Otolith shape variability and associated body growth differences in giant grenadier, Albatrossia pectoralis

Fish stocks can be defined by differences in their distribution, life history, and genetics. Managing fish based on stock structure is integral to successful management of a species because fishing may affect stocks disproportionately. Genetic and environmental differences can affect the shape and g...

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Veröffentlicht in:	PloS one 2017-06, Vol.12 (6), p.e0180020-e0180020
Hauptverfasser:	Rodgveller, Cara J, Hutchinson, Charles E, Harris, Jeremy P, Vulstek, Scott C, Guthrie, 3rd, Charles M
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Factors Albatrossia pectoralis Animal behavior Animals Biology and Life Sciences Cytochrome Cytochrome-c oxidase Distribution DNA barcoding Earth sciences Electron Transport Complex IV - genetics Environmental aspects Female Fish Fisheries management Fishes Fishing Fishing (Recreation) Gadiformes Gadiformes - anatomy & histology Gadiformes - genetics Gadiformes - growth & development Genetics Growth rate Life history Medicine and Health Sciences Otolithic Membrane - anatomy & histology Otoliths Oxidase Physical Sciences Research and Analysis Methods Shape recognition Speciation Studies Variability
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creator	Rodgveller, Cara J Hutchinson, Charles E Harris, Jeremy P Vulstek, Scott C Guthrie, 3rd, Charles M
description	Fish stocks can be defined by differences in their distribution, life history, and genetics. Managing fish based on stock structure is integral to successful management of a species because fishing may affect stocks disproportionately. Genetic and environmental differences can affect the shape and growth of otoliths and these differences may be indicative of stock structure. To investigate the potential for speciation or stock structure in giant grenadier, Albatrossia pectoralis, we quantified the shape of female giant grenadier otoliths and compared body growth rates for fish with three otolith shapes; shape types were classified visually by an experienced giant grenadier age reader, and were not defined by known distribution or life history differences. We found extreme variation in otolith shape among individuals; however, the shapes were a gradation and not clearly defined into three groups. The two more extreme shapes, visually defined as "hatchet" and "comb", were discernable based on principal component analyses of elliptical Fourier descriptors, and the "mixed" shape overlapped both of the extreme shapes. Fish with hatchet-shaped otoliths grew faster than fish with comb-shaped otoliths. A genetic test (cytochrome c oxidase 1 used by the Fish Barcode of Life Initiative) showed almost no variability among samples, indicating that the samples were all from one species. The lack of young specimens makes it difficult to link otolith shape and growth difference to life history. In addition, shape could not be correlated with adult movement patterns because giant grenadiers experience 100% mortality after capture and, therefore, cannot be tagged and released. Despite these limitations, the link between body growth and otolith shape indicates measurable differences that deserve more study.
doi_str_mv	10.1371/journal.pone.0180020
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The two more extreme shapes, visually defined as "hatchet" and "comb", were discernable based on principal component analyses of elliptical Fourier descriptors, and the "mixed" shape overlapped both of the extreme shapes. Fish with hatchet-shaped otoliths grew faster than fish with comb-shaped otoliths. A genetic test (cytochrome c oxidase 1 used by the Fish Barcode of Life Initiative) showed almost no variability among samples, indicating that the samples were all from one species. The lack of young specimens makes it difficult to link otolith shape and growth difference to life history. In addition, shape could not be correlated with adult movement patterns because giant grenadiers experience 100% mortality after capture and, therefore, cannot be tagged and released. 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The two more extreme shapes, visually defined as "hatchet" and "comb", were discernable based on principal component analyses of elliptical Fourier descriptors, and the "mixed" shape overlapped both of the extreme shapes. Fish with hatchet-shaped otoliths grew faster than fish with comb-shaped otoliths. A genetic test (cytochrome c oxidase 1 used by the Fish Barcode of Life Initiative) showed almost no variability among samples, indicating that the samples were all from one species. The lack of young specimens makes it difficult to link otolith shape and growth difference to life history. In addition, shape could not be correlated with adult movement patterns because giant grenadiers experience 100% mortality after capture and, therefore, cannot be tagged and released. 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subjects	Age Factors Albatrossia pectoralis Animal behavior Animals Biology and Life Sciences Cytochrome Cytochrome-c oxidase Distribution DNA barcoding Earth sciences Electron Transport Complex IV - genetics Environmental aspects Female Fish Fisheries management Fishes Fishing Fishing (Recreation) Gadiformes Gadiformes - anatomy & histology Gadiformes - genetics Gadiformes - growth & development Genetics Growth rate Life history Medicine and Health Sciences Otolithic Membrane - anatomy & histology Otoliths Oxidase Physical Sciences Research and Analysis Methods Shape recognition Speciation Studies Variability
title	Otolith shape variability and associated body growth differences in giant grenadier, Albatrossia pectoralis
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