Publication Details

Category Text Publication
Reference Category Journals
DOI 10.12681/mms.20983
Licence creative commons licence
Title (Primary) Atmospheric indices allow anticipating the incidence of jellyfish coastal swarms
Author Bellido, J.J.; Báez, J.C.; Souviron-Priego, L.; Ferri-Yáñez, F.; Salas, C.; López, J.A.; Real, R.
Journal Mediterranean Marine Science
Year 2020
Department BZF
Volume 21
Issue 2
Page From 289
Page To 297
Language englisch
Keywords Alboran Sea; Arctic Oscillation; climatic fluctuations; gelatinous zooplankton; Mediterranean Sea; North Atlantic Oscillation, Pelagia noctiluca, Sea Surface Temperature
Abstract Jellyfish swarms affect littoral ecosystems, are unpleasant for bathers and jeopardize coastal socio-economic sectors. Anticipating the incidence of jellyfish swarms could be useful for implementing preventive management measures. Macroclimatic indices are good candidates for this type of anticipation since they are macro-ecologically related to oceanographic characteristics that affect marine species after a certain time lag. An increase of jellyfish swarms has been recently reported in the Mediterranean Sea. From 2005 to 2018, jellyfish swarms in the littoral of the province of Malaga (Spain, northwest coast of the Alboran Sea), mainly formed by the mauve stinger (Pelagia noctiluca), were frequent during summer. We recorded data on jellyfish swarm incidence in the province of Malaga from 2005 to 2018 using the reports in local newspapers, searches in Google Search Engine, and a citizen science application for mobile phones as information sources. With this information, we classified the period in years of low, medium and high incidence of jellyfish swarms. Then, we tested if the known effects of the Arctic Oscillation (AO) and North Atlantic Oscillation (NAO) in winter on the sea surface temperature (SST) during the year, which in turn affects the proliferation of jellyfish, could explain the inter-annual variation in this incidence. Our hypothesis significantly explained the variation in the medium versus low incidence of jellyfish swarms, with medium incidence in the summers of higher SST. This suggests that medium incidence of jellyfish swarms was caused by the proliferation of jellyfish. This also suggests that years of medium incidence of jellyfish in the beach during summer could be anticipated by computing the average AO and NAO values of the previous winter. Years of high incidence of swarms could not be explained by this process. We speculate that they may be caused by a change in the distribution of the swarms rather than by proliferation. Jellyfish may be pushed from the pelagic western anticyclonic gyre of the Alboran Sea to the northern coast by eddies that are formed when, as recent literature has shown, this gyre is weakened by westerly winds and the Atlantic jet. Citizen science has contributed useful data to build macroecological models that may result in better management plans based on scientific data.
Persistent UFZ Identifier
Bellido, J.J., Báez, J.C., Souviron-Priego, L., Ferri-Yáñez, F., Salas, C., López, J.A., Real, R. (2020):
Atmospheric indices allow anticipating the incidence of jellyfish coastal swarms
Mediterr. Mar. Sci. 21 (2), 289 - 297