Synchaeta’s community in the urban coastal area of the Thessaloniki Bay

Rotifers’ presence and significance are being underestimated among marine zooplankton because rotifers are lost when using larger mesh size nets. Furthermore, samples’ preservation often makes species identification difficult, creating a knowledge gap regarding their diversity and abundance in coast...

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Published in:Hydrobiologia 2024-07, Vol.851 (12-13), p.3025-3037
Main Authors: Kourkoutmani, Polyxeni, Iliadou, Evdoxia, Vlachodimou, Theodora, Stefanidou, Natassa, Kozari, Argyri, Voutsa, Dimitra, Moustaka-Gouni, Maria, Michaloudi, Evangelia
Format: Article
Language:English
Subjects:
Ammonium nitrogen
Biodiversity
Biomedical and Life Sciences
Coastal ecosystems
Coastal zone
Coasts
Distribution patterns
Ecology
Freshwater & Marine Ecology
Geographical distribution
Group dynamics
Life Sciences
Marine invertebrates
Network analysis
Plankton
Rotifera
Rotifera XVI
Seasonal variations
Species identification
Synchaeta
Temperature preferences
Temporal distribution
Trophic relationships
Urban areas
Zoology
Zooplankton
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container_end_page 3037
container_issue 12-13
container_start_page 3025
container_title Hydrobiologia
container_volume 851
creator Kourkoutmani, Polyxeni
Iliadou, Evdoxia
Vlachodimou, Theodora
Stefanidou, Natassa
Kozari, Argyri
Voutsa, Dimitra
Moustaka-Gouni, Maria
Michaloudi, Evangelia
description Rotifers’ presence and significance are being underestimated among marine zooplankton because rotifers are lost when using larger mesh size nets. Furthermore, samples’ preservation often makes species identification difficult, creating a knowledge gap regarding their diversity and abundance in coastal ecosystems. Our study aimed to address this gap by documenting the biodiversity and distribution patterns of the rotifer species, exploring their relationships with the components of the zooplankton community and determining the environmental variables driving their seasonal dynamics. Samplings were carried out in an urban coastal area in the North Aegean Sea in Greece, within two sampling periods. Four coexisting Synchaeta species were encountered, whose temporal distribution patterns were mainly driven by temperature; S. neapolitana exhibited a preference for colder temperatures, contrary to the thermophilic distribution patterns of S. baltica and S. vorax . Network analysis unveiled several negative links among Synchaeta species and other zooplankton taxa, suggesting potential competitive trophic interactions. The present study is one of the very few dealing with marine rotifers across the Mediterranean Sea and thus provides a significant contribution to our understanding of the dynamics of this group of micrometazoans.
doi_str_mv 10.1007/s10750-023-05303-6
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ispartof Hydrobiologia, 2024-07, Vol.851 (12-13), p.3025-3037
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recordid cdi_proquest_journals_3052263131
source Springer Nature
subjects Ammonium nitrogen
Biodiversity
Biomedical and Life Sciences
Coastal ecosystems
Coastal zone
Coasts
Distribution patterns
Ecology
Freshwater & Marine Ecology
Geographical distribution
Group dynamics
Life Sciences
Marine invertebrates
Network analysis
Plankton
Rotifera
Rotifera XVI
Seasonal variations
Species identification
Synchaeta
Temperature preferences
Temporal distribution
Trophic relationships
Urban areas
Zoology
Zooplankton
title Synchaeta’s community in the urban coastal area of the Thessaloniki Bay
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