Profil personnel
Research Expertise
James Macarthur is a PhD student with a particular interest in integrating molecular techniques into biodiversity monitoring and management frameworks. He has recently completed a research masters at the University of Hull where his project provided a molecular methodology for calculating dietary selection, which incorporated faecal metabarcoding of spraints in conjunction with eDNA water sampling of local fish communities to investigate dietary preferences of the Eurasian otter (Lutra lutra) within the River Hull catchment.
His PhD will integrate both molecular and traditional techniques to investigate the impacts of the Eurasian beaver (Castor fiber) on fish communities and conservation priority mammals, with a particular interest on their interactions with migratory fish species such as Atlantic salmon (Salmo salar).
James has previously worked on a range of research projects across the UK in collaboration with Scottish Water, Yorkshire Wildlife trust, NatureSpy, Natural England and the UK Environment Agency in which molecular tools have been used to assess species distribution and status across catchments.
Research Interests:
- The integration of molecular tools to inform biodiversity monitoring
- Fish migration
- Predator diets
- Population genetics
Qualification académique
Bachelor of Science, Zoology, University of Hull
20 sept. 2017 → 1 juil. 2020
Date d'octroi: 1 juil. 2020
Master of Science, What is an otter’s favourite food? – A molecular investigation into the dietary preferences of the Eurasian otter (Lutra lutra) across the River Hull Catchment, University of Hull
11 sept. 2020 → 4 août 2022
Keywords
- QL Zoology
Expertise relative aux objectifs de développement durable des Nations Unies
En 2015, les États membres des Nations Unies ont convenu de 17 objectifs de développement durable (Sustainable Development Goals, SDG) pour éradiquer la pauvreté, protéger la planète et assurer la prospérité de tous. Le travail de cette personne contribue à la poursuite du/des SDG suivant(s) :
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Clean water and sanitation -
Life below water -
Life on land
Empreinte digitale
- 1 Profils similaires
Collaborations et principaux domaines de recherche des cinq dernières années
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eDNA sampling reveals no negative effects of beaver recolonisation on the catchment-scale distribution of migratory fish
Macarthur, J. A., Law, A., Willby, N., Svobodova, D., Griffiths, N. P., Campbell, R., Gaywood, M., Bean, C., Lawson Handley, L., Smith, M., Leonard, S., Conroy, C., Pritchard, V. L. & Hanfling, B., 16 mai 2025, (E-pub ahead of print).Résultats de recherche: Preprint
Accès ouvert -
Effective Amphibian Conservation Monitoring and Habitat Assessment Using eDNA
Seymour, M., Halling, C., Brys, R., Fatima, A., Frösäter, K., Hänfling, B., Halmaerten, D., Lin, B., MacArthur, J., Neyrinck, S., Nikladson, M., Sellers, G. S., Svobodova, D. & Hellström, M., 10 oct. 2025, Dans: Environmental DNA. 7, 5, e70192.Résultats de recherche: Article › Revue par des pairs
Accès ouvert -
Proving a negative: Estimating species ‘confidence in absence for decision-making’ using environmental DNA monitoring
Griffiths, N. P., Hänfling, B., Cattaneo, M., Wright, R. M., Macarthur, J. A., Peixoto, S. & Bolland, J. D., 14 juil. 2025, Dans: Journal of Applied Ecology.Résultats de recherche: Article › Revue par des pairs
3 Citations (Scopus) -
Seasonal Changes in Fish eDNA Signal Vary Between Contrasting River Types
Griffiths, N. P., Bolland, J. D., Wright, R. M., Blabolil, P., Macarthur, J. A., Sellers, G. S. & Hänfling, B., 6 juin 2025, Dans: Environmental DNA. 7, 3, e70060.Résultats de recherche: Article › Revue par des pairs
Accès ouvert2 Citations (Scopus)