Controls of picophytoplankton abundance and composition in a highly dynamic marine system, the Northern Alboran Sea (Western Mediterranean)

The Alboran Sea is a highly dynamic basin which exhibits a high spatio-temporal variability of hydrographic structures (e.g. fronts, gyres, coastal upwellings). This work compares the abundance and composition of picophytoplankton observed across the northern Alboran Sea among eleven cruises between...

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Bibliographic Details
Published in:Journal of sea research 2016-06, Vol.112, p.13-22
Main Authors: Amorim, Ana L., León, Pablo, Mercado, Jesús M., Cortés, Dolores, Gómez, Francisco, Putzeys, Sebastien, Salles, Soluna, Yebra, Lidia
Format: Article
Language:English
Subjects:
Abundance
Cyanobacteria
Dynamical systems
Dynamics
Flow cytometry
Marine
Mathematical models
Mediterranean Sea
Nutrients
Ocean basins
Prochlorococcus
Salinity
Summer
Synechococcus
Upwelling
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Summary:The Alboran Sea is a highly dynamic basin which exhibits a high spatio-temporal variability of hydrographic structures (e.g. fronts, gyres, coastal upwellings). This work compares the abundance and composition of picophytoplankton observed across the northern Alboran Sea among eleven cruises between 2008 and 2012 using flow cytometry. We evaluate the seasonal and longitudinal variability of picophytoplankton on the basis of the circulation regimes at a regional scale and explore the presence of cyanobacteria ecotypes in the basin. The maximal abundances obtained for Prochlorococcus, Synechococcus and picoeukaryotes (12.7×104, 13.9×104 and 8.6×104cellsmL−1 respectively) were consistent with those reported for other adjacent marine areas. Seasonal changes in the abundance of the three picophytoplankton groups were highly significant although they did not match the patterns described for other coastal waters. Higher abundances of Prochlorococcus were obtained in autumn-winter while Synechococcus and picoeukaryotes exhibited a different seasonal abundance pattern depending on the sector (e.g. Synechococcus showed higher abundance in summer in the west sector and during winter in the eastern study area). Additionally, conspicuous longitudinal gradients were observed for Prochlorococcus and Synechococcus, with Prochlorococcus decreasing from west to east and Synechococcus following the opposite pattern. The analysis of environmental variables (i.e. temperature, salinity and inorganic nutrients) and cell abundances indicates that Prochlorococcus preferred high salinity and nitrate to phosphate ratio. On the contrary, temperature did not seem to play a role in Prochlorococcus distribution as it was numerically important during the whole seasonal cycle. Variability in Synechococcus abundance could not be explained by changes in any environmental variable suggesting that different ecotypes were sampled during the surveys. In particular, our data would indicate the presence of at least two ecotypes of Synechococcus: a summer ecotype widely distributed in the whole Alboran Sea and a winter ecotype adapted to lower temperature and higher nutrient concentration whose growth is favoured in the eastern sector. •Spatial and seasonal distribution patterns of picoplankton were researched.•Prochlorococcus preferred high salinity and nitrate to phosphate ratio.•Changes in environmental variables do not explain the Synechococcus distribution.•Presence of two Synechococcus ecoty
ISSN:1385-1101
1873-1414
DOI:10.1016/j.seares.2016.02.005