Linking surface hydrodynamics to planktonic ecosystem: the case study of the ichthyoplanktonic assemblages in the Central Mediterranean Sea

Oceanographic processes play a key role in influencing the structure of the marine planktonic ecosystems. Taking advantage of the quasi-simultaneous collection of a large ichthyoplanktonic dataset in different regions of the Central Mediterranean Sea (Italian/Maltese, Tunisian and Libyan waters), th...

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Veröffentlicht in:	Hydrobiologia 2018-10, Vol.821 (1), p.191-214
Hauptverfasser:	Cuttitta, Angela, Torri, Marco, Zarrad, Rafik, Zgozi, Salem, Jarboui, Othman, Quinci, Enza Maria, Hamza, Mohamed, Abdulfatah, Elfetori, Haddoud, Daw, El Turki, Akram, Ramadan, Abdulbari, Missaoui, Hechmi, Mifsud, Roberta, Bonomo, Sergio, Mazzola, Salvatore, Patti, Bernardo
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Schlagworte:	Analysis Bathymetry Biomedical and Life Sciences Case studies Central Mediterranean Ecosystems Chlorophyll Chlorophyll a Composition Computational fluid dynamics Computer simulation Ecology Ecosystems Environmental conditions Fish Fisheries Fishery resources Fluid dynamics Fluid flow Fluid mechanics Freshwater & Marine Ecology Hydrodynamics Identification Life Sciences Marine ecosystems Regions Resource conservation Spatial distribution Surveys Taxa Wind stress Zoology
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creator	Cuttitta, Angela Torri, Marco Zarrad, Rafik Zgozi, Salem Jarboui, Othman Quinci, Enza Maria Hamza, Mohamed Abdulfatah, Elfetori Haddoud, Daw El Turki, Akram Ramadan, Abdulbari Missaoui, Hechmi Mifsud, Roberta Bonomo, Sergio Mazzola, Salvatore Patti, Bernardo
description	Oceanographic processes play a key role in influencing the structure of the marine planktonic ecosystems. Taking advantage of the quasi-simultaneous collection of a large ichthyoplanktonic dataset in different regions of the Central Mediterranean Sea (Italian/Maltese, Tunisian and Libyan waters), this study aimed at the identification of the main environmental drivers that control the structure of the larval fish assemblages. Spatial distribution and taxa composition were related to physical forcings (geostrophic currents and wind stress) and environmental conditions (bottom depth, temperature, salinity, chlorophyll-a concentration). ANOSIM and SIMPER identified contribution of fish taxa to the average Bray–Curtis dissimilarity among regions. In Italian and Libyan waters, two assemblages (neritic and oceanic) were identified, while a mixed assemblage characterized only some stations. Two neritic and one oceanic assemblages were discriminated in Tunisian waters. Random Forest classification model highlighted the essential role of the bathymetry, while Lagrangian simulations evidenced the action of the hydrodynamics in mixing neritic and oceanic assemblages in the Italian/Maltese and partially in Libyan waters. These findings highlighted the importance of the multidisciplinary approach and shed light on the potential value of the ichthyoplanktonic surveys for the assessment of the state of the marine ecosystem and the conservation of the fishery resources.
doi_str_mv	10.1007/s10750-017-3483-x
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Taking advantage of the quasi-simultaneous collection of a large ichthyoplanktonic dataset in different regions of the Central Mediterranean Sea (Italian/Maltese, Tunisian and Libyan waters), this study aimed at the identification of the main environmental drivers that control the structure of the larval fish assemblages. Spatial distribution and taxa composition were related to physical forcings (geostrophic currents and wind stress) and environmental conditions (bottom depth, temperature, salinity, chlorophyll-a concentration). ANOSIM and SIMPER identified contribution of fish taxa to the average Bray–Curtis dissimilarity among regions. In Italian and Libyan waters, two assemblages (neritic and oceanic) were identified, while a mixed assemblage characterized only some stations. Two neritic and one oceanic assemblages were discriminated in Tunisian waters. Random Forest classification model highlighted the essential role of the bathymetry, while Lagrangian simulations evidenced the action of the hydrodynamics in mixing neritic and oceanic assemblages in the Italian/Maltese and partially in Libyan waters. These findings highlighted the importance of the multidisciplinary approach and shed light on the potential value of the ichthyoplanktonic surveys for the assessment of the state of the marine ecosystem and the conservation of the fishery resources.</description><subject>Analysis</subject><subject>Bathymetry</subject><subject>Biomedical and Life Sciences</subject><subject>Case studies</subject><subject>Central Mediterranean Ecosystems</subject><subject>Chlorophyll</subject><subject>Chlorophyll a</subject><subject>Composition</subject><subject>Computational fluid dynamics</subject><subject>Computer simulation</subject><subject>Ecology</subject><subject>Ecosystems</subject><subject>Environmental conditions</subject><subject>Fish</subject><subject>Fisheries</subject><subject>Fishery resources</subject><subject>Fluid dynamics</subject><subject>Fluid flow</subject><subject>Fluid mechanics</subject><subject>Freshwater & Marine 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subjects	Analysis Bathymetry Biomedical and Life Sciences Case studies Central Mediterranean Ecosystems Chlorophyll Chlorophyll a Composition Computational fluid dynamics Computer simulation Ecology Ecosystems Environmental conditions Fish Fisheries Fishery resources Fluid dynamics Fluid flow Fluid mechanics Freshwater & Marine Ecology Hydrodynamics Identification Life Sciences Marine ecosystems Regions Resource conservation Spatial distribution Surveys Taxa Wind stress Zoology
title	Linking surface hydrodynamics to planktonic ecosystem: the case study of the ichthyoplanktonic assemblages in the Central Mediterranean Sea
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