Mercedes Masó

Trends in Ostreopsis proliferation along the Northern Mediterranean coasts

Harmful benthic microalgae blooms represent an emergent phenomenon in temperate zones, causing health, ecological and economic concern. The main goal of this work was to compile records of Ostreopsis at large temporal and spatial scales, in order to study the relationship between cell abundances, the periodicity and intensity of the blooms and the role of sea water temperature in 14 Spanish, French, Monegasque and Italian sites located along the northern limits of the Mediterranean Sea. General trends were observed in the two considered basins: the north-western Mediterranean Sea, in which higher cell abundances were mostly recorded in mid-summer (end of July), and the northern Adriatic Sea where they occur in early fall (end of September). The sea-water temperature does not seem to be a primary driver, and the maximal abundance periods were site and year specific. Such results represent an important step in the understanding of harmful benthic microalgae blooms in temperate areas, and provide a good base for policy makers and managers in the attempt to monitor and forecast benthic harmful microalgae blooms.

LIFE HISTORY AND IN SITU GROWTH RATES OF ALEXANDRIUM TAYLORI (DINOPHYCEAE, PYRROPHYTA)

Alexandrium taylori Balech is a phototrophic marine dinoflagellate. It produced recurrent blooms during the summer months (July and August) of 1994 to 1997 in La Fosca beach (NW Mediterranean). In addition to a motile vegetative form, A. taylori had two benthic forms: temporary cysts and resting cysts. Temporary cysts were a temporally quiescent stage produced from the ecdysis of the vegetative cell in both natural populations and laboratory cultures. Temporary cysts may divide to form motile cells. Resting cysts had a thicker wall than the temporary cysts and had a red accumulation body. Gametes and planozygotes were also observed in laboratory cultures. Alexandrium taylori showed in situ diurnal vertical migration with an increase of vegetative cells in the water column in the morning through midday, with concentrations peaking in the afternoon followed by lower levels at night. Most vegetative cells lost their thecae and flagella, and with them their motility, turning into temporary cysts that settled in the early evening. The number of temporary cysts in the water column rose in the evening and at night. The temporary cysts gave rise to motile cells the following morning. Synthesis of DNA occurred in vegetative cells at night, and a preferential period of cell division occurred at sunrise. The estimated division rate in the field was 0.4–0.5 vegetative cells·day−1. Temporary cysts had twice the DNA of a G1 vegetative cell. The minimum in situ division rate of the temporary cysts was 0.14 day−1. The role of the resting and temporary cyst population in the annual recurrence and maintenance of the A. taylori bloom is discussed.

Effect of a shelf-slope front on the spatial distribution of mesopelagic fish larvae in the western Mediterranean

Abstract The results of a study on the spatio-temporal distribution of mesopelagic fish larvae off Catalan coast (northwestern Mediterranean) in relation to the hydrographic features in the region are presented. Large concentrations of larvae were detected over the edge of the continental shelf and occasionally close inshore. Shelf structure, locally narrow and punctuated with submarine canyons, and a density front situated over the slope are responsible for the special characteristics of the region and for the presence of mesopelagic fish larvae in waters shallower than normally expected in view of the typically oceanic habitat of the adults. The density front contributes to the formation of larval concentrations, attributable both to passive transport of larvae and to the active mechanism of spawning by adults in the most productive areas. Certain species, like Cyclothone braueri and Maurolicus muelleri, exhibit marked seasonality in their spawning season, whereas others, like Myctophum punctatum and Benthosema glaciale, do not present well-defined spawning periods.

Phylogenetic relationships among the Mediterranean Alexandrium (Dinophyceae) species based on sequences of 5.8S gene and Internal Transcript Spacers of the rRNA operon

A phylogenetic analysis of the genus Alexandrium, including both the most common and rare species from coastal areas of the Mediterranean Sea was carried out. Nucleotide sequences of 5.8 S gene and Internal Transcribed Spacer regions of the rRNA operon were examined and analysed together with isolates of Alexandrium spp. from elsewhere in the world. These rDNA ribosomal markers were useful in delineating the phylogenetic position of species in the genus, as well as in determining relationships among isolates within each species collected from different localities. Results of phylogeographical analyses within the ‘Alexandrium tamarense’ species complex identified three lineages in the Mediterranean Sea: the Mediterranean (ME), Western European (WE) and Temperate Asian (TA) clades. The phylogenetic grouping of the isolates is consistent with the ribotype clades, but not with the morpho-species that constitute the complex. Additional non-toxic isolates were included in the ME clade. The NA (North Atlantic) clade is the fourth group within the ‘Alexandrium tamarense’ species complex identified by phylogenetic analyses. Based on its higher genetic diversity and phylogeographical relationships, it can be hypothesized that the NA clade represents the ancestral group of the ‘Alexandrium tamarense’ species complex. Alexandrium minutum isolates of the NW Mediterranean clustered with strains from Brittany and Australia. Alexandrium minutum constituted a sister clade of A. tamutum, which is another species strongly associated with the Mediterranean area. Another typical Mediterranean species, A. taylori, was placed as a sister clade of A. pseudogoniaulax by the phylogenetic analysis. Finally, the phylogenetic relationships of some Alexandrium morpho-species that were infrequently observed in the Mediterranean Sea have been resolved.

Variability of the shelf water off the northeast Spanish coast

Abstract During the seasonal stratification of 1983 and 1984, intensive sampling of the shelf region of the northeast Spanish coast was carried out. This unique dataset is used to define the most salient features of the shelf water dynamics. We show that region has a strong spatial and temporal variability associated with the southward spreading of continental waters from the Rhone river, in the northern gulf of Lyons. Southward spreading begins in early spring and was particularly obvious during June 1983 when strong horizontal density gradients were observed. Spreading almost completely disappears in August when observed upper layer salinities are uniform. We also show that significant shelf/slope water exchange takes place associated with the abrupt topographic canyons found in the region. In particular we observed in June 1983 a small positive geostrophic vorticity region at the Palamos canyon while a larger anticyclonic eddy was observed over the shelf south of this canyon. The biological implications of these two features have been demonstrated. We conclude indicating that in this region where no dominant winds exist, the shelf water dynamics is dominated by the southward spreading of low salinity continental waters and by the intrusion of high salinity open ocean water through submarine canyons.

Monitoring toxic microalgae Ostreopsis (dinoflagellate) species in coastal waters of the Mediterranean Sea using molecular PCR-based assay combined with light microscopy.

A molecular PCR-based assay was developed and applied to macrophyte and seawater samples containing mixed microphytobenthic and phytoplanktonic assemblages, respectively, in order to detect toxic Ostreopsis species in Mediterranean Sea. The specificity and sensitivity of the molecular PCR assay were assessed with both plasmidic and genomic DNA of the target genus or species using taxon-specific primers in the presence of background macrophyte DNA. The PCR molecular technique allowed rapid detection of the Ostreopsis cells, even at abundances undetectable within the resolution limit of the microscopy technique. Species-specific identification of Ostreopsis was determined only by PCR-based assay, due to the inherent difficulty of morphological identification in field samples. In the monitoring of the toxic Ostreopsis blooms PCR-based methods proved to be effective tools complementary to microscopy for rapid and specific detection of Ostreopsis and other toxic dinoflagellates in marine coastal environments.

Short-term variations in development of a recurrent toxic Alexandrium minutum–dominated dinoflagellate bloom induced by meteorological conditions1

Development of an Alexandrium minutum Halim bloom affecting a Mediterranean harbor was monitored in detail using a multidisciplinary approach. A. minutum was by far the most abundant species at and near the bloom maximum, but always coexisted with members of three additional dinoflagellate genera and prasinophytes. Bloom initiation (early February) occurred during prolonged influences of sunny weather conditions, when day length exceeded 10.5 h and water temperatures reached 10.2°C. Subsequent development toward its maximum (end of March) also relied on good weather conditions, with specific wind directions favoring accumulation of cells. Arrival of rainy weather, associated with frontal boundaries of large‐scale low‐atmospheric‐pressure systems and characterized by reduced solar irradiance (heavy cloud coverage), opposite wind directions, and enhanced wind speeds, always caused temporal declines of the bloom. These declines were attributed to dispersal or displacement of algae, but a vertical migration of A. minutum cells toward the sediment was not excluded. Delayed inflows of excess terrestrial rainwater along the inner harbor wall strongly reduced salinity and prolonged a temporal decline far beyond influences of bad weather. The associated nutrient supply favored development of the phytoplankton population but reduced the toxin production of A. minutum cells. The HPLC‐determined Gonyautoxin (GTX) 1 + 4/GTX 2 + 3 ratio strongly increased toward the bloom maximum. This ratio was influenced by nutrient status and cell density and has a potential value for monitoring developmental stages of blooms. Prolonged bad weather conditions eventually hindered continuation of bloom development, and subsequent declines of algal biomass were attributed to grazing.

Monthly variability in the catchability of Namibian hake and its relationship with environmental seasonality

Abstract The monthly and spatial patterns of the Namibian hake fishery are analysed for the period 1994–1997. A strong, but misleading negative relationship between monthly catch rates (CPUE) and fishing effort was observed, while no spatial correlation between these two variables were found, which suggests, for this fishery, that monthly CPUE as an index of density is not distorted by fleet distribution. A strong seasonal pattern of catchability was found for the first three years but not in 1997. Catch rates could change by a factor of up to three in a period of six months. Moreover, the seasonal pattern in catchability occurs over the whole area, which excludes migratory displacements as a possible factor of this seasonality. We found a strong correlation between CPUE and sea surface temperature (SST). Thus we can conclude that hake catchability followed the seasonality of the system but failed when the seasonal cycle was weakest (i.e., 1997). The interannual variability of either the system or catchability is much larger during the summer than the winter, which has direct implications for resource monitoring and management.

Recurrent high-biomass blooms of Alexandrium taylorii (Dinophyceae), a HAB species expanding in the Mediterranean

Summer outbreaks of the dinoflagellate Alexandrium taylorii Balech are recurrent events in nearshore waters of Sicily (Italy)—a central region in the Mediterranean Sea—producing dense yellowish-green patches. Beyond the local phenomenon, the problem covers a broader geographic scale, involving also other European localities, mostly in Spain.

Short-term physical and biological variability in the shelf-slope region of the NW mediterranean during the spring transition period

Abstract The present paper reports on temporalmesoscale (weeks) changes in physical and biological coupling in the cross-frontal area off the coast of Catalonia in Spain (NW Mediterranean) during the spring transition period. The effect of short-term physical variability on the spatio-temporal heterogeneity of phytoplankton biomass and in the area of overlap of the larvae of fish species dwelling on the shelf and slope is discussed. Our results indicate that the region off the Catalan coast is a dynamically active area during the spring transition period. Short-term spatio-temporal variability in the frontal system brought about significant changes in the extension of shelf and slope waters, giving rise to major changes in the spatial distribution patterns of chlorophyll and fish larvae. The relationship between integrated chlorophyll, surface chlorophyll and DCM (Deep Chlorophyll Maximum) showed important variability in a short time period. The area of overlap of the larvae of shelf and slope fish species was broad when the front was located offshore, compared to nearly complete segregation of shelf and oceanic fish larvae when the front moved inshore near the coast.