Abstract

SALUSSO, María M.  and  MORANA, Liliana B.. Efficacy of microalgae removal by ozone pilot water treatment in a subtropical South American reservoir. Lilloa [online]. 2023, vol.60, n.1, pp.1-15. ISSN 0075-9481.  http://dx.doi.org/doi.org/10.30550/j.lil/2023.60.1/2023.03.02.

Phytoplankton removal by ozone pretreatment was studied in a pilot plant that collects water from a subtropical reservoir in northwestern Argentina. The seasonal variation of abundances by algal groups at the inlet and outlet of the plant in the period 20192020, and the removal efficiency of the treatment were analyzed as a function of two size categories (MDL maximum linear dimension) and biovolume in selected species. At the inflow, algal abundance showed seasonal differences with predominance of diatoms in winter, Cryptophyceae, Chlorophyceae, Dinophyceae and Trebouxiophyceae in spring and Cyanobacteria in summer. Algae outflow was also higher in winter, with a predominance of diatoms, and of cyanobacteria in au tumn and summer. The treatment produced a significant reduction in algal density (mean 26.94%), which increased even more in some particular groups: Zygnemato phyceae (68.21%), Euglenophyceae (59.80%), Cyanobacteria (57.87%), Cryptophyceae (53.84%), Dinophyceae (38.59%) and Chlorophyceae (28.66%). A total of 326 spp were recorded in the monitoring, although only 126 spp had a frequency of occurrence in at least 10% of the samplings, mostly with low densities. Microalgae removal in the pilot plant showed no significant correlations with cell dimensions for selected species. Class III averages of MLD =31.62 ±8.79 μm and biovolume =4019.69 ±2711.49 μm3 had the highest removals per treatment (72.97% and 72.74%, respec tively), although they were not statistically different from the remaining classes. Conclusion: the algae removal capacity by the ozonation process of the pilot plant produced a significant reduction in algal density, especially of Cyanobacteria, Zygnematoficeae, Euglenophyceae and Cryptophyceae, which in all cases exceeded 50%.

Keywords : Phytoplankton; supply pretreatment; water quality.

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