In addition nine turbidity measurements in NTU were taken monthly from Dec, 2010- Oct 2011 to establish the effect of season on turbidity levels. Pond water experimental results were compared with equivalent experiments using spring water (Satur8 Pty Ltd, Australia). Autoclaving was the only practical option for sterilisation of aquaculture water, due to the high level of turbidity and suspended particulates, which meant that membrane filtration was not an option. Results Effect of pH Figure 2 shows the effect of pH on average log inactivation of A.hydrophila ATCC
35654 at high solar irradiance (980–1100 W m-2) at a flow rate of 4.8 L h-1. The log inactivation represents the difference in log counts between inflow and outflow BI2536 of the TFFBR system. pH Torin 1 molecular weight 7.0 and 9.0 both showed a slightly higher average log inactivation than at pH 5.0 with an average log inactivation of approximately 1.2 at pH 7.0 and 9.0 where the average initial level of Aeromonas hydrophila was 5.1 Log CFU mL-1 and the
average final count was 3.9 Log CFU mL-1. On the other hand, for pH 5 the average log inactivation was less, at 0.9, where the average initial count was 4.9 Log CFU mL-1 and the final average counts was 4.0 Log CFU mL-1. Overall, the results suggest only a small effect of pH on photoinactivation, irrespective of whether the sample was counted under aerobic or ROS-neutralised conditions. Figure 2 Effect of pH on solar photocatalytic inactivation of Aeromonas hydrophila ATCC 35654. TFFBR experiments were performed at average value of global irradiance of 1034 W m-2, at a flow rate of 4.8 L h-1. Enumeration was carried out under aerobic conditions (unshaded bars) and ROS-neutralised conditions (shaded bars) However, all pH 5.0 experiments showed a reduced initial count prior to exposure
to the fantofarone TFFBR, even though the volume of the cultured bacteria inoculated into the water was the same in every pH experiment. Therefore, a question arose as to the reason of this difference. In Figure 3, pH 7.0 and 9.0 showed similar initial counts of 5.1 log CFU mL-1 for A. hydrophila in both aerobic and ROS-neutralised condition. But at pH 5 this initial count was log 4.75 log CFU mL-1 under aerobic condition, where under ROS-neutralised condition it was higher, at 5.1 log CFU mL-1. This points to some sub-lethal injury on exposure of this organism to water at pH 5.0. After 9 hr, pH 7.0 and 9.0 samples showed the average counts of bacteria remained at 5.1 log CFU mL-1, enumerated under both aerobic and ROS-neutralised conditions. However, for pH 5.0 it showed a large reduction in the counts compared to those at 0 min, at approximately 2.9 log CFU mL-1 in both aerobic and ROS-neutralised conditions. This demonstrates that storage of A.