Environmental factors influencing the spatio-temporal distribution of Carybdea marsupialis (Lineo, 1978, Cubozoa) in South-Western Mediterranean coasts.

Antonio Canepa,César Bordehore,Melissa Acevedo,Elia Durá,Josep-Maria Gili,Antonio Ortiz,Verónica Fuentes,Kilian Toledo-Guedes,Mar Bosch-Belmar,Roberto Pronzato

doi:10.1371/journal.pone.0181611

Abstract

Jellyfish blooms cause important ecological and socio-economic problems. Among jellyfish, cubozoans are infamous for their painful, sometimes deadly, stings and are a major public concern in tropical to subtropical areas; however, there is little information about the possible causes of their outbreaks. After a bloom of the cubomedusa Carybdea marsupialis (Carybdeidae) along the coast of Denia (SW Mediterranean, Spain) in 2008 with negative consequences for local tourism, the necessity to understand the ecological restrictions on medusae abundance was evident. Here we use different models (GAM and zero-inflated models) to understand the environmental and human related factors influencing the abundance and distribution of C. marsupialis along the coast of Denia. Selected variables differed among medusae size classes, showing different environmental restriction associated to the developmental stages of the species. Variables implicated with dispersion (e.g. wind and current) affected mostly small and medium size classes. Sea surface temperature, salinity and proxies of primary production (chl a, phosphates, nitrates) were related to the abundances of small and large size classes, highlighting the roles of springtime salinity changes and increased primary production that may promote and maintain high densities of this species. The increased primary (and secondary) production due to anthropogenic impact is implicated as the factor enabling high numbers of C. marsupialis to thrive. Recommendations for monitoring blooms of this species along the study area and applicable to Mediterranean Sea include focus effort in coastal waters where productivity have been enriched by anthropogenic activities.

Highlights

The negative ecological and socio-economic impacts of jellyfish blooms associated with the increase in anthropogenic use of coastal areas are expected to increase [1,2]
We studied the spatio-temporal dynamics and association with environmental variables of a local population of the cubozoan Carybdea marsupialis. Those beaches with a sandy-bottom associated with patches of seagrass/algae showed the highest abundances and those with hard bottom and photophilic algae community showed the lowest abundance values
At the same site (AL) the maximum density in our study was more than four times greater (53 vs. 18 indiv. m-3)

Summary

Introduction

The negative ecological and socio-economic impacts of jellyfish blooms associated with the increase in anthropogenic use of coastal areas are expected to increase [1,2]. The Mediterranean Sea has been affected historically with blooms of several conspicuous jellyfish species [13,14,15], reviewed in [16]. In the Mediterranean Sea, Carybdea marsupialis is the only reported species of the Class Cubozoa. This medusa was first reported from the Adriatic as a single preserved specimen in the museum of Vienna by Claus and the scarcity of its records were highlighted [20]. Along the coast of Denia (south-west Mediterranean coast) where [27] showed an unusually high density during the summer of 2008, C. marsupialis stung as many as 185 people d-1 and caused major public concern

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Conclusion