posted on 2020-07-23, 20:44authored byNiveen S. Ismail, Margot Olive, Xavier Fernandez-Cassi, Virginie Bachmann, Tamar Kohn
Waterborne viruses are responsible for numerous diseases and are
abundant in aquatic systems. Understanding the fate of viruses in
natural systems has important implications for human health. This
research quantifies the uptake of the bacteriophage T4 and the enteric
virus echovirus 11 when exposed to the filter feeders Tetrahymena pyriformis and Daphnia
magna, and also examines the potential of viral transfer
due to trophic interactions. Experiments co-incubating each species
with the viruses over 72–96 h showed up to a 4 log virus removal
for T. pyriformis, while direct viral
uptake by D. magna was not observed.
However, viral uptake by D. magna occurred
indirectly by viral transfer from prey to predator, through D. magna feeding on virus-loaded T.
pyriformis. This prey–predator interaction
resulted in a 1 log additional virus removal compared to removal by T. pyriformis alone. Incomplete viral inactivation
by D. magna was observed through recovery
of infective viruses from the daphnid tissue. This research furthers
our understanding of the impacts of zooplankton filter feeding on
viral inactivation and shows the potential for viral transfer through
the food chain. The viral–zooplankton interactions observed
in these studies indicate that zooplankton may improve water quality
through viral uptake or may serve as vectors for infection by accumulating
viruses.