When sewage plants 'get sick' the environment suffers

It is a little known fact that just as humans can catch a cold, so wastewater treatment plants can get also get sick due to viral attacks.
The latest research from Chalmers University of Technology (CUT) in Sweden, now reveals the implications for the surrounding environment when a sewage plant 'catches a cold'.
The efficient running of wastewater treatment plants is an essential part of modern society and the work of processing wastewater is often executed by microscopic bacteria. Biological processes carried out by these bacteria turn the wastewater into cleaned water that is safe to discharge into the environment.
Essentially the bacteria break down the pollutants and purify the water, keeping the plant running efficiently.
“A large treatment plant has billions of bacteria that work in a treatment process called activated sludge," says Oskar Modin, Professor at the department of architecture & civil engineering at CUT. "The bacterial communities are constantly exposed to viruses that infect them, so the question we asked ourselves was whether the process can periodically be more exposed and what happens then.”
Modin and fellow researchers measured the concentration of virus particles that were released from four different wastewater treatment plants in Sweden and compared this with how much organic carbon was released at the same time. This relationship between virus and effluent quality is a first step in understanding the impact of a viral infection on a treatment plant.
"One possible way to influence the amount of viruses in treatment plants could be to adjust the way the treatment plant is operated."
From the study, the researchers have shown there is a clear relationship between virus concentration and the amount of dissolved organic carbon present in the effluent water. This is because viruses could affect the concentration in two ways, firstly because they themselves contain carbon, and secondly because they rupture host bacteria cells, causing carbon to be released.
“When we measured virus particles in the water, we found a connection between viruses and organic carbon – when there was more of one there was also more of the other,” says Professor Modin.
More dissolved organic carbon in the effluent water means that more oxygen is consumed by microorganisms in the surrounding bodies of water where the effluent is discharged. This could have potential negative impacts on the aquatic ecosystems nearby.

This is why there are tough regulations in place for wastewater treatment plants to reach low concentrations of biodegradable organic carbon in their effluent. A small increase of organic carbon within the plant can also lead to increased resource consumption, including money, energy and materials used in processes for purification.
Viruses are dependent on a host to replicate. Since biological wastewater treatment processes have a high concentration of active bacteria that can serve as hosts, there will be a lot of viruses capable of infecting those bacteria. This leads to a net increase in virus particles as the wastewater moves through a plant.
“Viruses are often specialised in a certain species, which means that humans and bacteria cannot be infected by the same virus," Professor Modin explains. "So, the viruses that are generated in a wastewater treatment plant do not infect humans, but only affect microbial communities.
"One possible way to influence the amount of viruses in treatment plants could be to adjust the way the treatment plant is operated. We saw differences between the treatment plants in the study, which we believe may be related to the design or control of the biological treatment processes.”
