Assessment of the spawning habitat, spatial distribution, and Lagrangian dispersion of the European anchovy (Engraulis encrasicolus) early stages in the Gulf of Cadiz during an apparent anomalous episode in 2016

Modelling the environmental factors influencing the spatial variation of fish early life stages density and their drift history can identify the key biological and physical processes for the recruitment variability. Distancebased linear multivariate techniques were used to characterize the spawning...

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Bibliographic Details
Published in:Science of The Total Environment
Main Authors: Jiménez, M.P. (María Paz), Teles-Machado, Ana, Caucaso, Andrea, González-Ortegón, Enrique, Plecha, Sandra, J. Peliz, Alvaro, Laiz, Irene
Other Authors: Víctor M. León
Format: Article in Journal/Newspaper
Language:English
Published: Centro Oceanográfico de Cádiz 2021
Subjects:
Engraulis encrasicolus
Anchovy early stages
Gulf of Cadiz
Lagrangian transport
ROMS
Connectivity
fish
geographical distribution
habitat
dispersion
spawning
North Atlantic
Online Access:http://hdl.handle.net/10508/16011
https://doi.org/10.1016/j.scitotenv.2021.146530
Description
Summary:Modelling the environmental factors influencing the spatial variation of fish early life stages density and their drift history can identify the key biological and physical processes for the recruitment variability. Distancebased linear multivariate techniques were used to characterize the spawning areas of the European anchovy Engraulis encrasicolus in the Gulf of Cadiz (GoC). Chlorophyll is the environmental variable that best characterized its spawning areas with a time-lag of three days. The use of Lagrangianmodels to simulate the dispersal of small pelagic species more dependent on advection such as the European anchovy early life stages (early larvae and eggs) in the GoC could provide the degree of connectivity between spawning and nursery areas and identify the physical drivers of the recruitment variability. The larval final destination is critical for the survival of amarine species which is coastal-dependent during its early life stages. Simulations with a Lagrangian transportmodel in the Southwest Iberian Peninsula were performed during the most intense spawning peak of 2016,when a strong and persistent countercurrent event developed. Most of the simulated early life stages were transported to the western Portuguese coast and, to a lesser extent, to the Atlantic oligotrophic waters, suggesting an increase in the connectivity between the subdivision 9a South and West components. Although different environmental processes occurring during ontogenetic stages, as well as overfishing, among others, can explain part of the variability observed in recruitment, events such as the development of coastal countercurrents during the spawning season could partly account for an increase of anchovy on thewestern Portuguese coast and a decrease in the Gulf of Cadiz one year later. Postprint

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