Two novel bacteriophages isolated from the environment that can help control activated sludge foaming.

Abstract

Nocardia spp., which belongs to one of the Nocardio-form filamentous bacteria, is usually surface hydrophobic and when overproduced attaches to the surface of bubbles under the action of surfactants, allowing the stable presence of foam on the surface of aeration tanks, leading to the occurrence of sludge-foaming events. Two novel phages, P69 and KYD2, were isolated from the environment, and their hosts were Nocardia transvalensis and Nocardia carnea, respectively. These two phages are Siphophages-like with long tails. An aeration tank pilot plant was constructed in the laboratory to simulate sludge foaming, and these two strains of phage were applied. Compared with the reactor not dosed with phage, the application of phage could reduce the host level in the reactor, resulting in the highest decrease in turbidity by more than 68% and sludge volume index by more than 25%. The time for surface foam disappearance was 9h earlier than that of the control group (the group with the same concentration of Nocardia carnea but no bacteriophage applied), significantly improving water quality. The phage can effectively inhibit the propagation of Nocardia in the actual sludge-foaming event, control the sludge foaming, and improve the effluent quality. It provides a novel and relatively economical solution for controlling sludge foaming in sewage treatment plants in the future, shows that the phages have potential application value in the prevention and control of Nocardia, and provides another way to control the sludge-foaming event caused by the excessive reproduction of Nocardia in the future.