Your search keyword '"Adams, Justin W."' showing total 5 results

1. Inferring the palaeobiology of palorchestid marsupials through analysis of mammalian humeral and femoral shape.

Author

Richards, Hazel L., Rovinsky, Douglass S., Adams, Justin W., and Evans, Alistair R.

Subjects

PALEOBIOLOGY, HUMERUS, MARSUPIALS, GEOMETRIC approach, MORPHOLOGY, HINDLIMB

Abstract

The relationship between ecology and morphology of the limbs in living placental mammals is well established and has been used to infer aspects of palaeobiology for many extinct species. However, few studies have applied these principles to extinct marsupials. Palorchestids are a poorly understood extinct family of megafaunal marsupials of particular interest due to their highly robust and unusual limb morphology. Using a comparative sample of humeri and femora from living mammals potentially analogous to palorchestids, we applied three-dimensional geometric morphometric techniques in a phylogenetic comparative framework. We established that humerus and femur shape in living species showed significant associations with size, phylogeny, and substrate use, and found a weak association between humeral shape and diet. We then examined patterns in morphological disparity, modularity, covariance and morphospace occupation in palorchestids relative to comparative living mammals as well as their closest extinct marsupial relatives. We found palorchestid femora to be unremarkable in shape, while their overall and proximal humeral morphology were strongly divergent from all other mammals sampled. Over their evolutionary history, palorchestid distal humeri increasingly resembled those of mammals adapted for tearing and hook-and-pull digging, while other analyses showed various arboreal-like and fossorial-like affinities in humeral shape. Our findings indicate strong asymmetric selection acting on the fore- and hindlimbs in palorchestids, and their unique combination of shape traits suggests they used their forelimbs in a specialised manner that has no direct equivalence either with their extinct relatives or among other mammals alive today. [ABSTRACT FROM AUTHOR]

Published

2023

2. A universal power law for modelling the growth and form of teeth, claws, horns, thorns, beaks, and shells.

Author

Evans, Alistair R., Pollock, Tahlia I., Cleuren, Silke G. C., Parker, William M. G., Richards, Hazel L., Garland, Kathleen L. S., Fitzgerald, Erich M. G., Wilson, Tim E., Hocking, David P., and Adams, Justin W.

Subjects

EVOLUTIONARY developmental biology, MORPHOLOGY, DEVELOPMENTAL biology, DENTITION, BEAKS, CLAWS, SEASHELLS

Abstract

Background: A major goal of evolutionary developmental biology is to discover general models and mechanisms that create the phenotypes of organisms. However, universal models of such fundamental growth and form are rare, presumably due to the limited number of physical laws and biological processes that influence growth. One such model is the logarithmic spiral, which has been purported to explain the growth of biological structures such as teeth, claws, horns, and beaks. However, the logarithmic spiral only describes the path of the structure through space, and cannot generate these shapes. Results: Here we show a new universal model based on a power law between the radius of the structure and its length, which generates a shape called a 'power cone'. We describe the underlying 'power cascade' model that explains the extreme diversity of tooth shapes in vertebrates, including humans, mammoths, sabre-toothed cats, tyrannosaurs and giant megalodon sharks. This model can be used to predict the age of mammals with ever-growing teeth, including elephants and rodents. We view this as the third general model of tooth development, along with the patterning cascade model for cusp number and spacing, and the inhibitory cascade model that predicts relative tooth size. Beyond the dentition, this new model also describes the growth of claws, horns, antlers and beaks of vertebrates, as well as the fangs and shells of invertebrates, and thorns and prickles of plants. Conclusions: The power cone is generated when the radial power growth rate is unequal to the length power growth rate. The power cascade model operates independently of the logarithmic spiral and is present throughout diverse biological systems. The power cascade provides a mechanistic basis for the generation of these pointed structures across the tree of life. [ABSTRACT FROM AUTHOR]

Published

2021

3. Did the thylacine violate the costs of carnivory? Body mass and sexual dimorphism of an iconic Australian marsupial.

Author

Rovinsky, Douglass S., Evans, Alistair R., Martin, Damir G., and Adams, Justin W.

Subjects

SEXUAL dimorphism, MORPHOLOGY, MARSUPIALS, PREDATION, ANIMAL feeding behavior

Abstract

The relative body masses of predators and their prey strongly affect the predators' ecology. An accurate estimate of the mass of an extinct predator is therefore key to revealing its biology and the structure of the ecosystem it inhabited. Until its extinction, the thylacinewas the largest extant carnivorous marsupial, but little data exist regarding its body mass, with an average of 29.5 kg the most commonly used estimate. According to the costs of carnivory model, this estimate predicts that thylacines would have focused on prey subequal to or larger than themselves; however, many studies of their functional morphology suggest a diet of smaller animals. Here, we present new body mass estimates for 93 adult thylacines, including two taxidermy specimens and four complete mounted skeletons, representing 40 known-sex specimens, using three-dimensional volumetric model-informed regressions. We demonstrate that prior estimates substantially overestimated average adult thylacine body mass. We show mixed-sex population mean (16.7 kg), mean male (19.7 kg), and mean female (13.7 kg) body masses well below prior estimates, and below the 21 kg costs of carnivory threshold. Our data show that the thylacine did not violate the costs of carnivory. The thylacine instead occupied the 14.5-21 kg predator/prey range characterized by small-prey predators capable of occasionally switching to relatively large-bodied prey if necessary. [ABSTRACT FROM AUTHOR]

Published

2020

4. The extraordinary osteology and functional morphology of the limbs in Palorchestidae, a family of strange extinct marsupial giants.

Author

Richards, Hazel L., Wells, Rod T., Evans, Alistair R., Fitzgerald, Erich M. G., and Adams, Justin W.

Subjects

BONES, MORPHOLOGY, BIPEDALISM, MUSCULOSKELETAL system, TISSUES

Abstract

The Palorchestidae are a family of marsupial megafauna occurring across the eastern Australian continent from the late Oligocene through to their extinction in the Late Pleistocene. The group is known for their odd ‘tapir-like’ crania and distinctive clawed forelimbs, but their appendicular anatomy has never been formally described. We provide the first descriptions of the appendicular skeleton and body mass estimates for three palorchestid species, presenting newly-identified, and in some cases associated, material of mid-Miocene Propalorchestes, Plio-Pleistocene Palorchestes parvus and Pleistocene Palorchestes azael alongside detailed comparisons with extant and fossil vombatiform marsupials. We propose postcranial diagnostic characters at the family, genus and species level. Specialisation in the palorchestid appendicular skeleton evidently occurred much later than in the cranium and instead correlates with increasing body size within the lineage. We conclude that palorchestid forelimbs were highly specialised for the manipulation of their environment in the acquisition of browse, and that they may have adopted bipedal postures to feed. Our results indicate palorchestids were bigger than previously thought, with the largest species likely weighing over 1000 kg. Additionally, we show that P. azael exhibits some of the most unusual forelimb morphology of any mammal, with a uniquely fixed humeroulnar joint unlike any of their marsupial kin, living or extinct. [ABSTRACT FROM AUTHOR]

Published

2019

5. First hominine remains from a ∼1.0 million year old bone bed at Cornelia-Uitzoek, Free State Province, South Africa

Author

Brink, James S., Herries, Andy I.R., Moggi-Cecchi, Jacopo, Gowlett, John A.J., Bousman, C. Britt, Hancox, John P., Grün, Rainer, Eisenmann, Vera, Adams, Justin W., and Rossouw, Lloyd

Subjects

*FOSSIL hominids, *BONES, *TOOTH anatomy, *PALEOMAGNETISM, *MORPHOLOGY, *BIOGEOGRAPHY

Abstract

Abstract: We report here on evidence of early Homo around 1.0 Ma (millions of years ago) in the central plains of southern Africa. The human material, a first upper molar, was discovered during the systematic excavation of a densely-packed bone bed in the basal part of the sedimentary sequence at the Cornelia-Uitzoek fossil vertebrate locality. We dated this sequence by palaeomagnetism and correlated the bone bed to the Jaramillo subchron, between 1.07 and 0.99 Ma. This makes the specimen the oldest southern African hominine remains outside the dolomitic karst landscapes of northern South Africa. Cornelia-Uitzoek is the type locality of the Cornelian Land Mammal Age. The fauna contains an archaic component, reflecting previous biogeographic links with East Africa, and a derived component, suggesting incipient southern endemism. The bone bed is considered to be the result of the bone collecting behaviour of a large predator, possibly spotted hyaenas. Acheulian artefacts are found in small numbers within the bone bed among the fossil vertebrates, reflecting the penecontemporaneous presence of people in the immediate vicinity of the occurrence. The hominine tooth was recovered from the central, deeper part of the bone bed. In size, it clusters with southern African early Homo and it is also morphologically similar. We propose that the early Homo specimen forms part of an archaic component in the fauna, in parallel with the other archaic faunal elements at Uitzoek. This supports an emergent pattern of archaic survivors in the southern landscape at this time, but also demonstrates the presence of early Homo in the central plains of southern Africa, beyond the dolomitic karst areas. [Copyright &y& Elsevier]

Published

2012