key: cord-0716035-vr3p7ri6 authors: Núñez-Delgado, Avelino title: What do we know about the SARS-CoV-2 coronavirus in the environment? date: 2020-07-20 journal: Science of The Total Environment DOI: 10.1016/j.scitotenv.2020.138647 sha: 47b40b87b9bdeeb187aea994644b79b4a2364aeb doc_id: 716035 cord_uid: vr3p7ri6 Abstract In view of the current situation regarding the Covid-19 disease, a discussion is proposed on the need for research focusing on the presence and evolution of the SARS-CoV-2 virus in water, soils and other environmental compartments, reached through wastewater and sewage sludge spreading. Also, the evaluation of current treatments for wastewater and sewage sludge, as well as the eventual development of new specific techniques, based on sorption, nanotechnology, etc., would be of great interest for controlling the environmental dissemination of these viruses in the current and eventual future outbreaks. In view of the current situation regarding the Covid-19 disease, a discussion is proposed on the need for research focusing on the presence and evolution of the SARS-CoV-2 virus in water, soils and other environmental compartments, reached through wastewater and sewage sludge spreading. Also, the evaluation of current treatments for wastewater and sewage sludge, as well as the eventual development of new specific techniques, based on sorption, nanotechnology, etc., would be of great interest for controlling the environmental dissemination of these viruses in the current and eventual future outbreaks. © 2020 Elsevier B.V. All rights reserved. With thousands of people already affected by the Covid19 disease in various countries around the world, and millions of people controlled regarding displacements in their own countries and/or local geographic areas, it is time to add some comments on related aspects, applicable now and in the coming future. In fact, it should be taken into account that symptomatic (and maybe also asymptomatic) affected people could spread the viruses through their excreta, which would make appropriate to think on (and evaluate) effectiveness and consequences of related wastewater and sewage sludge treatment and eventual subsequent spreading to environmental compartments. Bowser (2020) has recently reported on the presence of this virus in feces from humans. Also, Pan et al. (2020) published some of the first results in this regard. If this virus is not eradicated, we should think on further screening focusing on wastewater (Martínez-Puchol et al., 2020 -have recently published a paper dealing with related aspects), but also on sewage sludge (as shown by Nag et al., 2020 -evaluating survival of bacteria and viruses causing different diseases, as well as in previous papers, such as that by Zhao and Liu, 2019) , soils and sediments (Katz et al., 2018; Nag et al., 2020; Zhao and Liu, 2019) , crops (Ahmed et al., 2019; Nag et al., 2020; Zhao and Liu, 2019) , animals (Pruvot et al., 2019) , surface and ground-waters (Corsi et al., 2014; Givens et al., 2016) . Further research should also focus on eventual technical treatments, including biosorbents and other materials to retain and/or inactive this and other pathogens circulating in these environmental compartments, before and after going out from wastewater treatment plants (in case of these treatment systems existing, as it could be worse, with spreading of untreated wastes). Some previous papers (such as those by Auffret et al., 2019; Hlongwane et al., 2019) could be considered as reference to program future studies. Also, the "sewage epidemiology approach" could be very useful, as this monitoring concept went from an initial focus on illicit drugs (van Nuijs et al., 2011) to the current view (also called "wastewater-based epidemiology"), covering a broad array of substances in wastewater, including virus particles (Daughton, 2020; Sims and Kasprzyk-Hordern, 2020) , and it would allow a drastic reduction in the time needed to develop a wastewater monitoring approach specifically designed for SARS-CoV-2 (Daughton, 2020) . When spread in the environment, some potential steps to be considered for these viruses are transfer from one compartment to another, entering living beings (multicellular, but maybe also unicellular in the future), proliferation, eventual mutation, transmission, … Currently, it is thought that these coronaviruses can survive for just few days in the environment, out of living cells (Kampf et al., 2020) , but it could be enough time to reach other organisms, to mutate and change characteristics, etc. Multiple possible scenarios should be considered for the coming future. These eventual considerations for the close future would be taken into account as soon as possible, in addition to the already in vigor measures implemented to control direct spreading by the air. The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. 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