Metabarcoding for detection of potential toxin- producing algae and pathogenic bacteria from mariculture environment (CROSBI ID 697564)
Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija
Podaci o odgovornosti
Kolda, Anamarija ; Gavrilović, Ana ; Jug- Dujaković, Jurica ; Perić, Lorena ; Ljubešić, Zrinka ; Kapetanović, Damir
engleski
Metabarcoding for detection of potential toxin- producing algae and pathogenic bacteria from mariculture environment
The Adriatic coastal area, where most aquaculture activities are carried out, is often under various anthropogenic influences. Throughout 2018, in Mali Ston Bay, where bivalve and cage fish farms are located, seasonal sampling of seawater and sediment was performed in the scope of selected commercial cage European sea bass farm. The aim of this study was to detect potential pathogenic bacteria and harmful bloom producing algae (HABs), by using high-throughput metabarcoding methods. Physico-chemical parameters were measured in situ, while concentrations of chlorophyll a, total nitrogen and phosphorus were measured in the laboratory. Total DNA was extracted from the samples, and 16S rRNA and 18S rRNA high-throughput sequencing was performed. Bioinformatics and statistical analysis were performed in QIIME2 and RStudio. Bacterial community in seawater had higher relative abundance of Gammaproteobacteria, especially in summer (Vibrio 41.58% ; Acinetobacter 37.80%). Additionally, sediment in the fish cage vicinity was enriched with phylum Firmicutes (Clostridia). Potential fish pathogens of genera Tenacibaculum and Photobacterium species were under 1% (rare taxa). Known antagonistic bacteria such as Bacillus and Roseobacter were also detected. Seawater harboured a significant percentage of Dinoflagellata (40.99-67.14%), and sediment Bacillariophyta (32.24-62.25%). Potential HABs of genera Alexandrium, Gonyaulax, Gymnodinium, Heterocapsa were detected in seawater and sediment. Genera Amphidinium and Nitzschia were predominantly found in the sediment, while genera Takayama, Chrysochromulina and Pseudo- nitzschia in seawater. Detection of these taxa coupled with monitoring of environmental parameters, could serve as important biomarkers for aquaculture management and an early warning of health status, protecting both farmed animals and human consumers.
16S rRNA ; 18S rRNA ; aquaculture ; European seabass ; sediment
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nije evidentirano
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Podaci o prilogu
49-49.
2020.
objavljeno
Podaci o matičnoj publikaciji
Šostar, Zvonimir ; Šikić, Sandra ; Krivohlavek, Adela ; Bošnir, Jasna
Zagreb: Institut za medicinska istraživanja i medicinu rada
Podaci o skupu
3rd International Congress on Food Safety and Quality: Food, Health and Climate Changes
poster
10.11.2020-13.11.2020
Zagreb, Hrvatska