Evidence of improved water quality and biofilm control by slow sand filters in aquaculture – A case study.

• Slow sand after rapid sand filters (RSF-SSF) produced best seawater for fish tanks. • RSF-SSF lowered microbial growth potential in filtrate by 1 order of magnitude. • Turbidity remained low in tanks fed with RSF-SSF for dusky grouper cultivation. • Biofilm growth on walls was smaller in tanks operated with RSF-SSF treated water. A rapid sand filter (RSF, 12 m3 m−2 h−1) and a rapid sand filter followed by slow sand filter (RSF-SSF, 0.1 m3 m−2 h−1) were compared to investigate whether the biological activity in the RSF-SSF would improve turbidity reduction and control of biofilm growth in seawater aquaculture of juvenile dusky grouper over a 31 days test period. The RSF-SSF combination produced water with lower turbidity than RSF, turbidity breakthroughs in RSF were effectively abated by SSF. Microbial growth potential (MGP) measured by a growth assay with Pseudoalteromonas spongiae in samples filtered through 0,2μm membranes was significantly smaller in SSF filtrate (MGP, 3.2 ± 0,1 logCFU) than in RSF filtrate (3.9 ± 0,6 logCFU). Turbidity in fish tanks fed with RSF-SSF and RSF effluent remained below 1 NTU and 6 NTU, respectively, inspite of the large amount of food not consumed by the fish and of the tanks remaining open to the atmosphere. Surface biofouling on PVC samples was assessed by protein and carbohydrate analysis. It was less pronounced on bottoms of tanks operated with RSF-SSF treated water but similar on tank walls for both types of water. Carbohydrates were present in much larger quantities than proteins in bottom biofilms, but the opposite occurred in wall biofilms. Diatoms were dominant in RSF but not in RSF-SSF tank biofilms. Dusky grouper survival and growth was similar for the two types of water. The benefit of reduction of microbial growth potential achieved in SSF pretreatment was successfully captured in lesser tank surfaces biofilm colonization and by lower water turbidity in the tanks. [ABSTRACT FROM AUTHOR]