Ichthyoplankton assemblages and physical characteristics of two submarine canyons in the south central Tyrrhenian Sea

Ichthyoplankton assemblages in the south central Tyrrhenian Sea are not known in spite of this being an intensely fished area. There are two large canyons in this region: Dohrn, in the Gulf of Naples, and Cuma, at the south end of the Gulf of Gaeta. In this study, we provide the first description of...

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Bibliographic Details
Published in:Fisheries oceanography 2022-09, Vol.31 (5), p.480-496
Main Authors: Ciannelli, Lorenzo, Cannavacciuolo, Antonio, Konstandinidis, Peter, Mirasole, Alice, Wong‐Ala, Jennifer A. T. K., Guerra, Maria Teresa, D'Ambra, Isabella, Riginella, Emilio, Cianelli, Daniela
Format: Article
Language:English
Subjects:
Animal morphology
Canyons
coastal oceanography
Continental shelves
Dominant species
Eggs
Fish
Fish conservation
Fish eggs
Fish larvae
Gulf of Naples
Ichthyoplankton
ichthyoplankton assemblages
Larvae
Marine parks
Marine protected areas
Mediterranean Sea
Notochord
Particle tracking
Physical characteristics
Physical properties
Protected areas
Spawning
Spawning grounds
Submarine canyons
Tyrrhenian Sea
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Summary:Ichthyoplankton assemblages in the south central Tyrrhenian Sea are not known in spite of this being an intensely fished area. There are two large canyons in this region: Dohrn, in the Gulf of Naples, and Cuma, at the south end of the Gulf of Gaeta. In this study, we provide the first description of summer ichthyoplankton assemblages in the vicinity of the two canyons and present the physical features and Lagrangian particle tracking analyses at the time of the sampling. We identified fish larvae of 19 families and fish eggs of 8 families. The most abundant species was Engraulis encrasicolus, which was found at densities comparable to other known spawning grounds of the western Mediterranean. Mesopelagic species, such as Gonostomatidae and Myctophidae, were also abundant, especially at the Cuma Canyon. The notochord and standard length of the E. encrasicolus larvae ranged from 2.06 to 10.47 mm and was significantly smaller at the Cuma stations than at the Dohrn stations, suggesting the presence of sub‐populations with different spawning phenologies. The passive particle tracking analyses and the examination of currents confirmed distinct circulation features between the two sampled regions and in relation to depth and proximity to the canyon heads. These results uncover previously unknown rich assemblages of fish eggs and larvae and have conservation and management implications given the proximity of these canyons to a marine protected area and to an intensely fished continental shelf.
ISSN:1054-6006
1365-2419
DOI:10.1111/fog.12596