Add to ORKGIdentifying 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 being resolved to species. We provide new spawning information for Luvarus imperialis (Louvar), Bothus lunatus (Plate Fish), Eumegistus illustris (Brilliant Pomfret),...
Understanding fish diversity patterns is critical for fisheries management amidst overfishing and cl...
Maps of the spawning grounds of commercially important fishes are necessary when assessing the level...
Monitoring marine protected areas is essential in order to assess if they are effectively conserving...
Identifying spawning sites for broadcast spawning fish species is a key element of delineating criti...
DNA barcoding of fish eggs is a relatively new technique that enables more accurate identification o...
This dataset contains DNA barcoding results of fish eggs collected along the northwestern coast of C...
We combined research‐vessel cruises of opportunity with DNA barcoding to survey planktonic, percomor...
Planktonic fish eggs can be reliably identified with DNA barcoding, and their distribution and abund...
In the waters surrounding Banco Chinchorro in the Mexican Caribbean are spawning and nursery areas f...
A genetic identification method (DNA barcoding) was used to compare the community compositions of pl...
The distribution and abundance of fish eggs in the plankton provides a valuable measure of local spa...
In order to protect the diverse ecosystems of coastal California, a series of marine protected areas...
The location and abundance of fish eggs provide information concerning the timing and location of sp...
Understanding fish diversity patterns is critical for fisheries management amidst overfishing and cl...
Maps of the spawning grounds of commercially important fishes are necessary when assessing the level...
Monitoring marine protected areas is essential in order to assess if they are effectively conserving...
Identifying spawning sites for broadcast spawning fish species is a key element of delineating criti...
DNA barcoding of fish eggs is a relatively new technique that enables more accurate identification o...
This dataset contains DNA barcoding results of fish eggs collected along the northwestern coast of C...
We combined research‐vessel cruises of opportunity with DNA barcoding to survey planktonic, percomor...
Planktonic fish eggs can be reliably identified with DNA barcoding, and their distribution and abund...
In the waters surrounding Banco Chinchorro in the Mexican Caribbean are spawning and nursery areas f...
A genetic identification method (DNA barcoding) was used to compare the community compositions of pl...
The distribution and abundance of fish eggs in the plankton provides a valuable measure of local spa...
In order to protect the diverse ecosystems of coastal California, a series of marine protected areas...
The location and abundance of fish eggs provide information concerning the timing and location of sp...
Understanding fish diversity patterns is critical for fisheries management amidst overfishing and cl...
Maps of the spawning grounds of commercially important fishes are necessary when assessing the level...
Monitoring marine protected areas is essential in order to assess if they are effectively conserving...