Relationships between heterotrophic bacteria and cyanobacteria in the northern Adriatic in relation to the mucilage phenomenon

High variability of heterotrophic bacterial (HB; 0.1 · 10 9–6 · 10 9 cells L − 1 ), nanoflagellates (HNF; 0.02 · 10 6–2.4 · 10 6 cells L − 1 ) and cyanobacterial (CB; 10 6–700 · 10 6 cells L − 1 ) abundances were observed during approximately monthly measurements at six stations along the transect P...

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Bibliographic Details
Published in:The Science of the total environment 2005-12, Vol.353 (1), p.178-188
Main Authors: Fuks, Dragica, Radić, Jadranka, Radić, Tomislav, Najdek, Mirjana, Blažina, Maria, Degobbis, Danilo, Smodlaka, Nenad
Format: Article
Language:English
Subjects:
Bacteria - growth & development
Biomass ratios
Chlorophyll - analysis
Cluster Analysis
Cyanobacteria
Cyanobacteria - growth & development
Cyanophyta
Ecosystem
Heterotrophic bacteria
Marine
Marine Biology - statistics & numerical data
Mediterranean Sea
Mucilage events
Northern Adriatic
Phytoplankton - growth & development
Population Dynamics
Seasons
Seawater - analysis
Temperature
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Summary:High variability of heterotrophic bacterial (HB; 0.1 · 10 9–6 · 10 9 cells L − 1 ), nanoflagellates (HNF; 0.02 · 10 6–2.4 · 10 6 cells L − 1 ) and cyanobacterial (CB; 10 6–700 · 10 6 cells L − 1 ) abundances were observed during approximately monthly measurements at six stations along the transect Po Delta–Rovinj from March 1999 to August 2002. Substantially higher values were observed during the stratification period (June–September) in the surface layer of the western stations that were under more direct influence of Po River discharges. Changes of the HB abundance were significantly correlated with temperature in the entire water column and chlorophyll a (Chl a) concentration in the surface layer. The nutrients did not look to have directly influenced the HB growth, except orthophosphate in the eastern, more oligotrophic part of transect, where probably HB efficiently competed with phytoplankton for this nutrient. Temperature was also important for CB growth that, however, appeared to occur more intensively in waters with low nutrient concentrations. Probably, in these conditions CB can still develop, while larger autotrophs are strongly nutrient limited. In the upper water column of reduced salinity (35–37), the contributions of CB carbon biomass to the total picoplankton biomass (CB + HB) were mostly larger than 30% (up to 80%) in years with mucilage events (1991, 2000–2002) than in other years. For example, in 1999 only a few values were higher than 30% (up to 50%). In abundant presence of mucilaginous aggregates (e.g. in June 2000 and late June 2002) the chlorophyll a ascribed to CB accounted for much larger portions of total measured Chl a. From these results it was concluded that cyanobacteria during mucilage events may play a substantially increased role both as primary producers and prey within the microbial loop of the northern Adriatic.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2005.09.015