Wastewater containing coronaviruses may be a severe threat, according to a new, global study led by researchers from BGU's Zuckerberg Institute for Water Research.
The new paper, published in Nature Sustainability, an international collaboration of 35 researchers, evaluates recent studies on coronaviruses in wastewater and previous airborne infectious diseases, including SARS and MERS. The goal is to assess potential threats, avenues of research, and possible solutions and garner valuable perspectives for the future.
"There is ample reason to be concerned about how long coronaviruses survive in wastewater and how it impacts natural water sources," says lead author Dr. Edo Bar-Zeev (pictured) of the Zuckerberg Institute. "Can wastewater contain enough coronaviruses to infect people? The simple truth is that we do not know enough, and that needs to be rectified as soon as possible."
Bar-Zeev, and his postdoc student, Anne Bogler, together with other renowned researchers, indicate that sewage leaking into natural watercourses might lead to infection via airborne spray. Similarly, treated wastewater used to fill recreational water facilities, like lakes and rivers, could also become contagion sources. Lastly, fruits and vegetables irrigated with wastewater that was not adequately disinfected could also be an indirect infection route.
The research team recommends immediate, new research to determine the level of potential infection, if any, and how long coronaviruses last in various bodies of water and spray.
"Wastewater treatment plants need to upgrade their treatment protocols and shortly also advance toward tertiary treatment through micro-and ultra-filtration membranes, which successfully remove viruses," Bar-Zeev and his colleagues say.
At the same time, wastewater can serve as a canary in a coal mine because it can track COVID-19 outbreaks. Coronaviruses start showing up in feces before other symptoms like fevers and coughs appear in otherwise asymptomatic people. Regular monitoring, therefore, can give authorities warning of hot spots. BGU researchers recently completed a pilot study in Ashkelon, Israel, using a new methodology to detect and trace the virus's presence and calculate its concentration to pinpoint emerging COVID-19 hotspots. Other BGU researchers are working on developing water nanofiltration technologies.
BGU researchers who participated in this study include Prof. Amit Gross, Prof. Noam Weisbrod, Dr. Oded Nir, Prof. Osnat Gillor, Prof. Shai Arnon, Dr. Yakir Berchenko, Prof. Zeev Ronen, Prof. Ariel Kushmaro, Prof. Avner Ronen, and Prof. Jacob Moran-Gilad.
Additional researchers from the U.S. were from Yale University, Northwestern University, Drexel University, Temple University, Rice University, and Notre Dame, Illinois. Other participants include researchers from University Limoges, France, Karlsruhe Institute of Technology, Germany; University of Girona, Spain; University of Venice, Italy; ETH Zurich, Switzerland; University College Cork, Ireland; and Tianjin Polytechnic University, China.
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