Gondwanan forms. In the southern continents, Meiolaniformes underwent endemic evolution, resulting in highly specialized taxa such as Meiolania, which developed unique cranial horns and tail clubs adapted to insular environments. This partitioning highlights how tectonic events influenced turtle diversification, with northern and southern lineages evolving in relative isolation after initial dispersals.[11][12][7] Key fossil localities underscore this distribution pattern. In Europe, the Solnhofen Limestone of Late Jurassic (Tithonian) age in Bavaria, Germany, has yielded indeterminate Helochelydridae remains, providing early evidence of the clade's presence. North American records include the Early Cretaceous Cloverly Formation in Wyoming and Montana, USA, with material attributable to Naomichelys, a potential perichelydian. Asian sites feature the Shaximiao Formation in the Sichuan Basin, China (Middle Jurassic), for Sichuanchelys, and the Nemegt Formation in the Gobi Desert of Ömnögovi Province, Mongolia (Late Cretaceous, Maastrichtian), preserving Mongolochelys. In Gondwana, Early Cretaceous deposits in Chubut Province, Argentina, document Meiolaniformes like Chubutemys, while Pleistocene cave deposits on Lord Howe Island, Australia, contain the endemic Meiolania platyceps, illustrating long-term persistence in isolated southern realms.[13][12][7]

Taxonomy

Historical classification

In the early 20th century, paleontologists began describing fossil turtle taxa that would later contribute to the recognition of Perichelydia, often interpreting them through a lens of primitive aquatic adaptations. Franz Nopcsa established the subfamily Helochelydrinae in 1928 for turtles from the Late Jurassic and Cretaceous of Europe and North America, such as the Late Jurassic Helochelys danubina and Cretaceous forms like Helochelydra nopcsai, viewing them as basal forms akin to primitive pond-dwelling chelydrids based on their shell morphology and presumed freshwater habitat.[14] Similarly, Meiolaniformes, exemplified by the horned Meiolania from Pleistocene deposits, were initially classified as aberrant cryptodires due to their unusual cranial features like elongated temporal regions and postorbital horns, which deviated from typical modern cryptodire anatomy. These early descriptions emphasized rank-based taxonomy and ecological analogies to living turtles, grouping disparate fossils under broad, phenetic categories without rigorous phylogenetic analysis. By the mid-20th century, advancements in comparative anatomy led to more structured classifications, though many fossil turtles remained enigmatic. Eugene S. Gaffney's seminal 1975 monograph on turtle phylogeny utilized basicranial characters to propose a new framework for interrelationships, rejecting the paraphyletic "Amphichelydia"—a wastebasket taxon for primitive Mesozoic turtles—as unsupported by shared derived traits and instead positioning numerous fossils, including helochelydrids and meiolaniforms, as stem groups to crown-group Testudines.[15] Gaffney's approach highlighted the basal position of these taxa relative to Cryptodira and Pleurodira, emphasizing synapomorphies like the trochlear process of the pterygoid, but retained traditional subordinal ranks amid incomplete fossil data. The late 20th and early 21st centuries marked a shift toward explicit phylogenetic methods and clade-based nomenclature, driven by cladistic analyses of expanded datasets. Walter G. Joyce's 2007 comprehensive review of Mesozoic turtle relationships introduced a stem-turtle framework that integrated fragmentary fossils into a hierarchical phylogeny, resolving many early taxa as sequential outgroups to the crown while underscoring the need for apomorphy-based groupings over Linnaean ranks. This paved the way for further revisions, culminating in Joyce's 2017 analysis of basal Mesozoic turtles, which formalized Perichelydia as a monophyletic clade encompassing advanced stem turtles and the crown Testudines, with a closed temporal skull fenestration, amid ongoing debates over character coding and matrix stability.[1] Throughout this history, classification faced persistent challenges from the fragmentary nature of early fossils, which often preserved only isolated shells or partial crania, leading to unstable phylogenies sensitive to missing data and character selection.[11] The transition from rank-based systems, prone to paraphyly, to phylogenetically defined clades like Perichelydia reflected broader paleontological trends toward the PhyloCode, enabling more precise evolutionary hypotheses despite ongoing revisions.[1]

Included clades and taxa

Perichelydia encompasses the crown group Testudines and several major clades of advanced stem turtles that are more closely related to Testudines than to more basal mesochelydians, such as Condorchelys.[1] The primary clades include Helochelydridae, Sichuanchelyidae, Meiolaniformes, and the crown Testudines, alongside several other taxa that occupy basal positions within the group, often forming an unresolved polytomy in phylogenetic analyses.[1] Helochelydridae represents a diverse family of primarily aquatic stem turtles distributed across Euramerica during the Late Jurassic to Late Cretaceous.[11] Key taxa include Helochelydra nopcsai, known from partial skeletons in the Early Cretaceous of Europe, characterized by a robust shell with pronounced neural bones, and Naomichelys speciosa, a North American species from the Aptian-Albian Trinity Group, notable for its well-preserved shell elements showing a mix of terrestrial and aquatic adaptations.[16] Other helochelydrids, such as Uluops uluops from the Late Jurassic of Portugal, further illustrate the clade's early radiation in coastal and fluvial environments.[17] Sichuanchelyidae comprises semi-aquatic stem turtles primarily from Asia, spanning the Middle Jurassic to Paleocene.[11] Representative taxa include Sichuanchelys chowi, the type species from the Middle Jurassic Xiashaximiao Formation of Sichuan Province, China, distinguished by its broad vertebral scutes and incomplete fusion of the plastron, and Mongolochelys efremovi from the Late Cretaceous of Mongolia, which exhibits a more derived shell morphology with elongated peripherals suggestive of a transitional habitat preference.[18][19] The clade's Asian biogeographic signal highlights its role in the early diversification of perichelydians on the eastern margins of Laurasia.[3] Meiolaniformes is an extinct clade of heavily armored, predominantly terrestrial stem turtles from Gondwana, with a temporal range from the Cretaceous to the Holocene.[1] Iconic taxa include Meiolania platyceps, a Late Pleistocene to Holocene species from Lord Howe Island and New Caledonia, renowned for its massive skull with horn-like projections and a deeply domed carapace exceeding 1 meter in length, and Ninjemys oweni from Pleistocene deposits in Australia, featuring similar robust armor and tail clubs adapted for defense in arid environments.[11] These forms represent the most morphologically derived perichelydians, persisting long after the extinction of other stem lineages.[3] Other notable perichelydian taxa occupy basal positions and contribute to an unresolved polytomy at the base of the clade. Kallokibotion bajazidi, from the Late Cretaceous (Maastrichtian) of Romania, is a terrestrial stem turtle known from partial shells and cranial material, exhibiting primitive features like a weakly ossified plastron.[20] Similarly, Spoochelys ormondea from the mid-Cretaceous (Albian) Griman Creek Formation of Australia represents an early Gondwanan form with meiolaniid-like armor, based on fragmentary shell remains that suggest a semi-terrestrial lifestyle.[21] These taxa underscore the global distribution of early perichelydians but lack clear resolution in their interrelationships with the major clades.[1]
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