DNA barcoding of fish eggs collected off northwestern Cuba and across the Florida Straits demonstrates egg transport by mesoscale eddies

Identifying spawning sites for broadcast spawning fish species is a key element of delineating critical habitat for managing and regulating marine fisheries. Genetic barcoding has enabled accurate taxonomic identification of individual fish eggs, overcoming limitations of morphological classificatio...

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Veröffentlicht in:	Fisheries oceanography 2020-07, Vol.29 (4), p.340-348
Hauptverfasser:	Kerr, Makenzie, Browning, Jeremy, Bønnelycke, Eva‐Maria, Zhang, Yingjun, Hu, Chuanmin, Armenteros, Maickel, Murawski, Steven, Peebles, Ernst, Breitbart, Mya
Format:	Artikel
Sprache:	eng
Schlagworte:	barcoding Continental shelves Cuba Deoxyribonucleic acid DNA DNA barcoding Economic importance Eddies Eggs Fish fish egg Fish eggs Florida Straits Fluid dynamics Fluid flow Gene sequencing genetic Hydrodynamics Identification Imagery Marine fish Marine fisheries Mesoscale eddies Oceanography Pelagic fisheries reef‐associated Remote sensing Satellite imagery Spaceborne remote sensing Spawning Species Straits Taxa
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container_title	Fisheries oceanography
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creator	Kerr, Makenzie Browning, Jeremy Bønnelycke, Eva‐Maria Zhang, Yingjun Hu, Chuanmin Armenteros, Maickel Murawski, Steven Peebles, Ernst Breitbart, Mya
description	Identifying spawning sites for broadcast spawning fish species is a key element of delineating critical habitat for managing and regulating marine fisheries. Genetic barcoding has enabled accurate taxonomic identification of individual fish eggs, overcoming limitations of morphological classification techniques. In this study, planktonic fish eggs were collected at 23 stations along the northwestern coast of Cuba and across the Florida Straits to United States waters. A total of 564 fish eggs were successfully identified to 89 taxa within 30 families, with the majority of taxa resolved to species. We provide new spawning information for Luvarus imperialis (Louvar), Bothus lunatus (Plate Fish), Eumegistus illustris (Brilliant Pomfret), and many economically important species. Data from most sites supported previously established patterns of eggs from neritic fish species being found on continental shelves and oceanic species spawning over deeper waters. However, some sites deviated from this pattern, with eggs from reef‐associated fish species detected in the deep waters of the Florida Straits and pelagic species detected in the shallow, continental shelf waters off the coast of northwestern Cuba. Further investigation using satellite imagery revealed the presence of a mesoscale cyclonic eddy that likely entrained neritic fish eggs and transported them into the Florida Straits. The technique of combining DNA‐based fish egg identification with remotely‐sensed hydrodynamics provides an important new tool for assessing the interplay of regional oceanography with fish spawning strategies.
doi_str_mv	10.1111/fog.12475
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subjects	barcoding Continental shelves Cuba Deoxyribonucleic acid DNA DNA barcoding Economic importance Eddies Eggs Fish fish egg Fish eggs Florida Straits Fluid dynamics Fluid flow Gene sequencing genetic Hydrodynamics Identification Imagery Marine fish Marine fisheries Mesoscale eddies Oceanography Pelagic fisheries reef‐associated Remote sensing Satellite imagery Spaceborne remote sensing Spawning Species Straits Taxa
title	DNA barcoding of fish eggs collected off northwestern Cuba and across the Florida Straits demonstrates egg transport by mesoscale eddies
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