Copepod Diel Vertical Distribution in the Open Southern Adriatic Sea (NE Mediterranean) under Two Different Environmental Conditions

Hure, Marijana; Batistić, Mirna; Garić, Rade

doi:10.3390/w14121901

Cited by 8 publications

(3 citation statements)

References 55 publications

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“…The physical oceanography of the Celtic Sea and Western Approaches, a seasonally stratified area, is well documented (Pingree et al, 1976;Pingree, 1980;Southward et al, 2004;Smyth et al, 2015). Stratification is known to influence plankton abundances (Fransz et al, 1984;Hure et al, 2022) but the absence of vertical data in this study does not allow for discussion of stratification or its influence on copepod abundance.…”

Section: Discussionmentioning

confidence: 87%

Resolution changes relationships: Optimizing sampling design using small scale zooplankton data

Scott

Pitois

Créach

et al. 2023

Progress in Oceanography

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Section: Discussionmentioning

confidence: 87%

Resolution changes relationships: Optimizing sampling design using small scale zooplankton data

Scott

Pitois

Créach

et al. 2023

Progress in Oceanography

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“…Diversity 2024, 16,293 13 of 20 on morphological identification [28,29]. Most of the copepod genera recorded by metabarcoding are known as common species of the Adriatic, living mainly in coastal and surface waters (Paracalanus, Clausocalanus, Calanus, Calocalanus, Acartia, Centropages, Oithona and Euterpina), but some were characterised as very rare copepods for the Adriatic (Pachos, Neocalanus) in previous studies [25][26][27]. In addition to free-living (pelagic or benthic) copepods, the Southern Adriatic dataset also enabled the identification of some marine invertebrate parasites/symbionts (Pseudanthessius) [78].…”

Section: Metazoan Community Structurementioning

confidence: 99%

“…For the Southern Adriatic, previous plankton research in this area also included mainly zooplankton and phytoplankton studies on certain representative groups. Zooplankton studies focused on copepods [25][26][27][28][29], tintinnids [30][31][32] and gelatinous invertebrates [33][34][35][36][37], while phytoplankton studies mainly characterised diatoms [38][39][40]. Moreover, the studies were predominantly based on traditional methods of taxa identification.…”

Section: Introductionmentioning

confidence: 99%

Coastal Eukaryotic Plankton Diversity of the Southern Adriatic as Revealed by Metabarcoding

Baricevic,

Kogovsek,

Smodlaka Tankovic

et al. 2024

Diversity

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Plankton studies serve as a basis for marine ecosystem research, but knowledge of marine plankton is still incomplete due to its extreme taxonomic and functional complexity. The application of metabarcoding is very valuable for the characterisation of the plankton community. The plankton community of the Southern Adriatic is subject to strong environmental fluctuations and changes, which underlines the need for frequent, reliable and comprehensive characterisation of the plankton. The aim of this study was to determine the taxonomic composition and seasonal distribution of eukaryotic plankton in the Southern Adriatic. Plankton samples were collected monthly for one year at the coastal station of the Southern Adriatic and metabarcoding was used for taxonomic identification. The results showed a high taxonomic diversity and dynamic seasonal distribution patterns for both the protist and metazoan plankton communities. Metabarcoding revealed both the core, year-round plankton community and previously unrecorded plankton organisms in the Southern Adriatic. The results provide for the first time a comprehensive overview of the plankton community in this area by metabarcoding. The identified seasonal patterns of plankton genera and species in the Southern Adriatic will contribute to the understanding of plankton interactions and future changes in community diversity characterisation.

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Identifying and quantifying unexpected deep zooplankton diel vertical migration in a large deep lake

Piton,

Reiss,

Lemmin

et al. 2024

Limnology & Oceanography

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Diel Vertical Migration (DVM), a widespread zooplankton behavior in freshwater and marine systems, affects ecological interactions and biogeochemical cycles. In lakes, DVM has mainly been studied in the upper 50 m of the water column. However, based on acoustic and net sampling data collected in Lake Geneva, Switzerland (~ 309 m depth) during summer 2022, we demonstrate that DVM occurs down to ~ 125 m depth daily throughout the summer season. The daily descents terminated at around zenith when the Relative Rate of light Change (RRC) was the lowest, and the late afternoon ascent started when RRC values exceeded −0.005 s−1. DVM migration descent/ascent rates were asymmetric with faster mean upward rates () than downward rates (). Migration rates overall increased as summer progressed, corresponding to the intra‐seasonal increase in RRC. Cyclopoid copepods Cyclops prealpinus abundances correlated with the observed deep DVM and their migration responded to exogenous light cues. These new findings, which can also be expected to be relevant for other deep lakes, indicate that Lake Geneva's DVM greatly exceeds maximum migration depths previously reported for a lake. Thus, it is important to study zooplankton DVM dynamics throughout the entire water column in large, deep lakes since it plays an important role in buffering global climate change effects. Furthermore, it is suggested that present zooplankton DVM sampling protocols in large, deep lakes should be revised accordingly.

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Copepod Diel Vertical Distribution in the Open Southern Adriatic Sea (NE Mediterranean) under Two Different Environmental Conditions

Cited by 8 publications

References 55 publications

Resolution changes relationships: Optimizing sampling design using small scale zooplankton data

Resolution changes relationships: Optimizing sampling design using small scale zooplankton data

Coastal Eukaryotic Plankton Diversity of the Southern Adriatic as Revealed by Metabarcoding

Identifying and quantifying unexpected deep zooplankton diel vertical migration in a large deep lake

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