Abstract
Pelagia noctiluca is the most common jellyfish in the Western Mediterranean Sea, living in oceanic waters with a holoplanktonic lifecycle. Frequent outbreaks have been well documented in coastal areas, yet little is known about their offshore distribution. In this study we address the relationship between oceanographic structures and the distribution of P. noctiluca ephyrae along the central continental slope of the Western Mediterranean, covering a wide latitudinal gradient, during July-August 2016. The region is characterized by a rich and complex mesoscale surface circulation driven by the inflow of Atlantic Water into the Western Mediterranean through the Strait of Gibraltar. The results revealed a high variability in the ephyrae spatial paterns related with different water masses and the resulting mesoscale hydrographic features. Their horizontal distribution showed a clear latitudinal gradient with high abundances in the south, associated with recent Atlantic Water, and low abundances or absence in the north, in coincidence with the old Atlantic Water transported by the Northern Current. Ephyrae showed diel vertical migrations of short-extent in the first 50 m, with a wide distribution above the thermocline and the Deep Chlorophyll Maximum during daytime, being more concentrated towards the surface at night. The results suggest the population connectivity of P. noctiluca between the Atlantic and the Mediterranean. In that case, the abundance variability of the species in the Mediterranean could be modulated by its entrance associated with the inflow of Atlantic Water through the Strait of Gibraltar.
Highlights
Jellyfish are conspicuous components of pelagic communities that show increases in population size often resulting in mass occurrences, or blooms, worldwide [1,2]
The vertical section of fluorescence was typical of the season with a clear Deep Chlorophyll Maximum (DCM) below the thermocline, between 50 and 90 m (Fig 4C)
The results of the present study revealed a high variability in the spatial structure of P. noctiluca ephyrae in surface waters linked to the recent and old Atlantic Water (AW) masses
Summary
Jellyfish are conspicuous components of pelagic communities that show increases in population size often resulting in mass occurrences, or blooms, worldwide [1,2]. While there is a lack of scientific consensus in identifying global trends in jellyfish blooms [3], their negative impacts on human activities in coastal waters are remarkably increasing in frequency and severity [4,5]. These increases in jellyfish abundance have the potential to alter the balance of trophic pathways between smaller zooplankton and their predators in marine ecosystems [6]. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript”
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
