Anhanguera adductor subsp. mandibulae

Pêgas, Rodrigo V, Costa, Fabiana R & Kellner, Alexander W A, 2021, Reconstruction of the adductor chamber and predicted bite force in pterodactyloids (Pterosauria), Zoological Journal of the Linnean Society 193 (2), pp. 602-602 : 602-

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https://doi.org/ 10.1093/zoolinnean/zlaa163

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https://treatment.plazi.org/id/AB191354-7A2C-D464-FF75-458F8223FC6C

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scientific name

Anhanguera adductor subsp. mandibulae
status

 

M. adductor mandibulae posterior (mAMP)

Origin: The origin of mAMP from the lateral surface of the quadrate is consistent across sauropsids, as seen in lepidosaurs, crocodylians and birds, although the exact position varies in all of these (e.g. Holliday & Witmer, 2007; Holliday, 2009) and further includes the postorbital and parietal in turtles ( Werneburg, 2011). Crocodylians exhibit crests and fossae on the quadrate that correlate to the origin of this muscle ( Holliday & Witmer, 2007).

Well-defined muscle scars were found on the lateral surface of the main body of the quadrate, within the inner limits of the lower temporal fossa, in the holotype of Tupandactylus navigans , Tr. mesembrinus and several pteranodontids ( Fig. 5).

Insertion: mAMP inserts at the mandibular fossa, located on the posteromedial surface of the mandibular rami, in both lizards and extant archosaurs. This strongly suggests that the same case would apply for pterosaurs. A well-preserved mandibular fossa could be found in all pterosaur specimens herein analysed.

The mandibular fossa of Th. sethi is more anteroposteriorly elongated and deeply excavated ( Fig. 10 View Figure 1 ) than in other pterosaurs such as Aymberedactylus cearensis , Cearadactylus atrox , Ta. wellnhoferi , Tr. mesembrinus , Tupuxuara leonardii and anhanguerians (e.g. Wellnhofer, 1985; Veldmeijer et al., 2005) including An. araripensis , and the ctenochasmatid Forfexopterus jeholensis Jiang et al., 2016.

TEMPORAL ADDUCTOR MUSCLES

M. pseudotemporalis superficialis (mPSTs) Origin: Both mPSTs and mAMEP are medial to mAMEM ( Holliday & Witmer, 2007). mPSTs originates anteromedially within the upper temporal fenestra in extant lepidosaurs and birds ( Holliday & Witmer, 2007). In the probably secondarily anapsid-like skull of the Testudines (see Lee, 2013; Schoch & Sues, 2015, 2018), this muscle originates on the lateral surface of the parietal and postorbital ( Werneburg, 2011). In extant crocodylians, it originates at the dorsal part of the laterosphenoid, outside the limits of the upper temporal fenestra. Still, this condition is probably derived from the primitive condition of this muscle originating within the medial margin of the upper temporal fenestra, as inferred for primitive crocodyliforms ( Holliday & Witmer, 2007), and for dinosaurs ( Holliday, 2009). It suggests that in pterosaurs this muscle should have originated anteromedially within this fenestra as well.

Insertion: mPSTs inserts medially on the mandible, on the coronoid process, as seen in lepidosaurs, turtles (only on the surangular part of the coronoid process) and extant birds, whereas in extant crocodylians it inserts on the sesamoid transiliens cartilage, near the coronoid eminence ( Holliday & Witmer, 2007; Werneburg, 2011). For dinosaur taxa in which the coronoid eminence is immediately adjacent to the mandibular fossa, this muscle was proposed to insert on the eminence plus the anterior region of the mandibular fossa ( Holliday, 2009).

The reptilian coronoid process is not formed solely by the coronoid; instead, it also receives contributions from the anterior portion of the surangular and posterior portion of the dentary (e.g. Romer, 1956). In most pterosaurs, even though the coronoid bone itself cannot be identified, eminences formed by the surangular can be found in the same region where the coronoid eminence is found in other reptiles, such as dinosaurs (see Dalla Vecchia, 2003). This surangular

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Origin group Lepidosauria (Holliday & see, 2007 Witmer) Anterolateral surface of, squamosal ventromedial surface of squamosal and postorbital Ventrolateral sur- quadrate of face

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adductor mandibulae externus superficialis posterior

Continued M mandibulae 1 Table. Muscle M adductor .

eminence is present in almost all known mandibles from Triassic forms (see Dalla Vecchia, 2003, 2014; Kellner, 2015). However, this feature was lost in later forms (see Kellner, 2015).

The Early Cretaceous tapejarid Th. sethi exhibits, in the same region where the “coronoid” process would be, a well-developed tubercle projected not dorsally, but medially. In this same taxon, the mandibular fossa is especially elongated and markedly excavated when compared to other taxa, being immediately adjacent to this surangular tubercle. It is unlikely that the whole extent of this well-developed fossa could be explained by the insertion sites of mPSTp or mAMP alone, suggesting that mPSTs probably extended from the surangular tubercle onto the anterior region of this fossa as well. In Ay. cearensis ( Fig. 9 View Figure 9 ), An. araripensis ( Fig. 11 View Figure 11 ) and pteranodontids ( Figs 12–15 View Figure 12 View Figure 13 View Figure 14 View Figure 15 ), the medial surface of the surangular, anterior to the mandibular fossa (where the “coronoid” process would be), exhibits well-defined muscle scars. Therefore, it seems most likely that mPSTs originated from the anteromedial region of the upper temporal fenestra (extending dorsally onto the frontoparietal crest), medial to mAMEM and anterior to mAMEP. It then passed through the subtemporal fenestra and inserted in the surangular and anterior region of the mandibular fossa.

Kingdom

Animalia

Phylum

Chordata

Class

Reptilia

Order

Pterosauria

Family

Anhangueridae

Genus

Anhanguera

Loc

Anhanguera adductor subsp. mandibulae

Pêgas, Rodrigo V, Costa, Fabiana R & Kellner, Alexander W A 2021
2021
Loc

Thalassodromeus sethi

Kellner & Campos 2002
2002
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