Your search keyword '"Danny Boyce"' showing total 3 results

1. Fine‐scale environmentally associated spatial structure of lumpfish (Cyclopterus lumpus) across the Northwest Atlantic

Author

Barbara L. Langille, Tony Kess, Matthew Brachmann, Cameron M. Nugent, Amber Messmer, Steven J. Duffy, Melissa K. Holborn, Mallory Van Wyngaarden, Tim Martin Knutsen, Matthew Kent, Danny Boyce, Robert S. Gregory, Johanne Gauthier, Elizabeth A. Fairchild, Michael Pietrak, Stephen Eddy, Carlos Garcia deLeaniz, Sofia Consuegra, Ben Whittaker, Paul Bentzen, and Ian R. Bradbury

Subjects

cleaner fish, environmental adaptation, genomics, population structure, spatial structure, whole‐genome re‐sequencing, Evolution, QH359-425

Abstract

Abstract Lumpfish, Cyclopterus lumpus, have historically been harvested throughout Atlantic Canada and are increasingly in demand as a solution to controlling sea lice in Atlantic salmon farms—a process which involves both the domestication and the transfer of lumpfish between geographic regions. At present, little is known regarding population structure and diversity of wild lumpfish in Atlantic Canada, limiting attempts to assess the potential impacts of escaped lumpfish individuals from salmon pens on currently at‐risk wild populations. Here, we characterize the spatial population structure and genomic‐environmental associations of wild populations of lumpfish throughout the Northwest Atlantic using both 70K SNP array data and whole‐genome re‐sequencing data (WGS). At broad spatial scales, our results reveal a large environmentally associated genetic break between the southern populations (Gulf of Maine and Bay of Fundy) and northern populations (Newfoundland and the Gulf of St. Lawrence), linked to variation in ocean temperature and ice cover. At finer spatial scales, evidence of population structure was also evident in a distinct coastal group in Newfoundland and significant isolation by distance across the northern region. Both evidence of consistent environmental associations and elevated genome‐wide variation in FST values among these three regional groups supports their biological relevance. This study represents the first extensive description of population structure of lumpfish in Atlantic Canada, revealing evidence of broad and fine geographic scale environmentally associated genomic diversity. Our results will facilitate the commercial use of lumpfish as a cleaner fish in Atlantic salmon aquaculture, the identification of lumpfish escapees, and the delineation of conservation units of this at‐risk species throughout Atlantic Canada.

Published

2023

2. Atlantic cod aquaculture: Boom, bust, and rebirth?

Author

Danny Boyce, Richard Prickett, Jonathan Moir, Terje van der Meeren, and George C. Nardi

Subjects

Fishery, Aquaculture, Bust, business.industry, VDP::Aquaculture: 922, Aquatic Science, Biology, VDP::Akvakultur: 922, business, Atlantic cod, biology.organism_classification, Agronomy and Crop Science, Boom

Abstract

The commercialization of a new species through aquaculture is much more complex than the mastery of the production process, or closing the loop, as it is sometimes referred to. Commercial aquaculture is a layer within the global seafood industry, much as wild capture is; however, it places human control at a much earlier phase in the life cycle of the harvested product. As an important species on both sides of the Atlantic, the commercialization efforts for the culture of Atlantic cod are described for four locations, Norway, United Kingdom, New England, and Atlantic Canada that highlight many similar technical challenges and the progress made from the late 1980s through 2012. We also describe some of the marketing challenges faced and how they differ. Technically, the species has been commercialized. Hatcheries and farms in all four countries were successfully established. However, there are clear differences in access to capital for research and industrial expansion from both the private and public sector, social acceptance of farmed fish, as well as the impacts on sales when marketing farmed cod in the context of a global seafood supply. Lower cost species substitution, from either the farmed or wild catch, is also a factor that can have a significant impact on long-term successful commercialization.

Published

2021

3. Ocular tissue changes associated with anterior segment opacity in lumpfish ( Cyclopterus lumpus L) eye

Author

Robert L. Gendron, James McDonald, Danny Boyce, Raahyma Ahmad, and Hélène Paradis

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, genetic structures, Veterinary (miscellaneous), Cyclopterus lumpus, Ocular Pathology, Aquatic Science, Cataract, Ophthalmoscopy, Fish Diseases, 03 medical and health sciences, chemistry.chemical_compound, Cataracts, Lens, Crystalline, medicine, Animals, biology, medicine.diagnostic_test, Fishes, Retinal, Histology, 04 agricultural and veterinary sciences, biology.organism_classification, medicine.disease, eye diseases, Perciformes, 030104 developmental biology, medicine.anatomical_structure, chemistry, Lens (anatomy), 040102 fisheries, 0401 agriculture, forestry, and fisheries, sense organs, Abnormality

Abstract

Lumpfish use their vision to hunt prey or, in the case of aquaculture, to see and eat pelleted diets. A common anterior ocular opacity abnormality designated in the literature as "cataract" described in both farmed and wild lumpfish has not yet been characterized in detail at the pathobiological level. We describe here lens tissue changes associated with cataract in cultured and domesticated lumpfish. Methodology included gross observations, ophthalmoscopy and histology. Young adult cultured animals approaching 400 days post-hatch presented a range of anterior segment opacities associated with lenticular abnormalities observable at a histological level. Wild aged domesticated animals also displayed cataracts characterized mainly by abnormalities of the lens observed by both ophthalmoscopy and histology. Dysplastic lesions of the lens in one aged domesticated lumpfish were accompanied with both retinal and optic nerve degeneration. These novel naturally occurring anatomical changes in lumpfish present both commonalities and unique features associated with cataract in young adult cultured animals versus aged domesticated broodstock animals.

Published

2019