Your search keyword '"Jason Newton"' showing total 5 results

1. A modern baseline for the paired isotopic analysis of skin and bone in terrestrial mammals

Author

Sean P. Doherty, Matthew J. Collins, Alison J. T. Harris, Ainara Sistiaga, Jason Newton, and Michelle M. Alexander

Subjects

skin, bone, archaeology, cross-disciplinary sciences, analytical chemistry, stable isotope analysis, Science

Abstract

We present the isotopic discrimination between paired skin and bone collagen from animals of known life history, providing a modern baseline for the interpretation of archaeological isotopic data. At present, the interpretation of inter-tissue variation (Δ(skin–bone)) in mummified remains is based on comparisons with other archaeological material, which have attributed divergence to their contrasting turnover rates, with rapidly remodelling skin collagen incorporating alterations in environmental, cultural and physiological conditions in the months prior to death. While plausible, the lack of baseline data from individuals with known life histories has hindered evaluation of the explanations presented. Our analysis of a range of animals raised under a variety of management practices showed a population-wide trend for skin collagen to be depleted in 13C by –0.7‰ and enriched in 15N by +1.0‰ relative to bone collagen, even in stillborn animals. These results are intriguing and difficult to explain using current knowledge; however, on the basis of the findings reported here, we caution any results which interpret simply on differing turnover rates. We hypothesize that there may be a consistent difference in the routing of dietary protein and lipids between skin and bone, with potentially on-site synthesis of non-essential amino acids using carbon and nitrogen that have been sourced via different biochemical pathways.

Published

2022

2. Geochemistry, faunal composition and trophic structure in reducing sediments on the southwest South Georgia margin

Author

James B. Bell, Alfred Aquilina, Clare Woulds, Adrian G. Glover, Crispin T. S. Little, William D. K. Reid, Laura E. Hepburn, Jason Newton, and Rachel A. Mills

Subjects

methane, southern ocean, ecology, assemblage composition, trophodynamics, authigenic carbonates, Science

Abstract

Despite a number of studies in areas of focused methane seepage, the extent of transitional sediments of more diffuse methane seepage, and their influence upon biological communities is poorly understood. We investigated an area of reducing sediments with elevated levels of methane on the South Georgia margin around 250 m depth and report data from a series of geochemical and biological analyses. Here, the geochemical signatures were consistent with weak methane seepage and the role of sub-surface methane consumption was clearly very important, preventing gas emissions into bottom waters. As a result, the contribution of methane-derived carbon to the microbial and metazoan food webs was very limited, although sulfur isotopic signatures indicated a wider range of dietary contributions than was apparent from carbon isotope ratios. Macrofaunal assemblages had high dominance and were indicative of reducing sediments, with many taxa common to other similar environments and no seep-endemic fauna, indicating transitional assemblages. Also similar to other cold seep areas, there were samples of authigenic carbonate, but rather than occurring as pavements or sedimentary concretions, these carbonates were restricted to patches on the shells of Axinulus antarcticus (Bivalvia, Thyasiridae), which is suggestive of microbe–metazoan interactions.

Published

2016

3. Geochemistry, faunal composition and trophic structure in reducing sediments on the southwest South Georgia margin

Author

Crispin T. S. Little, Clare Woulds, Adrian G. Glover, William D. K. Reid, Alfred Aquilina, Rachel A. Mills, Laura E. Hepburn, James B. Bell, and Jason Newton

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, trophodynamics, Geochemistry, 01 natural sciences, Methane, chemistry.chemical_compound, Dominance (ecology), Earth Science, 14. Life underwater, lcsh:Science, Southern Ocean, 0105 earth and related environmental sciences, Trophic level, Multidisciplinary, biology, 010604 marine biology & hydrobiology, methane, assemblage composition, Authigenic, biology.organism_classification, Cold seep, authigenic carbonates, chemistry, 13. Climate action, Thyasiridae, Carbonate, Sedimentary rock, lcsh:Q, ecology, Research Article

Abstract

Despite a number of studies in areas of focused methane seepage, the extent of transitional sediments of more diffuse methane seepage, and their influence upon biological communities is poorly understood. We investigated an area of reducing sediments with elevated levels of methane on the South Georgia margin around 250 m depth and report data from a series of geochemical and biological analyses. Here, the geochemical signatures were consistent with weak methane seepage and the role of sub-surface methane consumption was clearly very important, preventing gas emissions into bottom waters. As a result, the contribution of methane-derived carbon to the microbial and metazoan food webs was very limited, although sulfur isotopic signatures indicated a wider range of dietary contributions than was apparent from carbon isotope ratios. Macrofaunal assemblages had high dominance and were indicative of reducing sediments, with many taxa common to other similar environments and no seep-endemic fauna, indicating transitional assemblages. Also similar to other cold seep areas, there were samples of authigenic carbonate, but rather than occurring as pavements or sedimentary concretions, these carbonates were restricted to patches on the shells of Axinulus antarcticus (Bivalvia, Thyasiridae), which is suggestive of microbe–metazoan interactions.

Published

2016

4. Seasonal matching of habitat quality and fitness in a migratory bird

Author

William J. Sutherland, Jennifer A. Gill, Jason Newton, Peter M. Potts, and Tómas G. Gunnarsson

Subjects

Charadriiformes, Matching (statistics), Range (biology), Population, Population Dynamics, Environment, General Biochemistry, Genetics and Molecular Biology, Sexual Behavior, Animal, Homing Behavior, Seasonal breeder, Animals, education, Selection (genetic algorithm), General Environmental Science, education.field_of_study, Carbon Isotopes, General Immunology and Microbiology, biology, Ecology, General Medicine, biology.organism_classification, Europe, Habitat, Philopatry, Animal Migration, General Agricultural and Biological Sciences, Research Article

Abstract

When species occupy habitats that vary in quality, choice of habitat can be critical in determining individual fitness. In most migratory species, juveniles migrate independently of their parents and must therefore choose both breeding and winter habitats. Using a unique dataset of marked black-tailed godwits ( Limosa limosa islandica ) tracked throughout their migratory range, combined with analyses of stable carbon isotope ratios, we show that those individuals that occupy higher quality breeding sites also use higher quality winter sites. This seasonal matching can severely inflate inequalities in individual fitness. This population has expanded over the last century into poorer quality breeding and winter habitats and, across the whole population; individual birds tend to occupy either novel or traditional sites in both seasons. Winter and breeding season habitat selection are thus strongly linked throughout this population; these links have profound implications for a wide range of population and evolutionary processes. As adult godwits are highly philopatric, the initial choice of winter habitat by juveniles will be critical in determining future survival, timing of migration and breeding success.

Published

2005

5. Tracking niche variation over millennial timescales in sympatric killer whale lineages

Author

Aqqalu Rosing-Asvid, José Alfredo Samaniego, M. Thomas P. Gilbert, Klaas Post, Mikkel-Holger S. Sinding, Jason Newton, Andrew D. Foote, María C. Ávila-Arcos, and Marie-Louise Kampmann

Subjects

Gene Flow, Sympatry, Genotype, Genetic Speciation, Heteropatric speciation, Population Dynamics, Allopatric speciation, Biology, General Biochemistry, Genetics and Molecular Biology, Ecological speciation, Homing Behavior, Genetic algorithm, Animals, Phylogeny, Research Articles, General Environmental Science, Ecological niche, Models, Genetic, General Immunology and Microbiology, Ecology, Genetic Variation, General Medicine, Diet, Phylogeography, Sympatric speciation, Predatory Behavior, North Sea, Whale, Killer, General Agricultural and Biological Sciences, Microsatellite Repeats

Abstract

Niche variation owing to individual differences in ecology has been hypothesized to be an early stage of sympatric speciation. Yet to date, no study has tracked niche width over more than a few generations. In this study, we show the presence of isotopic niche variation over millennial timescales and investigate the evolutionary outcomes. Isotopic ratios were measured from tissue samples of sympatric killer whaleOrcinus orcalineages from the North Sea, spanning over 10 000 years. Isotopic ratios spanned a range similar to the difference in isotopic values of two known prey items, herringClupea harengusand harbour sealPhoca vitulina. Two proxies of the stage of speciation, lineage sorting of mitogenomes and genotypic clustering, were both weak to intermediate indicating that speciation has made little progress. Thus, our study confirms that even with the necessary ecological conditions, i.e. among-individual variation in ecology, it is difficult for sympatric speciation to progress in the face of gene flow. In contrast to some theoretical models, our empirical results suggest that sympatric speciation driven by among-individual differences in ecological niche is a slow process and may not reach completion. We argue that sympatric speciation is constrained in this system owing to the plastic nature of the behavioural traits under selection when hunting either mammals or fish.

Published

2013