Two-way bioinvasion: tracking the neritic non-native cyclopoid copepods Dioithona oculata and Oithona davisae (Oithonidae) in the Eastern Mediterranean Sea

Accelerated anthropogenic changes in the Eastern Mediterranean Sea (EMS) have facilitated the introduction, spread and establishment of invasive copepod species in this region. Here, we report for the first time the introduction of two non-native cyclopoidcopepods Dioithona oculata and Oithona davis...

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Bibliographic Details
Published in:Mediterranean Marine Science
Main Authors: Velasquez, Ximena, Morov, Arseniy R., Kurt, Tuba TERBIYIK, Meron, Dalit, Guy-Haim, Tamar
Format: Article in Journal/Newspaper
Language:English
Published: Hellenic Centre for Marine Research 2021
Subjects:
Bioinvasion vectors
Dna barcoding
Levantine basin
Mt-coi gene
Oithonidae
Tropicalization
Pacific
Northeast Atlantic
Copepods
Online Access:https://repository.hkust.edu.hk/ir/Record/1783.1-121693
https://doi.org/10.12681/mms.26036
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Summary:Accelerated anthropogenic changes in the Eastern Mediterranean Sea (EMS) have facilitated the introduction, spread and establishment of invasive copepod species in this region. Here, we report for the first time the introduction of two non-native cyclopoidcopepods Dioithona oculata and Oithona davisae in Israeli coastal waters and describe their temporal variability. The specieswere identified based on morphological characteristics, DNA barcoding, and phylogenetic inference. Molecular identificationand phylogenetic analysis supported the taxonomic identification, but showed cryptic speciation within D. oculata, separating theWestern Pacific and EMS clades. In Israeli coastal waters, D. oculata exhibited a temporally restricted occurrence, appearing fromSeptember to December 2019 and in October 2020. D. oculata peaked in autumn, when seawater temperature was 28 °C. Its lowestabundance was observed in December when temperature decreased to 21 °C, indicating that the thermal affinity of D. oculatafor warm-temperate conditions, for reproduction and the maintenance of viable populations, persisted in the introduced range. Incontrast, O. davisae appeared almost year-round. It peaked at a summer temperature of 28 °C, as well as under the winter minimumof 17 °C, confirming its wide eurythermal tolerance. Based on our findings and previous observations, we suggest that D. oculatamay have invaded the EMS through the Suez Canal and is now at the onset of its spread in the Mediterranean Sea, whereas O.davisae has been introduced via shipping, likely from the Northeast Atlantic, widely spreading and successfully establishing viablepopulations throughout the entire Mediterranean Sea to the coastal Levantine Sea © 2021. Mediterranean Marine Science. All Rights Reserved.

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