Fay Penrose scite author profile

The masticatory apparatus amongst closely related carnivoran species raises intriguing questions about the interplay between allometry, function, and phylogeny in defining interspecific variations of cranial morphology. Here we describe the gross structure of the jaw adductor muscles of several species of canid, and then examine how the muscles are scaled across the range of body sizes, phylogenies, and trophic groups. We also consider how the muscles are accommodated on the skull, and how this is influenced by differences of endocranial size. Data were collected for a suite of morphological metrics, including body mass, endocranial volume, and muscle masses and we used geometric morphometric shape analysis to reveal associated form changes. We find that all jaw adductor muscles scale isometrically against body mass, regardless of phylogeny or trophic group, but that endocranial volume scales with negative allometry against body mass. These findings suggest that head shape is partly influenced by the need to house isometrically scaling muscles on a neurocranium scaling with negative allometry. Principal component analysis suggests that skull shape changes, such as the relatively wide zygomatic arches and large sagittal crests seen in species with higher body masses, allow the skull to accommodate a relative enlargement of the jaw adductors compared with the endocranium. Anat Rec, 299:951–966, 2016. © 2016 The Authors The Anatomical Record: Advances in Integrative Anatomy and Evolutionary Biology Published by Wiley Periodicals, Inc.

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Functional morphology of the jaw adductor muscles in the Canidae

Penrose

Cox

Kemp

et al. 2020

The Anatomical Record

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Cranial form is closely allied to diet and feeding behavior in the Canidae, with the force and velocity of jaw-closing depending on the bony morphology of the skull and mandible, and the mass, architecture, and siting of the jaw adductor muscles. Previously, little has been reported on the details of the form and function of canid jaw adductor muscles, with earlier studies basing functional hypotheses on data derived from dry skull specimens. Here we use empirically derived muscle data from fresh-frozen specimens to explore the architecture of the muscles, and to inform finite element analyses models that predict bite force and strain energy in 12 species of wild canid. The inclusion of muscle architectural detail is shown to influence masticatory muscle force production capability calculations, indicating that muscles with longer fascicles were disadvantaged compared to muscles with shorter fascicles. No clear patterns of allometry were detected. Dietary groups were differentiated by temporalis fascicle angles, which, when allied with the differentiation of rostral length reported in previous studies, may further contribute to specializations of fast jaw-closing or forceful jaw-closing species. The most biomechanically demanding masticatory function is canine biting, and the highest strain energy values were reported in this loading condition, particularly in the zygomatic arches and caudal rostrum. Specific head shapes may be constrained by size, with scaled strain energy models predicting that some bony morphologies may only be viable in species with small body masses.

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Oestrus ovis infestation of a dog in the UK

McGarry

Penrose

Collins³

2011

J of Small Animal Practice

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In March 2011, a dog on a sheep farm in the Cotswolds, UK, expelled a mature live third-stage larva of the sheep nasal botfly, Oestrus ovis, after a violent and traumatic sneezing episode. The dog had been infected with first-stage larvae deposited by an adult fly the previous autumn; larval development had progressed throughout the winter and spring with few apparent clinical signs and possibly masked by ongoing immunotherapy for an unrelated condition. Identification of the parasite at the Liverpool School of Veterinary Science was made from a submitted puparium, the "chrysalis" stage to which the larva had progressed within days of its expulsion from dog's nose. To the authors' knowledge this is the first report of nasal botfly infestation of a dog in the UK.

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Notes on a Collection of Birds' Skins and Eggs made

Gill

Penrose

1879

Ibis

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I.—On a Cysticercus from the peritoneal cavity of a raccoon-like dog (Nyctereutes procyonides)

Penrose¹

1882

Annals and Magazine of Natural History

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Polliee virgineo teneros hie carpite flores : Floribus et picture, div~e, replete eanlstrum. At yes, o NyTnphm Craterides, ire sub uadas i Ire, reeurvato variat~ corMlia truuco Vellite muscosis e rupibus, et mihi conchas FerSe, nero pelagi, et pingui eonchylia sueco." 2g. Parthenii'Giannettasli Eel. 1. No. 55. JULY 1882. I.--0~. a Cysticercns from the Peritoneal Cavity era Raccoon-lilce Dog (Nyctereutes procyonides). By F.G. PESROSE.

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Fay Penrose

Scaling and Accommodation of Jaw Adductor Muscles in Canidae

Functional morphology of the jaw adductor muscles in the Canidae

Oestrus ovis infestation of a dog in the UK

Notes on a Collection of Birds' Skins and Eggs made

I.—On a Cysticercus from the peritoneal cavity of a raccoon-like dog (Nyctereutes procyonides)

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