The unfavorable phenomenon of activated sludge bulking that occurs in sewage treatment plants (WWTPs) is caused by the over-proliferation of filamentous bacteria that should be limited by the Lecane rotifers that feed on them; however, predatory, rotiferovorous fungi that often inhabit WWTPs pose a real threat to these organisms. To solve this problem, we investigated the interaction of the fungus Clonostachys rosea, which is a known Biological Control Agent (BCA) and the predacious Zoophagus sp. in simplified laboratory culture conditions. The presence of C. rosea in the cultures reduced the number of active traps, thus translating into a much smaller number of rotifers being caught. The mycelium of C. rosea was labeled with a red fluorescent protein (RFP). The life cycle of C. rosea that were attacking Zoophagus sp. (hunting for rotifers) is described. C. rosea spores germinate into single-celled forms and penetrate the interior of the Zoophagus mycelium where they feed on the cytoplasm. Then is the mycelium produced abundantly and forms conidiophores. This type of life strategy has not been known before. The obtained results demonstrated the potential of C. rosea as a BCA that can be used to protect rotifers in the event of an infection of activated sludge by the predatory fungi that threaten the rotifer population.
Keywords: Biological control agent; Clonostachys rosea; Predatory fungi; Rotifer.
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