Complementing underwater visual surveys with eDNA metabarcoding to detect Mediterranean non-indigenous fishes
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27 février 2025
- ISIDORE Id: 10670/1.c4c326...
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https://ejournals.epublishing.ekt.gr/index.php/hcm [...]
Ce document est lié à :
https://ejournals.epublishing.ekt.gr/index.php/hcm [...]
Ce document est lié à :
https://ejournals.epublishing.ekt.gr/index.php/hcm [...]
Copyright (c) 2025 Mediterranean Marine Science
Mots-clés
eDNA metabarcoding coastal biological invasions eastern Mediterranean Sea 12S rRNA visual surveySujets proches
Land surveys Government surveysCiter ce document
PANAGIOTA XANTHOPOULOU et al., « Complementing underwater visual surveys with eDNA metabarcoding to detect Mediterranean non-indigenous fishes », eJournals, ID : 10670/1.c4c326...
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Résumé
Non-indigenous species (NIS) are among the main drivers of native biodiversity loss, habitat alteration, and degradation of ecosystem services, with some NIS posing risks to human health. Efficient monitoring strategies are necessary to assess the distribution and impacts of NIS. In this study, we compared the performance of environmental DNA (eDNA) metabarcoding and visual surveys with SCUBA diving to detect marine fish NIS in Greek waters. We collected water samples from 20 coastal sites across the Aegean, Ionian, and Levantine Seas in both warm and cold periods, targeting the 12S rRNA region. A reference 12S Mediterranean NIS sequence database was created to improve regional monitoring. Underwater visual surveys were performed at the same sites to visually detect fish NIS. Overall, 15 non-indigenous fishes were detected, five with both eDNA and visual surveys, seven exclusively by eDNA, and three by visual surveys alone. The southern stations yielded more NIS detections than the northern stations in both periods. Our findings demonstrate that eDNA can provide a rapid, low-cost, and effective tool, advocating for its integration into systematic NIS monitoring in the eastern Mediterranean Sea. A comprehensive barcode reference database is essential in enhancing the effectiveness of eDNA approaches. Thus, the combination of eDNA metabarcoding and traditional underwater visual surveys is recommended for comprehensive monitoring of NIS in marine environments.
