Your search keyword '"Groundwater virology"' showing total 61 results

1. Exploring waterborne viruses in groundwater: Quantification and Virome characterization via passive sampling and targeted enrichment sequencing.

Author

Mejías-Molina C, Estarlich-Landajo I, Martínez-Puchol S, Bofill-Mas S, and Rusiñol M

Subjects

Humans, Water Microbiology, Environmental Monitoring methods, Norovirus genetics, Norovirus isolation & purification, Groundwater virology, Virome, Viruses isolation & purification, Viruses genetics

Abstract

Aquifers, which provide drinking water for nearly half the world's population, face significant challenges from microbial contamination, particularly from waterborne viruses such as human adenovirus (HAdV), norovirus (NoV) and enterovirus (EV). This study, conducted as part of the UPWATER project, investigates the sources of urban groundwater contamination using viral passive sampling (VPS) and target enrichment sequencing (TES). We assessed the abundance of eight viral pathogens (HAdV, EV, NoV genogroup I and II, rotavirus, influenza A virus, hepatitis E virus and SARS-CoV-2) and investigated the virome diversity of groundwater in the aquifer of the Besòs River Delta in Catalonia. Over a period of 7 months, we collected 114 samples from the aquifer using nylon and nitrocellulose membranes to adsorb viruses over a 10-day period. Human faecal contamination was detected in nearly 50 % of the groundwater samples, with mean HAdV total counts ranging from 1.23E+02 to 3.66E+03 GC, and occasional detections of EV and NoV GI and GII. In addition, deep sequencing revealed a diverse virome in the aquifer, with detection of human pathogens, including adenovirus, astrovirus, calicivirus, enterovirus, herpesvirus, papillomavirus and rotavirus. Time-integrated sampling using VPS increases the likelihood of virus detection and, when combined with TES, can provide a deeper understanding of virus prevalence in this important water compartment. This approach is expected to streamline long-term monitoring efforts and enable small communities or water managers with limited resources to effectively manage their groundwater reservoirs., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Marta Rusinol reports financial support was provided by European Commission. Marta Rusinol reports administrative support was provided by Government of Catalonia Agency for Administration of University and Research Grants. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

2. Exploring viral contamination in urban groundwater and runoff.

Author

Itarte M, Forés E, Martínez-Puchol S, Scheiber L, Vázquez-Suñé E, Bofill-Mas S, and Rusiñol M

Subjects

Humans, Wastewater virology, Water Microbiology, Cities, Norovirus isolation & purification, Norovirus genetics, Feces virology, Spain, SARS-CoV-2, Viruses isolation & purification, Groundwater virology, Environmental Monitoring

Abstract

The reliance of the global population on urban aquifers is steadily increasing, and urban aquifers are susceptible to pathogenic contamination through sources such as sewer leakage or urban runoff. However, there is insufficient monitoring of groundwater quality in urban areas. In this study, quantitative polymerase chain reaction (qPCR) was employed to evaluate the presence of human fecal viral indicators and viral pathogens in urban wastewater (n = 13) and groundwater (n = 12) samples from four locations in Barcelona with different degrees of urbanization, as well as in runoff samples (n = 2). Additionally, a target enrichment sequencing (TES) approach was utilized to explore the viral diversity within groundwater and runoff samples, offering insights into viral contamination and potential virus transmission routes in urban areas. Human adenovirus (HAdV) was identified in all wastewater samples, 67 % (8/12) of groundwater samples, and one runoff sample by qPCR indicating human viral fecal contamination. The viral pathogen Norovirus genogroup GI (NoV GI) was detected in wastewater and two winter groundwater samples from highly and medium urbanized areas. NoV genogroup GII (NoV GII), Enterovirus (EV) and SARS-CoV-2 were exclusively detected in wastewater. Human and other vertebrate viruses were detected in groundwater and runoff samples using TES. This study gives insights about the virome present in urban water sources, emphasizing the need for thorough monitoring and deeper understanding to address emerging public health concerns., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

3. Indicator and pathogenic virus removal in bench scale soil aquifer treatment.

Author

Gearhart N and Pagilla K

Subjects

Water Purification methods, Norovirus genetics, Norovirus isolation & purification, Tobamovirus isolation & purification, Tobamovirus genetics, Soil Microbiology, Hepatitis A virus isolation & purification, Hepatitis A virus genetics, Groundwater virology, Groundwater chemistry, Soil

Abstract

The demonstration of enteric virus removal for indirect potable reuse of advanced purified water is necessary to ensure safe water reclamation practices. This study evaluated the efficacy of soil treatment in reducing concentrations of Pepper Mild Mottle Virus (PMMoV), Hepatitis A (HAV), and Norovirus (NoV) gene markers through bench scale unsaturated soil columns. Three different infiltration rates were evaluated to determine their impact on viral gene marker removal. The concentrations of viral markers in the column influent and effluent samples were measured through RNA extraction and then RT-qPCR, and the log reduction values (LRVs) were calculated to quantify the effectiveness of removal across the columns. The LRVs achieved for PMMoV were 2.80 ± 0.36, 2.91 ± 0.48, and 2.72 ± 0.32 for infiltration rates of 4.9 mm/h, 9.4 mm/h, and 14.0 mm/h, respectively. A one-way ANOVA indicated no statistically significant differences in LRVs among the various infiltration rates (p-value = 0.329). All samples measured for HAV were below the detection limit both in the influent and effluent of the soil columns. While NoV GI and GII markers were measurable in the soil column influent, they were removed to below the detection limit in the effluent. The use of half the Limit-of-Detection (LoD) for effluent values enabled the estimation of log removals, which were calculated as 1.42 ± 0.07, 1.64 ± 0.29, and 1.74 ± 0.18 for NoV GI and 1.14 ± 0.19, 1.58 ± 0.21, and 1.87 ± 0.41 for NoV GII at infiltration rates of 4.9 mm/h, 9.4 mm/h, and 14.0 mm/h. This highlights the efficacy of soil treatment in reducing virus gene marker concentrations at various infiltration rates, and that spreading basins employed for reclaimed water recharge to ground water aquifers are an effective method for reducing the presence of viral contaminants in indirect potable reuse systems., Competing Interests: Declaration of competing interest 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., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

4. Virus production in shallow groundwater at the bank of the Danube River.

Author

Pleyer D, Griebler C, and Winter C

Subjects

Austria, Viruses isolation & purification, Water Microbiology, Electric Conductivity, Temperature, Groundwater virology, Seasons, Rivers virology

Abstract

Viruses play a crucial role in regulating prokaryotic populations, yet their impact on subsurface environments, specifically groundwater habitats, remains poorly understood. In this study, we employed the virus-dilution approach to measure lytic virus production rates in shallow groundwater located near the city of Vienna (Austria) during the period from July-November 2020. Physico-chemical parameters (pH, electrical conductivity, water temperature, concentration of dissolved oxygen), prokaryotic, and viral abundance, and viral decay rates were monitored as well. Our findings revealed low virus-to-prokaryote ratios varying between 0.9-3.9 throughout the study period and a lack of correlation between prokaryotic and viral abundance in groundwater. Virus production rates varied between 9-12% of viral abundance h-1 in July-August and between 34-36% of viral abundance h-1 in October-November. Seasonal variations in virus production rates were found to be correlated with electrical conductivity, revealing ~3.5 times higher virus production rates during periods with high electrical conductivity and low groundwater recharge in October-November compared to July-August with higher groundwater recharge and lower electrical conductivity. Our data indicate that groundwater recharge disrupts the balance between virus and prokaryotic host communities, resulting in a deficiency of suitable prokaryotic host cells for viral proliferation., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Pleyer et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

5. Unveiling the unknown viral world in groundwater.

Author

Wu Z, Liu T, Chen Q, Chen T, Hu J, Sun L, Wang B, Li W, and Ni J

Subjects

China, Archaea virology, Archaea genetics, Archaea metabolism, Phylogeny, Water Microbiology, Metagenome, Genome, Viral genetics, Groundwater microbiology, Groundwater virology, Viruses genetics, Viruses classification, Viruses isolation & purification, Virome genetics, Bacteria genetics, Bacteria virology, Bacteria metabolism, Bacteria classification, Metagenomics

Abstract

Viruses as the prevailing biological entities are poorly understood in underground realms. Here, we establish the first metagenomic Groundwater Virome Catalogue (GWVC) comprising 280,420 viral species ( ≥ 5 kb) detected from 607 monitored wells in seven geo-environmental zones throughout China. In expanding ~10-fold the global portfolio of known groundwater viruses, we uncover over 99% novel viruses and about 95% novel viral clusters. By linking viruses to hosts from 119 prokaryotic phyla, we double the number of microbial phyla known to be virus-infected in groundwater. As keystone ultrasmall symbionts in aquifers, CPR bacteria and DPANN archaea are susceptible to virulent viruses. Certain complete CPR viruses even likely infect non-CPR bacteria, while partial CPR/DPANN viruses harbor cell-surface modification genes that assist symbiont cell adhesion to free-living microbes. This study reveals the unknown viral world and auxiliary metabolism associated with methane, nitrogen, sulfur, and phosphorus cycling in groundwater, and highlights the importance of subsurface virosphere in viral ecology., (© 2024. The Author(s).)

Published

2024

6. Exploring adenovirus in water environments: a systematic review and meta-analysis.

Author

Takuissu GR, Kenmoe S, Ebogo-Belobo JT, Kengne-Ndé C, Mbaga DS, Bowo-Ngandji A, Ondigui Ndzie JL, Kenfack-Momo R, Tchatchouang S, Kenfack-Zanguim J, Lontuo Fogang R, Zeuko'o Menkem E, Kame-Ngasse GI, Magoudjou-Pekam JN, Suffredini E, Veneri C, Mancini P, Bonanno Ferraro G, Iaconelli M, Verani M, Federigi I, Carducci A, and La Rosa G

Subjects

Drinking Water virology, Water Microbiology, Wastewater virology, Humans, Groundwater virology, Animals, Environmental Monitoring, Adenoviridae isolation & purification

Abstract

Adenoviruses (AdVs) have a significant impact in both medical and environmental contexts. The objective of this study was to investigate the prevalence of AdV in different water types, such as untreated and treated wastewater, surface water, groundwater, drinking water, and other water matrices. A total of 239 articles were included in this meta-analysis. Adenoviruses were detected in various waters worldwide. The overall prevalence in water was found to be 59.2%, with the highest prevalence in untreated wastewater (83.1%) and treated wastewater (75.3%), followed by "other water matrices" (53.4%), surface water (49.5%) drinking water (22.7%), and groundwater (18.5%). Most of the studies did not assess the viability of the viruses, leading to weak links between water contamination and risk. Both human and animal AdV were found in water environments. The findings suggest that water, including drinking water, could be a significant route of AdV transmission in both developed and developing economies.

Published

2024

7. The Fennoscandian Shield deep terrestrial virosphere suggests slow motion 'boom and burst' cycles.

Author

Holmfeldt K, Nilsson E, Simone D, Lopez-Fernandez M, Wu X, de Bruijn I, Lundin D, Andersson AF, Bertilsson S, and Dopson M

Subjects

Firmicutes growth & development, Firmicutes virology, Groundwater microbiology, Host-Pathogen Interactions, Metagenomics, Population Density, Time Factors, Viruses genetics, Viruses metabolism, Water Microbiology, Groundwater virology, Virome, Virus Replication, Viruses growth & development

Abstract

The deep biosphere contains members from all three domains of life along with viruses. Here we investigate the deep terrestrial virosphere by sequencing community nucleic acids from three groundwaters of contrasting chemistries, origins, and ages. These viromes constitute a highly unique community compared to other environmental viromes and sequenced viral isolates. Viral host prediction suggests that many of the viruses are associated with Firmicutes and Patescibacteria, a superphylum lacking previously described active viruses. RNA transcript-based activity implies viral predation in the shallower marine water-fed groundwater, while the deeper and more oligotrophic waters appear to be in 'metabolic standby'. Viral encoded antibiotic production and resistance systems suggest competition and antagonistic interactions. The data demonstrate a viral community with a wide range of predicted hosts that mediates nutrient recycling to support a higher microbial turnover than previously anticipated. This suggests the presence of 'kill-the-winner' oscillations creating slow motion 'boom and burst' cycles.

Published

2021

8. Pepper Mild Mottle Virus as Indicator of Pollution: Assessment of Prevalence and Concentration in Different Water Environments in Italy.

Author

Bonanno Ferraro G, Suffredini E, Mancini P, Veneri C, Iaconelli M, Bonadonna L, Montagna MT, De Giglio O, and La Rosa G

Subjects

Feces virology, Humans, Italy, Seasons, Tobamovirus classification, Tobamovirus genetics, Drinking Water virology, Groundwater virology, Rivers virology, Sewage virology, Tobamovirus isolation & purification, Water Pollution analysis

Abstract

Pepper mild mottle virus (PMMoV), a plant pathogenic virus belonging to the family Virgoviridae, has been proposed as a potential viral indicator for human faecal pollution in aquatic environments. The present study investigated the occurrence, amount and diversity of PMMoV in water environments in Italy. A total of 254 water samples, collected between 2017 and 2019 from different types of water, were analysed. In detail, 92 raw sewage, 32 treated sewage, 16 river samples, 9 estuarine waters, 20 bathing waters, 67 groundwater samples and 18 drinking waters were tested. PMMoV was detected in 79% and 75% of untreated and treated sewage samples, respectively, 75% of river samples, 67% and 25% of estuarine and bathing waters and 13% of groundwater samples. No positive was detected in drinking water. The geometric mean of viral concentrations (genome copies/L) was ranked as follows: raw sewage (2.2 × 10 6 ) > treated sewage (2.9 × 10 5 ) > river waters (6.1 × 10 2 ) > estuarine waters (4.8 × 10 2 ) > bathing waters (8.5 × 10 1 ) > groundwater (5.9 × 10 1 ). A statistically significant variation of viral loads could be observed between raw and treated sewage and between these and all the other water matrices. PMMoV occurrence and viral loads did not display seasonal variation in raw sewage nor correlation with faecal indicator bacteria in marine waters and groundwater. This study represents the first report on the occurrence and quantification PMMoV in different water environments in Italy. Further studies are required to evaluate the suitability of PMMoV as a viral indicator for human faecal pollution and for viral pathogens in waters.

Published

2021

9. Identifying septic pollution exposure routes during a waterborne norovirus outbreak - A new application for human-associated microbial source tracking qPCR.

Author

Mattioli MC, Benedict KM, Murphy J, Kahler A, Kline KE, Longenberger A, Mitchell PK, Watkins S, Berger P, Shanks OC, Barrett CE, Barclay L, Hall AJ, Hill V, and Weltman A

Subjects

Bacteriophage Typing, Caliciviridae Infections epidemiology, Environmental Monitoring methods, Feces, Fresh Water microbiology, Fresh Water virology, Genotype, Groundwater virology, Humans, Microbiological Techniques, Norovirus genetics, Pennsylvania epidemiology, Water Pollution, Waterborne Diseases microbiology, Disease Outbreaks, Norovirus isolation & purification, Polymerase Chain Reaction methods, Water Microbiology, Waterborne Diseases virology

Abstract

In June 2017, the Pennsylvania Department of Health (PADOH) was notified of multiple norovirus outbreaks associated with 179 ill individuals who attended separate events held at an outdoor venue and campground over a month period. Epidemiologic investigations were unable to identify a single exposure route and therefore unable to determine whether there was a persistent contamination source to target for exposure mitigation. Norovirus was detected in a fresh recreational water designated swimming area and a drinking water well. A hydrogeological site evaluation suggested a nearby septic leach field as a potential contamination source via ground water infiltration. Geological characterization revealed a steep dip of the bedrock beneath the septic leach field toward the well, providing a viral transport pathway in a geologic medium not previously documented as high risk for viral ground water contamination. The human-associated microbial source tracking (MST) genetic marker, HF183, was used as a microbial tracer to demonstrate the hydrogeological connection between the malfunctioning septic system, drinking water well, and recreational water area. Based on environmental investigation findings, venue management and local public health officials implemented a series of outbreak prevention strategies including discontinuing the use of the contaminated well, issuing a permit for a new drinking water well, increasing portable toilet and handwashing station availability, and promoting proper hand hygiene. Despite the outbreaks at the venue and evidence of ground water contamination impacting nearby recreational water and the drinking water well, no new norovirus cases were reported during a large event one week after implementing prevention practices. This investigation highlights a new application for human-associated MST methods to trace hydrological connections between multiple fecal pollutant exposure routes in an outbreak scenario. In turn, pollutant source information can be used to develop effective intervention practices to mitigate exposure and prevent future outbreaks associated with human fecal contaminated waters., (Published by Elsevier B.V.)

Published

2021

10. Inclusion of Oxford Nanopore long reads improves all microbial and viral metagenome-assembled genomes from a complex aquifer system.

Author

Overholt WA, Hölzer M, Geesink P, Diezel C, Marz M, and Küsel K

Subjects

Groundwater virology, High-Throughput Nucleotide Sequencing, Metagenomics, Water Microbiology, Whole Genome Sequencing, Genome, Microbial genetics, Groundwater microbiology, Metagenome genetics, Nanopore Sequencing

Abstract

Assembling microbial and viral genomes from metagenomes is a powerful and appealing method to understand structure-function relationships in complex environments. To compare the recovery of genomes from microorganisms and their viruses from groundwater, we generated shotgun metagenomes with Illumina sequencing accompanied by long reads derived from the Oxford Nanopore Technologies (ONT) sequencing platform. Assembly and metagenome-assembled genome (MAG) metrics for both microbes and viruses were determined from an Illumina-only assembly, ONT-only assembly, and a hybrid assembly approach. The hybrid approach recovered 2× more mid to high-quality MAGs compared to the Illumina-only approach and 4× more than the ONT-only approach. A similar number of viral genomes were reconstructed using the hybrid and ONT methods, and both recovered nearly fourfold more viral genomes than the Illumina-only approach. While yielding fewer MAGs, the ONT-only approach generated MAGs with a high probability of containing rRNA genes, 3× higher than either of the other methods. Of the shared MAGs recovered from each method, the ONT-only approach generated the longest and least fragmented MAGs, while the hybrid approach yielded the most complete. This work provides quantitative data to inform a cost-benefit analysis of the decision to supplement shotgun metagenomic projects with long reads towards the goal of recovering genomes from environmentally abundant groups., (© 2020 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2020

11. Virus inactivation in groundwater in a postglacial lava field in arctic climate.

Author

Benediktsdóttir E, Gunnarsdóttir MJ, Ómarsdóttir BD, Sigurjónsson VÍ, and Gardarsson SM

Subjects

Cold Temperature, Feces virology, Groundwater chemistry, Iceland, Levivirus growth & development, Temperature, Water Pollution analysis, Water Quality, Groundwater virology, Levivirus physiology, Virus Inactivation

Abstract

Outbreaks of viral gastroenteritis are often connected to contaminated drinking water. The assessment of the water quality relies on the cultivation of indicator bacteria, and little is known of the fate of viruses in groundwater, especially in arctic regions. In Iceland, the groundwater temperature is between 3 and 6°C. The aim of this study was to determine virus inactivation at low temperature in a groundwater microcosm and in a borehole in a postglacial lava field. Two phage species that are commonly used as surrogates for norovirus were used, MS2 and PhiX174. Dialysis bags were used for the samples, and a device was constructed to hold many samples at a time and protect the samples in the borehole. No significant decrease of infective PhiX174 phages in the borehole or of the MS2 phages in the microcosm was observed. A slightly significant decrease of PhiX174 in the microcosm was noticed, with one log reduction time of 476 days. On the other hand, a significant reduction in MS2 was found in the field test, where the time needed for 90% reduction was 12·5 days. The results showed that an infective virus can exist in groundwater for months or years in arctic regions and a great difference may exist between results from microcosm and field tests. SIGNIFICANCE AND IMPACT OF THE STUDY: This study reveals that arctic regions are highly sensitive to virus contamination as an infective virus may exist in groundwater for years at low temperature. The results also show that the virus inactivation observed in field tests may differ considerably from the inactivation observed in laboratory microcosms. The results emphasize the importance of large protection zones around drinking water intakes as well as good wastewater treatment so that the likelihood of faecal contamination of groundwater is reduced., (© 2020 The Society for Applied Microbiology.)

Published

2020

12. Norovirus and human adenovirus occurrence and diversity in recreational water in a karst aquifer in the Yucatan Peninsula, Mexico.

Author

Rosiles-González G, Ávila-Torres G, Moreno-Valenzuela OA, Cháidez-Quiroz C, Hernández-Flores CI, Acosta-González G, Brown JK, Betancourt WQ, Gerba CP, and Hernández-Zepeda C

Subjects

Mexico, Water Microbiology, Adenoviruses, Human classification, Adenoviruses, Human genetics, Adenoviruses, Human isolation & purification, Groundwater virology, Norovirus classification, Norovirus genetics, Norovirus isolation & purification

Abstract

Aims: To determine the seasonal occurrence and diversity of norovirus (NoV) and human adenovirus (HAdV) in groundwater from sinkholes, and brackish water used for recreational activities in the karst aquifer of the Yucatan Peninsula, Mexico., Methods and Results: Hollow fibre ultrafiltration was used to concentrate viruses and standard plaque assay methods were used to enumerate somatic and F+ specific coliphages as viral indicators. Real-time quantitative polymerase chain reaction assays were used to estimate the number of genome copies for NoV strains GI, and GII, and HAdVs. The predominant NoV genotypes and HAdV serotypes were identified by comparative sequence analysis. Somatic and male F+ specific coliphages were detected at concentrations up to 94 and 60 plaque-forming units per 100 ml respectively. The NoV genogroup I (GI) was associated with 50% of the sampled sites during the rainy season only, at concentrations ranging from 120 to 1600 genome copies per litre (GC l -1 ). The NoV genogroup II (GII) was detected in 30 and 40% of the sampled sites during the rainy and dry seasons, respectively, at concentrations ranging from 10 to 290 GC l -1 . During the rainy and dry seasons, HAdVs were detected in 20% of the sites, at concentrations ranging from 24 to 690 GC l -1 . Identification of viral types revealed the presence of NoV GI.2, GII.Pe, GII.P16 and GII.P17, and HAdV F serotypes 40 and 41., Conclusions: These findings demonstrate that NoVs and HAdVs are prevalent as virus contaminants in the karst aquifer, representing potential health risks particularly during the rainy season, in one of the most important areas used for tourism in Mexico., Significance and Impact of the Study: This is one of the few studies conducted in karst aquifers that provide a foundational baseline of the distribution, concentrations and diversity of NoVs and HadVs in these particular environments., (© 2019 The Society for Applied Microbiology.)

Published

2019

13. Evaluation of Sequencing Library Preparation Protocols for Viral Metagenomic Analysis from Pristine Aquifer Groundwaters.

Author

Kallies R, Hölzer M, Brizola Toscan R, Nunes da Rocha U, Anders J, Marz M, and Chatzinotas A

Subjects

Caudovirales genetics, Germany, High-Throughput Nucleotide Sequencing, Myoviridae genetics, Nucleic Acid Amplification Techniques, Phylogeny, Siphoviridae, DNA, Viral isolation & purification, Gene Library, Genome, Viral, Groundwater virology, Metagenomics, Viruses genetics

Abstract

Viral ecology of terrestrial habitats is yet-to be extensively explored, in particular the terrestrial subsurface. One problem in obtaining viral sequences from groundwater aquifer samples is the relatively low amount of virus particles. As a result, the amount of extracted DNA may not be sufficient for direct sequencing of such samples. Here we compared three DNA amplification methods to enrich viral DNA from three pristine limestone aquifer assemblages of the Hainich Critical Zone Exploratory to evaluate potential bias created by the different amplification methods as determined by viral metagenomics. Linker amplification shotgun libraries resulted in lowest redundancy among the sequencing reads and showed the highest diversity, while multiple displacement amplification produced the highest number of contigs with the longest average contig size, suggesting a combination of these two methods is suitable for the successful enrichment of viral DNA from pristine groundwater samples. In total, we identified 27,173, 5,886 and 32,613 viral contigs from the three samples from which 11.92 to 18.65% could be assigned to taxonomy using blast. Among these, members of the Caudovirales order were the most abundant group (52.20 to 69.12%) dominated by Myoviridae and Siphoviridae . Those, and the high number of unknown viral sequences, substantially expand the known virosphere., Competing Interests: The authors declare no conflict of interest.

Published

2019

14. Human health risk assessment for the occurrence of enteric viruses in drinking water from wells: Role of flood runoff injections.

Author

Masciopinto C, De Giglio O, Scrascia M, Fortunato F, La Rosa G, Suffredini E, Pazzani C, Prato R, and Montagna MT

Subjects

Floods, Humans, Incidence, Italy epidemiology, Prevalence, Risk Assessment, Stomach Diseases virology, Water Wells, Drinking Water virology, Groundwater virology, Stomach Diseases epidemiology

Abstract

We demonstrated that floods can induce severe microbiological contamination of drinking water from wells and suggest strategies to better address water safety plans for groundwater drinking supplies. Since 2002, the Italian Water Research Institute (IRSA) has detected hepatitis A virus, adenovirus, rotavirus, norovirus, and enterovirus in water samples from wells in the Salento peninsula, southern Italy. Perturbations in the ionic strength in water flow can initiate strong virus detachments from terra rossa sediments in karst fractures. This study therefore explored the potential health impacts of prolonged runoff injections in Salento groundwater caused by severe flooding during October 2018. A mathematical model for virus fate and transport in fractures was applied to determine the impact of floodwater injection on groundwater quality by incorporating mechanisms that affect virus attachment/detachment and survival in flowing water at microscale. This model predicted target concentrations of enteric viruses that can occur unexpectedly in wells at considerable distances (5-8 km) from the runoff injection site (sinkhole). Subsequently, the health impact of viruses in drinking water supplied from contaminated wells was estimated during the summer on the Salento coast. Specific unpublished dose-response model coefficients were proposed to determine the infection probabilities for Echo-11 and Polio 1 enteroviruses through ingestion. The median (50%) risk of infection was estimated at 6.3 · 10 -3 with an uncertainty of 23%. The predicted burden of diseases was 4.89 disability adjusted life years per year, i.e., twice the maximum tolerable disease burden. The results highlight the requirement for additional water disinfection treatments in Salento prior to the distribution of drinking water. Moreover, monthly controls of enteric virus occurrence in water from wells should be imposed by a new water framework directive in semiarid regions because of the vulnerability of karst carbonate aquifers to prolonged floodwater injections and enteric virus contamination., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

15. Analysis of viral and bacterial communities in groundwater associated with contaminated land.

Author

Costeira R, Doherty R, Allen CCR, Larkin MJ, and Kulakov LA

Subjects

Bacteria classification, Groundwater virology, Northern Ireland, Viruses classification, Bacteria genetics, Groundwater microbiology, Metagenome, Microbiota, Soil Pollutants analysis, Viruses genetics

Abstract

This work aimed at the comprehensive analysis of total microbial communities inhabiting a typical hydrocarbon-polluted site, where chemical characteristics of the groundwater were readily available. To achieve this, a joint metagenomic characterization of bacteria and viruses surrounding a contaminant plume was performed over a one-year period. The results presented demonstrated that both potential hydrocarbon degraders and their bacteriophages were dominant around the plume, and that the viral and bacterial diversities found at the site were probably influenced by the pH of the groundwater. Niche-specific and dispersed associations between phages and bacteria were identified. The niche phage-host associations were found at the edge of the site and at the core of the plume where pH was the highest (9.52). The identified host populations included several classes of bacteria (e.g. Clostridia and Proteobacteria). Thirty-six viral generalists were also discovered, with BGW-G9 having the broadest host range across 23 taxa, including Pseudomonas, Polycyclovorans, Methylocaldum and Candidatus Magnetobacterium species. The phages with broad host ranges are presumed to have significant effects on prokaryotic production and horizontal gene transfer, and therefore impact the biodegradation processes conducted by various bacteria of the environment studied. This study for the first time characterized the phages and their bacterial hosts associated with a contaminant plume., (Crown Copyright © 2018. Published by Elsevier B.V. All rights reserved.)

Published

2019

16. Prevalence of human Norovirus by genotype in contaminated groundwater in Korea over the last decade (2007-2016).

Author

Lee S, Jang J, Bae K, Lee W, Chung H, and Park S

Subjects

Caliciviridae Infections virology, Humans, Norovirus isolation & purification, Phylogeny, RNA, Viral analysis, Republic of Korea, Sequence Analysis, DNA, Genotype, Groundwater virology, Norovirus classification, Norovirus genetics, Water Microbiology

Abstract

This study investigated the occurrence of human Norovirus (HuNoV) by genotype in 1,486 groundwater samples collected from 843 groundwater wells suspected of contamination during 2007-2016, in South Korea. We identified and genotyped 186 HuNoV sequences in 178 HuNoV-positive samples using the RIVM-NoroNet norovirus genotyping tool (NGT) and phylogenetic tree analysis based on RIVM-NoroNet reference sequences. HuNoV GII was more prevalent than GI. The major genotypes detected were HuNoV GII.4 (43.0%), GII.22 (15.6%), GI.5 (10.2%), and GI.1 (8.6%); several genotypes accounted for < 5.0% of all HuNoVs, including GII.17, GI.6, GI.4, GII.6, GI.8, GII.3, GII.13, GI.3, GI.7, GI.2, GI.9, GII.1, GII.8, and GII.10. The prevalence of HuNoVs and number of genotypes detected has drastically decreased over the last decade. HuNoV GII.17, the emerging genotype worldwide including Europe and Asia, appeared in Korean groundwater from 2010, dominated in 2013-2014, and continued to be observed. HuNoV GII.4, the major type occurred last decade from Korean groundwater except 2013-2014, continued to be detected and prevalent similar to HuNoV GII.17 in 2016.

Published

2018

17. Research on the contamination levels of norovirus in food facilities using groundwater in South Korea, 2015-2016.

Author

Lee JS, Joo IS, Ju SY, Jeong MH, Song YH, and Kwak HS

Subjects

Chlorine, Disease Outbreaks, Food Handling, Food Industry, Foodborne Diseases virology, Genotype, Humans, Molecular Epidemiology, Norovirus genetics, Prevalence, RNA, Viral genetics, Republic of Korea epidemiology, Caliciviridae Infections virology, Drinking Water virology, Gastroenteritis virology, Groundwater virology, Norovirus isolation & purification, Water Quality

Abstract

Norovirus (NoV) is a major pathogenic virus that is responsible for foodborne and waterborne gastroenteritis outbreaks. Groundwater is an important source of drinking water and is used in agriculture and food manufacturing processes. This study investigated norovirus contamination of groundwater treatment systems at 1360 sites in seven metropolitan areas and nine provinces in 2015-2016. Temperature, pH, residual chlorine, and turbidity content were assessed to analyze the water quality. In 2015, six sites were positive for the presence of NoV (0.88%) and in 2016, two sites were positive (0.29%); in total, NoV was detected in 8 of the 1360 sample sites (0.59%) investigated. Identified genotypes of NoV in groundwater included GI.5, 9 and GII.4, 6, 13, 17, and 21. GII.17 was the most prevalent genotype in treated groundwater used in the food industry. This dominance of GII.17 was corroborated by NoV infection outbreak cases and the results of a survey of coastal waters in South Korea in 2014-2015. Although a low detection rate was observed in this study, NoV is a pathogen that can spread extensively. Therefore, it is necessary to periodically monitor levels of norovirus which is responsible for food poisoning in groundwater. This is a first report to reveal epidemic genotype shift of norovirus in groundwater treatment system of food facilities in South Korea. Our results may contribute to the enhancement of public health and sanitary conditions by providing molecular epidemiological information on groundwater NoV., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

18. Evaluation of Bacterial Contamination as an Indicator of Viral Contamination in a Sedimentary Aquifer in Uruguay.

Author

Gamazo P, Victoria M, Schijven JF, Alvareda E, Tort LFL, Ramos J, Burutaran L, Olivera M, Lizasoain A, Sapriza G, Castells M, and Colina R

Subjects

Adenoviruses, Human growth & development, Agriculture, Drinking Water virology, Groundwater microbiology, Humans, Norovirus growth & development, Rotavirus growth & development, Uruguay, Bacteria growth & development, Groundwater virology, Viruses growth & development, Water Microbiology, Water Quality, Water Wells

Abstract

In Uruguay, groundwater is frequently used for agricultural activities, as well as for human consumption in urban and rural areas. As in many countries worldwide, drinking water microbiological quality is evaluated only according to bacteriological standards and virological analyses are not mentioned in the legislation. In this work, the incidence of human viral (Rotavirus A, Norovirus GII, and human Adenovirus) and bacterial (total and thermotolerant coliform and Pseudomonas aeruginosa) contamination in groundwater in the Salto district, Uruguay, as well as the possible correlation between these groups of microorganisms, was studied. From a total of 134 groundwater samples, 42 (32.1%) were positive for Rotavirus, only 1 (0.7%) for both Rotavirus and Adenovirus, and 96 (72.6%) samples were positive for bacterial indicators. Results also show that Rotavirus presence was not associated with changes in chemical composition of the aquifer water. Bacteriological indicators were not adequate to predict the presence of viruses in individual groundwater samples (well scale), but a deeper spatial-temporal analysis showed that they are promising candidates to assess the viral contamination degree at aquifer scale, since from the number of wells with bacterial contamination the number of wells with viral contamination could be estimated.

Published

2018

19. Overview of Trends in the Application of Metagenomic Techniques in the Analysis of Human Enteric Viral Diversity in Africa's Environmental Regimes.

Author

Osunmakinde CO, Selvarajan R, Sibanda T, Mamba BB, and Msagati TAM

Subjects

Africa, Bibliometrics, Computational Biology statistics & numerical data, Fresh Water virology, Groundwater virology, High-Throughput Nucleotide Sequencing instrumentation, High-Throughput Nucleotide Sequencing methods, Humans, Metagenomics instrumentation, Seawater virology, Virus Diseases diagnosis, Virus Diseases virology, Viruses classification, Viruses isolation & purification, Wastewater virology, Computational Biology methods, Genome, Viral, Metagenomics methods, Viruses genetics

Abstract

There has been an increase in the quest for metagenomics as an approach for the identification and study of the diversity of human viruses found in aquatic systems, both for their role as waterborne pathogens and as water quality indicators. In the last few years, environmental viral metagenomics has grown significantly and has enabled the identification, diversity and entire genome sequencing of viruses in environmental and clinical samples extensively. Prior to the arrival of metagenomics, traditional molecular procedures such as the polymerase chain reaction (PCR) and sequencing, were mostly used to identify and classify enteric viral species in different environmental milieu. After the advent of metagenomics, more detailed reports have emerged about the important waterborne viruses identified in wastewater treatment plant effluents and surface water. This paper provides a review of methods that have been used for the concentration, detection and identification of viral species from different environmental matrices. The review also takes into consideration where metagenomics has been explored in different African countries, as well as the limitations and challenges facing the approach. Procedures including sample processing, experimental design, sequencing technology, and bioinformatics analysis are discussed. The review concludes by summarising the current thinking and practices in the field and lays bare key issues that those venturing into this field need to consider and address.

Published

2018

20. Persistent Norovirus Contamination of Groundwater Supplies in Two Waterborne Outbreaks.

Author

Kauppinen A, Pitkänen T, and Miettinen IT

Subjects

Bacteria growth & development, Clostridium growth & development, Coliphages, Disease Outbreaks, Enterovirus growth & development, Escherichia coli, Feces microbiology, Genome, Viral, Groundwater microbiology, Humans, Soil, Virus Diseases epidemiology, Wastewater microbiology, Wastewater virology, Water Microbiology, Water Purification, Water Wells, Adenoviridae growth & development, Drinking Water virology, Groundwater virology, Norovirus growth & development, Virus Diseases virology, Water Pollution, Water Supply

Abstract

Microbiological contamination of groundwater supplies causes waterborne outbreaks worldwide. In this study, two waterborne outbreaks related to microbiological contamination of groundwater supplies are described. Analyses of pathogenic human enteric viruses (noroviruses and adenoviruses), fecal bacteria (Campylobacter spp. and Salmonella spp.), and indicator microbes (E. coli, coliform bacteria, intestinal enterococci, Clostridium perfringens, heterotrophic plate count, somatic and F-specific coliphages) were conducted in order to reveal the cause of the outbreaks and to examine the effectiveness of the implemented management measures. Moreover, the long-term persistence of noro- and adenovirus genomes was investigated. Noroviruses were detected in water samples from both outbreaks after the intrusion of wastewater into the drinking water sources. In the outbreak I, the removal efficiency of norovirus genome (3.0 log 10 removal) in the sand filter of onsite wastewater treatment system (OWTS) and during the transport through the soil into the groundwater well was lower than the removal efficiencies of E. coli, coliform bacteria, intestinal enterococci, and spores of C. perfringens (6.2, 6.0, > 5.9, and > 4.8 log 10 removals, respectively). In the outbreak II, cleaning of massively contaminated groundwater well and drinking water distribution network proved challenging, and noro- and adenovirus genomes were detected up to 3 months (108 days). The long-term persistence study showed that noro- and adenovirus genomes can remain detectable in the contaminated water samples up to 1277 and 1343 days, respectively. This study highlights the transport and survival properties of enteric viruses in the environment explaining their potency to cause waterborne outbreaks.

Published

2018

21. Transport of Escherichia coli phage through saturated porous media considering managed aquifer recharge.

Author

Zhang W, Li S, Wang S, Lei L, Yu X, and Ma T

Subjects

Adsorption, Geologic Sediments chemistry, Groundwater chemistry, Humans, Hydrodynamics, Osmolar Concentration, Porosity, Coliphages isolation & purification, Geologic Sediments virology, Groundwater virology, Models, Theoretical

Abstract

Virus is one of the most potentially harmful microorganisms in groundwater. In this paper, the effects of hydrodynamic and hydrogeochemical conditions on the transportation of the colloidal virus considering managed aquifer recharge were systematically investigated. Escherichia coli phage, vB&#95;EcoM-ep3, has a broad host range and was able to lyse pathogenic Escherichia coli. Bacteriophage with low risk to infect human has been found extensively in the groundwater environment, so it is considered as a representative model of groundwater viruses. Laboratory studies were carried out to analyze the transport of the Escherichia coli phage under varying conditions of pH, ionic strength, cation valence, flow rate, porous media, and phosphate buffer concentration. The results indicated that decreasing the pH will increase the adsorption of Escherichia coli phage. Increasing the ionic strength, either Na + or Ca 2+ , will form negative condition for the migration of Escherichia coli phage. A comparison of different cation valence tests indicated that changes in transport and deposition were more pronounced with divalent Ca 2+ than monovalent Na + . As the flow rate increases, the release of Escherichia coli phage increases and the retention of Escherichia coli phage in the aquifer medium reduces. Changes in porous media had a significant effect on Escherichia coli phage migration. With increase of phosphate buffer concentration, the suspension stability and migration ability of Escherichia coli phage are both increased. Based on laboratory-scale column experiments, a one-dimensional transport model was established to quantitatively describe the virus transport in saturated porous medium.

Published

2018

22. Occurrence of Pepper Mild Mottle Virus (PMMoV) in Groundwater from a Karst Aquifer System in the Yucatan Peninsula, Mexico.

Author

Rosiles-González G, Ávila-Torres G, Moreno-Valenzuela OA, Acosta-González G, Leal-Bautista RM, Grimaldo-Hernández CD, Brown JK, Chaidez-Quiroz C, Betancourt WQ, Gerba CP, and Hernández-Zepeda C

Subjects

Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Feces microbiology, Feces virology, Mexico, Real-Time Polymerase Chain Reaction, Seasons, Tobamovirus classification, Tobamovirus genetics, Groundwater virology, Tobamovirus isolation & purification

Abstract

The Yucatan Peninsula of Mexico hosts a karst aquifer system that is the only source of freshwater for the area; however, it is vulnerable to human-mediated contamination. Pepper mild mottle virus (PMMoV) is one of the most abundant RNA viruses associated with human feces, making it a viable indicator for tracking fecal pollution in aquatic environments, including groundwater. In this study, groundwater samples collected from a karst aquifer from fresh and brackish water locations were analyzed for fecal indicator bacteria, somatic and male F+ specific coliphages, and PMMoV during the rainy and dry seasons. Total coliform bacteria were detected at all sites, whereas Escherichia coli were found at relatively low levels <40 MPN/100 ml. The highest average concentrations of somatic and male F+ specific coliphages were 920 and 330 plaque forming units per 100 ml, respectively, detected in freshwater during the rainy season. PMMoV RNA was detected in 85% of the samples with gene sequences sharing 99-100% of nucleotide identity with PMMoV sequences available in GenBank. Quantification of PMMoV genome copies (GC) by quantitative real-time PCR indicated concentrations ranging from 1.7 × 10 1 to 1.0 × 10 4 GC/L, with the highest number of GC detected during the rainy season. No significant correlation was observed between PMMoV occurrence by season or water type (p > 0.05). Physicochemical and indicator bacteria were not correlated with PMMoV concentrations. The abundance and prevalence of PMMoV in the karst aquifer may reflect its environmental persistence and its potential as a fecal indicator in this karst aquifer system.

Published

2017

23. Strong release of viruses in fracture flow in response to a perturbation in ionic strength: Filtration/retention tests and modeling.

Author

Masciopinto C and Visino F

Subjects

Filtration, Osmolar Concentration, Soil Microbiology, Wastewater, Colloids, Groundwater virology, Models, Theoretical, Viruses

Abstract

Effluents derived from a municipal wastewater treatment plant were used for virus filtration/retention experiments by using a horizontal laboratory filter. Filtration tests were performed to examine how soil geochemical heterogeneity and fracture patterns affected the transport of viruses in groundwater in order to model the influence of reductive perturbations in ionic strength (IS) during wastewater filtration. Although perturbations of IS and velocity are known to result in resuspension of colloids, we found that the effect of soil geochemical heterogeneity can produce strong and instantaneous virus releases in fractured aquifers, likely an internal additional source of viruses. Sixteen limestone slabs were packed in a PVC box filter at the Bari Laboratory (South Italy) to replicate wastewater filtration throughout a fractured medium similar to the Bari carbonate aquifer. Terra rossa, which is an aggregate of sand, silt and clay, was unevenly spread on the surface of each limestone slab within the filter. Since the mineralogical composition of terra rossa includes iron (hematite, magnetite, and goethite) oxides, the soil exhibited localized unfavorable colloid/collector interactions for attachment. In contrast, soil-free parts of the fracture surfaces maintained favorable colloid/collector interactions. We found in our experiments that the lowering of IS due to the reduction of water salt content, which could occur during runoff injections after rainfall, might be sufficient to cause strong detachment of viruses from fracture surfaces, allowing further migration into the groundwater. The model in this work can predict the count and pathways of released viruses in groundwater fractures under soil geochemical heterogeneity and originated by reductions of IS, by using analytical solutions., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

24. Quantification and Genotyping of Aichi Virus 1 in Water Samples in the Kathmandu Valley, Nepal.

Author

Haramoto E and Kitajima M

Subjects

Genome, Viral, Genotype, Kobuvirus classification, Kobuvirus genetics, Nepal, Water Supply, Fresh Water virology, Groundwater virology, Kobuvirus isolation & purification

Abstract

Aichi virus 1 genomes were detected by quantitative PCR in groundwater from shallow dug (10/22) and tube wells (1/15), river water (14/14), and sewage (1/1), with the maximum concentration of 4.0 × 10 9 copies/l. Nucleotide sequencing analysis demonstrated the prevalence of genotype B in the virus positive samples.

Published

2017

25. Temperature dependency of virus and nanoparticle transport and retention in saturated porous media.

Author

Sasidharan S, Torkzaban S, Bradford SA, Cook PG, and Gupta VVSR

Subjects

Bacteriophage PRD1 chemistry, Bacteriophage phi X 174 chemistry, Osmolar Concentration, Silicon Dioxide chemistry, Solutions, Surface Properties, Water Movements, Groundwater chemistry, Groundwater virology, Models, Theoretical, Nanoparticles analysis, Porosity, Temperature, Water Microbiology

Abstract

The influence of temperature on virus (PRD1 and ΦX174) and carboxyl-modified latex nanoparticle (50 and 100nm) attachment was examined in sand-packed columns under various physiochemical conditions. When the solution ionic strength (IS) equaled 10 and 30mM, the attachment rate coefficient (k att ) increased up to 109% (p<0.0002) and the percentage of the sand surface area that contributed to attachment (S f ) increased up to 160% (p<0.002) when the temperature was increased from 4 to 20°C. Temperature effects at IS=10 and 30mM were also dependent on the system hydrodynamics; i.e., enhanced retention at a lower pore water velocity (0.1m/day). Conversely, this same temperature increase had a negligible influence on k att and S f values when IS was 1mM or >50mM. An explanation for these observations was obtained from extended interaction energy calculations that considered nanoscale roughness and chemical heterogeneity on the sand surface. Interaction energy calculations demonstrated that the energy barrier to attachment in the primary minimum (∆Φ a ) decreased with increasing IS, chemical heterogeneity, and temperature, especially in the presence of small amounts of nanoscale roughness (e.g., roughness fraction of 0.05 and height of 20nm in the zone of influence). Temperature had a negligible effect on k att and S f when the IS=1mM because of the large energy barrier, and at IS=50mM because of the absence of an energy barrier. Conversely, temperature had a large influence on k att and S f when the IS was 10 and 30mM because of the presence of a small ∆Φ a on sand with nanoscale roughness and a chemical (positive zeta potential) heterogeneity. This has large implications for setting parameters for the accurate modeling and transport prediction of virus and nanoparticle contaminants in ground water systems., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

26. Setback distances between small biological wastewater treatment systems and drinking water wells against virus contamination in alluvial aquifers.

Author

Blaschke AP, Derx J, Zessner M, Kirnbauer R, Kavka G, Strelec H, Farnleitner AH, and Pang L

Subjects

Drinking Water analysis, Drinking Water standards, Groundwater analysis, Groundwater standards, Monte Carlo Method, Wastewater analysis, Water Microbiology standards, Water Pollution prevention & control, Water Quality, Conservation of Water Resources methods, Drinking Water virology, Groundwater virology, Models, Theoretical, Wastewater virology, Water Purification methods, Water Wells

Abstract

Contamination of groundwater by pathogenic viruses from small biological wastewater treatment system discharges in remote areas is a major concern. To protect drinking water wells against virus contamination, safe setback distances are required between wastewater disposal fields and water supply wells. In this study, setback distances are calculated for alluvial sand and gravel aquifers for different vadose zone and aquifer thicknesses and horizontal groundwater gradients. This study applies to individual households and small settlements (1-20 persons) in decentralized locations without access to receiving surface waters but with the legal obligation of biological wastewater treatment. The calculations are based on Monte Carlo simulations using an analytical model that couples vertical unsaturated and horizontal saturated flow with virus transport. Hydraulic conductivities and water retention curves were selected from reported distribution functions depending on the type of subsurface media. The enteric virus concentration in effluent discharge was calculated based on reported ranges of enteric virus concentration in faeces, virus infectivity, suspension factor, and virus reduction by mechanical-biological wastewater treatment. To meet the risk target of <10 -4 infections/person/year, a 12 log 10 reduction was required, using a linear dose-response relationship for the total amount of enteric viruses, at very low exposure concentrations. The results of this study suggest that the horizontal setback distances vary widely ranging 39 to 144m in sand aquifers, 66-289m in gravel aquifers and 1-2.5km in coarse gravel aquifers. It also varies for the same aquifers, depending on the thickness of the vadose zones and the groundwater gradient. For vulnerable fast-flow alluvial aquifers like coarse gravels, the calculated setback distances were too large to achieve practically. Therefore, for this category of aquifer, a high level of treatment is recommended before the effluent is discharged to the ground surface., (Copyright © 2016 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2016

27. Biosecurity procedures for the environmental management of carcasses burial sites in Korea.

Author

Kim GH and Pramanik S

Subjects

Animals, Foot-and-Mouth Disease prevention & control, Foot-and-Mouth Disease Virus, Groundwater virology, Influenza A virus, Influenza in Birds prevention & control, Livestock, Poultry, Republic of Korea, Water Pollution prevention & control, Burial standards, Disease Outbreaks prevention & control, Disease Outbreaks veterinary

Abstract

Avian influenza and foot-and-mouth disease are two main contagious pathogenic viral disease which are responsible for the massive burials of livestock in Korea since burial is the primary measure to control these outbreaks. Biosecurity is a set of preventive measures designed to prevent the risk of spreading of these infectious diseases. The main objective of this paper is to discuss about the requirements of biosecurity and develop protocol outlines for environmental management of burial sites in Korea. Current practice prescribes to minimize the potential for on-farm pollution and the spread of the infectious diseases. Specific biosecurity procedures such as proper assessment of leachate quality, safe handling and disposal of leachate, adequate leachate pollution monitoring, necessary seasonal management of burial site, and appropriate sterilization process must be carried out to prevent the indirect transmission of pathogens from the burial sites. Policy makers should acquire robust knowledge of biosecurity for establishing more effective future legislation for carcasses disposal in Korea.

Published

2016

28. Simultaneous removal of rotavirus and adenovirus from artificial ground water using hydrochar derived from swine feces.

Author

Chung JW, Breulmann M, Clemens A, Fühner C, Foppen JW, and Lens PN

Subjects

Adsorption, Animals, Charcoal chemistry, Feces chemistry, Sus scrofa, Adenoviridae isolation & purification, Groundwater virology, Rotavirus isolation & purification, Waste Disposal, Fluid methods

Abstract

Hydrothermal carbonization technology can convert fecal waste into a valuable carbonaceous product referred to as hydrochar. We investigated the potential of fecal waste-derived hydrochar as an adsorbent for virus removal in water treatment. Swine feces was hydrothermally treated under two conditions: at 180 °C for 2 h and 230 °C for 7 h. The resulting solid products (hydrochar) were evaluated as virus adsorbents in water treatment. Simultaneous removal of pathogenic rotavirus (RV) and human adenovirus (HAdV) was investigated using a sand column set-up of 10 cm bed height with and without hydrochar supplement (1.5%, w/w). The removal efficiency of both viruses in a hydrochar-amended column was >3 log (complete removal). The amount of virus released in deionized water when flushed into the virus-retaining columns indicated that the secondary energy minimum played a more important role in RV retention than that of HAdV. Zeta-potential and hydrophobicity measurements on hydrochar materials indicated that the improved virus removal performance of hydrochar-amended columns was induced by the provision of extra hydrophobic surfaces. This study provides evidence that fecal waste-derived hydrochar can be used as a competent virus adsorbent.

Published

2016

29. EPA Method 1615. Measurement of Enterovirus and Norovirus Occurrence in Water by Culture and RT-qPCR. II. Total Culturable Virus Assay.

Author

Fout GS and Cashdollar JL

Subjects

Animals, Cattle, Cell Line, Chlorocebus aethiops, Enterovirus genetics, Norovirus genetics, Poliovirus isolation & purification, Real-Time Polymerase Chain Reaction methods, United States, United States Environmental Protection Agency, Water Microbiology, Drinking Water virology, Enterovirus isolation & purification, Groundwater virology, Norovirus isolation & purification

Abstract

A standardized method is required when national studies on virus occurrence in environmental and drinking waters utilize multiple analytical laboratories. The U.S Environmental Protection Agency's (USEPA) Method 1615 was developed with the goal of providing such a standard for measuring Enterovirus and Norovirus in these waters. Virus is concentrated from water using an electropositive filter, eluted from the filter surface with beef extract, and then concentrated further using organic flocculation. Herein we present the protocol from Method 1615 for filter elution, secondary concentration, and measurement of total culturable viruses. A portion of the concentrated eluate from each sample is inoculated onto ten replicate flasks of Buffalo Green Monkey kidney cells. The number of flasks demonstrating cytopathic effects is used to quantify the most probable number (MPN) of infectious units per liter. The method uses a number of quality controls to increase data quality and to reduce interlaboratory and intralaboratory variation. Laboratories must meet defined performance standards. Method 1615 was evaluated by examining virus recovery from reagent-grade and ground waters seeded with Sabin poliovirus type 3. Mean poliovirus recoveries with the total culturable assay were 111% in reagent grade water and 58% in groundwaters.

Published

2016

30. Effects of Climate and Sewer Condition on Virus Transport to Groundwater.

Author

Gotkowitz MB, Bradbury KR, Borchardt MA, Zhu J, and Spencer SK

Subjects

Climate, Humans, Water Pollutants analysis, Environmental Monitoring, Groundwater virology, Viruses isolation & purification, Water Wells

Abstract

Pathogen contamination from leaky sanitary sewers poses a threat to groundwater quality in urban areas, yet the spatial and temporal dimensions of this contamination are not well understood. In this study, 16 monitoring wells and six municipal wells were repeatedly sampled for human enteric viruses. Viruses were detected infrequently, in 17 of 455 samples, compared to previous sampling at these wells. Thirteen of the 22 wells sampled were virus-positive at least once. While the highest virus concentrations occurred in shallower wells, shallow and deep wells were virus-positive at similar rates. Virus presence in groundwater was temporally coincident, with 16 of 17 virus-positive samples collected in a six-month period. Detections were associated with precipitation and occurred infrequently during a prolonged drought. The study purposely included sites with sewers of differing age and material. The rates of virus detections in groundwater were similar at all study sites during this study. However, a relationship between sewer age and virus detections emerged when compared to data from an earlier study, conducted during high precipitation conditions. Taken together, these data indicate that sewer condition and climate affect urban groundwater contamination by human enteric viruses.

Published

2016

31. Sepia ink as a surrogate for colloid transport tests in porous media.

Author

Soto-Gómez D, Pérez-Rodríguez P, López-Periago JE, and Paradelo M

Subjects

Animals, Biological Transport, Ink, Models, Animal, Particle Size, Porosity, Bacterial Physiological Phenomena, Colloids analysis, Groundwater analysis, Groundwater microbiology, Groundwater virology, Particulate Matter analysis, Sepia chemistry, Virus Physiological Phenomena, Water Pollutants, Chemical analysis

Published

2016

32. Estimating the burden of acute gastrointestinal illness due to Giardia, Cryptosporidium, Campylobacter, E. coli O157 and norovirus associated with private wells and small water systems in Canada.

Author

Murphy HM, Thomas MK, Schmidt PJ, Medeiros DT, McFADYEN S, and Pintar KD

Subjects

Acute Disease, Canada epidemiology, Drinking Water virology, Gastrointestinal Diseases microbiology, Gastrointestinal Diseases parasitology, Groundwater virology, Humans, Risk Assessment, Water Supply standards, Drinking Water microbiology, Drinking Water parasitology, Gastrointestinal Diseases epidemiology, Groundwater microbiology, Groundwater parasitology, Population Surveillance methods

Abstract

Waterborne illness related to the consumption of contaminated or inadequately treated water is a global public health concern. Although the magnitude of drinking water-related illnesses in developed countries is lower than that observed in developing regions of the world, drinking water is still responsible for a proportion of all cases of acute gastrointestinal illness (AGI) in Canada. The estimated burden of endemic AGI in Canada is 20·5 million cases annually - this estimate accounts for under-reporting and under-diagnosis. About 4 million of these cases are domestically acquired and foodborne, yet the proportion of waterborne cases is unknown. There is evidence that individuals served by private systems and small community systems may be more at risk of waterborne illness than those served by municipal drinking water systems in Canada. However, little is known regarding the contribution of these systems to the overall drinking water-related AGI burden in Canada. Private water supplies serve an estimated 12% of the Canadian population, or ~4·1 million people. An estimated 1·4 million (4·1%) people in Canada are served by small groundwater (2·6%) and surface water (1·5%) supplies. The objective of this research is to estimate the number of AGI cases attributable to water consumption from these supplies in Canada using a quantitative microbial risk assessment (QMRA) approach. This provides a framework for others to develop burden of waterborne illness estimates for small water supplies. A multi-pathogen QMRA of Giardia, Cryptosporidium, Campylobacter, E. coli O157 and norovirus, chosen as index waterborne pathogens, for various source water and treatment combinations was performed. It is estimated that 103 230 AGI cases per year are due to the presence of these five pathogens in drinking water from private and small community water systems in Canada. In addition to providing a mechanism to assess the potential burden of AGI attributed to small systems and private well water in Canada, this research supports the use of QMRA as an effective source attribution tool when there is a lack of randomized controlled trial data to evaluate the public health risk of an exposure source. QMRA is also a powerful tool for identifying existing knowledge gaps on the national scale to inform future surveillance and research efforts.

Published

2016

33. EPA Method 1615. Measurement of Enterovirus and Norovirus Occurrence in Water by Culture and RT-qPCR. Part III. Virus Detection by RT-qPCR.

Author

Fout GS, Cashdollar JL, Griffin SM, Brinkman NE, Varughese EA, and Parshionikar SU

Subjects

Animals, Enterovirus genetics, Humans, Mice, Norovirus genetics, Poliovirus genetics, Poliovirus isolation & purification, RNA, Viral genetics, Water Supply, Enterovirus isolation & purification, Groundwater virology, Norovirus isolation & purification, Reverse Transcriptase Polymerase Chain Reaction methods, Water Microbiology

Abstract

EPA Method 1615 measures enteroviruses and noroviruses present in environmental and drinking waters. This method was developed with the goal of having a standardized method for use in multiple analytical laboratories during monitoring period 3 of the Unregulated Contaminant Monitoring Rule. Herein we present the protocol for extraction of viral ribonucleic acid (RNA) from water sample concentrates and for quantitatively measuring enterovirus and norovirus concentrations using reverse transcription-quantitative PCR (RT-qPCR). Virus concentrations for the molecular assay are calculated in terms of genomic copies of viral RNA per liter based upon a standard curve. The method uses a number of quality controls to increase data quality and to reduce interlaboratory and intralaboratory variation. The method has been evaluated by examining virus recovery from ground and reagent grade waters seeded with poliovirus type 3 and murine norovirus as a surrogate for human noroviruses. Mean poliovirus recoveries were 20% in groundwaters and 44% in reagent grade water. Mean murine norovirus recoveries with the RT-qPCR assay were 30% in groundwaters and 4% in reagent grade water.

Published

2016

34. Human and animal enteric virus in groundwater from deep wells, and recreational and network water.

Author

Fongaro G, Padilha J, Schissi CD, Nascimento MA, Bampi GB, Viancelli A, and Barardi CR

Subjects

Adenoviruses, Human genetics, Adenoviruses, Human pathogenicity, Animals, Brazil, Cell Line, Tumor, Circovirus genetics, Circovirus pathogenicity, Genes, Viral, Humans, Manure virology, Parks, Recreational, Real-Time Polymerase Chain Reaction, Rotavirus genetics, Rotavirus pathogenicity, Seasons, Swine, Water Quality, Water Wells, Adenoviruses, Human isolation & purification, Circovirus isolation & purification, Groundwater virology, Rotavirus isolation & purification, Water Microbiology

Abstract

This study was designed to assess the presence of human adenovirus (HAdV), rotavirus-A (RVA), hepatitis A virus (HAV), and porcine circovirus-2 (PCV2) in groundwater from deep wells, and recreational and network waters. The water samples were collected and concentrated and the virus genomes were assessed and quantified by quantitative PCR (qPCR). Infectious HAdV was evaluated in groundwater and network water samples by integrated cell culture using transcribed messenger RNA (mRNA) (ICC-RT-qPCR). In recreational water samples, HAdV was detected in 100 % (6/6), HAV in 66.6 % (4/6), and RVA in 66.6 % (4/6). In network water, HAdV was detected in 100 % (6/6) of the samples (these 83 % contained infectious HAdV), although HAV and RVA were not detected and PCV2 was not evaluated. In groundwater from deep wells, during rainy period, HAdV and RVA were detected in 80 % (4/5) of the samples, and HAV and PCV2 were not detected; however, during dry period, HAdV and RVA were detected in 60 % (3/5), HAV in only one sample, and PCV2 in 60 % (4/5). In groundwater, all samples contained infectious HAdV. PCV2 presence in groundwater is indicative of contamination caused by swine manure in Concórdia, Santa Catarina, Brazil. The disinfection of human and animal wastes is urgent, since they can contaminate surface and groundwater, being a potential threat for public and animal health.

Published

2015

35. Modeling the co-transport of viruses and colloids in unsaturated porous media.

Author

Seetha N, Mohan Kumar MS, and Majid Hassanizadeh S

Subjects

Adsorption, Aluminum Silicates, Clay, Hydrology methods, Kinetics, Porosity, Colloids analysis, Groundwater virology, Models, Theoretical, Viruses

Abstract

A mathematical model is developed to simulate the co-transport of viruses and colloids in unsaturated porous media under steady-state flow conditions. The virus attachment to the mobile and immobile colloids is described using a linear reversible kinetic model. Colloid transport is assumed to be decoupled from virus transport; that is, we assume that colloids are not affected by the presence of attached viruses on their surface. The governing equations are solved numerically using an alternating three-step operator splitting approach. The model is verified by fitting three sets of experimental data published in the literature: (1) Syngouna and Chrysikopoulos (2013) and (2) Walshe et al. (2010), both on the co-transport of viruses and clay colloids under saturated conditions, and (3) Syngouna and Chrysikopoulos (2015) for the co-transport of viruses and clay colloids under unsaturated conditions. We found a good agreement between observed and fitted breakthrough curves (BTCs) under both saturated and unsaturated conditions. Then, the developed model was used to simulate the co-transport of viruses and colloids in porous media under unsaturated conditions, with the aim of understanding the relative importance of various processes on the co-transport of viruses and colloids in unsaturated porous media. The virus retention in porous media in the presence of colloids is greater during unsaturated conditions as compared to the saturated conditions due to: (1) virus attachment to the air-water interface (AWI), and (2) co-deposition of colloids with attached viruses on its surface to the AWI. A sensitivity analysis of the model to various parameters showed that the virus attachment to AWI is the most sensitive parameter affecting the BTCs of both free viruses and total mobile viruses and has a significant effect on all parts of the BTC. The free and the total mobile viruses BTCs are mainly influenced by parameters describing virus attachment to the AWI, virus interaction with mobile and immobile colloids, virus attachment to solid-water interface (SWI), and colloid interaction with SWI and AWI. The virus BTC is relatively insensitive to parameters describing the maximum adsorption capacity of the AWI for colloids, inlet colloid concentration, virus detachment rate coefficient from the SWI, maximum adsorption capacity of the AWI for viruses and inlet virus concentration., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

36. Modeling dense-colloid and virus cotransport in three-dimensional porous media.

Author

Katzourakis VE and Chrysikopoulos CV

Subjects

Gravitation, Groundwater virology, Porosity, Colloids analysis, Hydrology methods, Models, Theoretical, Viruses

Abstract

A three-dimensional numerical model was developed to investigate the simultaneous transport (cotransport) of dense colloids and viruses in homogeneous, water saturated, porous media with horizontal uniform flow. The dense colloids are assumed to exist in two different phases: suspended in the aqueous phase, and attached reversibly and/or irreversibly onto the solid matrix. The viruses are assumed to exist in four different phases: suspended in aqueous phase, attached onto the solid matrix, attached onto suspended colloids, and attached onto colloids already attached onto the solid matrix. The viruses in each of the four phases are assumed to undergo inactivation with different rates. Moreover, the suspended dense colloids as well as viruses attached onto suspended dense colloids are assumed to exhibit a "restricted" settling velocity as a consequence of the gravitational force; whereas, viruses due to their small sizes and densities are assumed to have negligible "restricted" settling velocity. The governing differential equations were solved numerically with the finite difference schemes, implicitly or explicitly implemented. Model simulations have shown that the presence of dense colloid particles can either enhance or hinder the horizontal transport of viruses, but also can increase the vertical migration of viruses., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

37. Removal of rotavirus and adenovirus from artificial ground water using hydrochar derived from sewage sludge.

Author

Chung JW, Foppen JW, Gerner G, Krebs R, and Lens PN

Subjects

Adsorption, Humans, Humic Substances analysis, Silicon Dioxide chemistry, Water Purification instrumentation, Adenoviridae chemistry, Groundwater virology, Rotavirus chemistry, Sewage chemistry, Water Purification methods

Abstract

Aims: To determine the pathogenic virus removal performance of an adsorbent produced from hydrothermal carbonization of sewage sludge., Methods and Results: The removal of human pathogenic rotavirus and adenovirus was investigated with columns of 10 cm saturated sand with and without amendments of 1·5% (w/w) hydrochar. Virus concentrations were determined with reverse transcription (RT) quantitative polymerase chain reaction (qPCR). The experiments with sand showed 1 log removal, while the columns with 1·5% (w/w) hydrochar amendment showed 2 to >3 log removal for both viruses. Deionized (DI) water flushing into the virus-retaining columns revealed that the secondary energy minimum played a larger role in the attachment of rotavirus onto hydrochar surfaces than adenovirus. Improved virus removal may be attributed to the introduction of hydrophobic and/or meso-macro surface structures of the hydrochar providing favourable attachment sites for viruses., Conclusions: Hydrochar amended sand beds showed improved virus removal efficiencies exceeding 99·6% corresponding to 2·4 log removal. The addition of humic acid in the influent did not hinder the adsorptive removal of viruses., Significance and Impact of the Study: This study suggests that hydrochar derived from sewage sludge can be used as an adsorbent for virus removal in water treatment., (© 2015 The Society for Applied Microbiology.)

Published

2015

38. Evaluation of molecular- and culture-dependent MST markers to detect fecal contamination and indicate viral presence in good quality groundwater.

Author

Diston D, Sinreich M, Zimmermann S, Baumgartner A, and Felleisen R

Subjects

Feces microbiology, Groundwater microbiology, Groundwater standards, Humans, RNA, Ribosomal, 16S genetics, Bacteroides genetics, Bacteroidetes genetics, Biomarkers analysis, Feces virology, Groundwater virology, Water Pollution analysis, Water Quality

Abstract

Microbial contamination of groundwater represents a significant health risk to resource users. Culture-dependent Bacteroides phage and molecular-dependent Bacteroidales 16S rRNA assays are employed in microbial source tracking (MST) studies globally, however little is known regarding how these important groups relate to each other in the environment and which is more suitable to indicate the presence of waterborne fecal pollution and human enteric viruses. This study addresses this knowledge gap by examining 64 groundwater samples from sites with varying hydrogeological properties using a MST toolbox containing two bacteriophage groups (phage infecting GB-124 and ARABA-84), and two Bacteroidales 16S rRNA markers (Hf183 and BacR); those were compared to fecal indicator bacteria, somatic coliphage, Bacteroidales 16S rRNA marker AllBac, four human enteric viruses (norovirus GI and II, enterovirus and group A rotavirus) and supplementary hydrogeological/chemical data. Bacteroidales 16S rRNA indicators offered a more sensitive assessment of both human-specific and general fecal contamination than phage indicators, but may overestimate the risk from enteric viral pathogens. Comparison with hydrogeological and land use site characteristics as well as auxiliary microbiological and chemical data proved the plausibility of the MST findings. Sites representing karst aquifers were of significantly worse microbial quality than those with unconsolidated or fissured aquifers, highlighting the vulnerability of these hydrogeological settings.

Published

2015

39. Pepper mild mottle virus as an indicator and a tracer of fecal pollution in water environments: comparative evaluation with wastewater-tracer pharmaceuticals in Hanoi, Vietnam.

Author

Kuroda K, Nakada N, Hanamoto S, Inaba M, Katayama H, Do AT, Nga TT, Oguma K, Hayashi T, and Takizawa S

Subjects

Drinking Water chemistry, Drinking Water virology, Groundwater chemistry, Groundwater virology, Sewage chemistry, Sewage virology, Tobamovirus growth & development, Vietnam, Waste Disposal, Fluid, Wastewater chemistry, Environmental Monitoring methods, Pharmaceutical Preparations analysis, Tobamovirus isolation & purification, Wastewater virology, Water Pollutants analysis

Abstract

We analyzed pepper mild mottle virus (PMMoV) in 36 samples taken from surface water, wastewater, groundwater, tap water and bottled water in Hanoi, Vietnam. We then compared the occurrence and fates of PMMoV with pharmaceuticals and personal care products (PPCPs), which are known wastewater tracers. PMMoV was detected in 94% of the surface water samples (ponds, water from irrigated farmlands and rivers) and in all the wastewater samples. The PMMoV concentration ranged from 5.5×10(6)-7.2×10(6)copies/L in wastewater treatment plant (WWTP) influents, 6.5×10(5)-8.5×10(5)copies/L in WWTP effluents and 1.0×10(4)-1.8×10(6)copies/L in surface water. Among the sixty PPCPs analyzed, caffeine and carbamazepine had high detection rates in surface water (100% and 88%, respectively). In surface water, the concentration ratio of PMMoV to caffeine remained unchanged than that in WWTP influents, suggesting that the persistence of PMMoV in surface water was comparable to that of caffeine. The persistence and the large concentration ratio of PMMoV in WWTP influents to the method detection limit would account for its ubiquitous detection in surface water. In comparison, human enteric viruses (HEV) were less frequently detected (18-59%) than PMMoV in surface water, probably because of their faster decay. Together with the reported high human feces-specificity, our results suggested that PMMoV is useful as a sensitive fecal indicator for evaluating the potential occurrence of pathogenic viruses in surface water. Moreover, PMMoV can be useful as a moderately conservative fecal tracer for specifically tracking fecal pollution of surface water. PMMoV was detected in 38% of the groundwater samples at low concentrations (up to 19copies/L). PMMoV was not detected in the tap water and bottled water samples. In groundwater, tap water and bottled water samples, the occurrence of PPCPs and HEV disagreed with that of PMMoV, suggesting that PMMoV is not suitable as an indicator or a tracer in those waters., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

40. Evidence of Geobacter-associated phage in a uranium-contaminated aquifer.

Author

Holmes DE, Giloteaux L, Chaurasia AK, Williams KH, Luef B, Wilkins MJ, Wrighton KC, Thompson CA, Comolli LR, and Lovley DR

Subjects

Bacteriophages isolation & purification, Biodegradation, Environmental, Genes, Viral, Geobacter genetics, Geobacter isolation & purification, Groundwater microbiology, Metagenome, Proteomics, Transcriptome, Viral Proteins genetics, Bacteriophages genetics, Geobacter virology, Groundwater virology, Uranium metabolism, Water Pollutants, Radioactive metabolism

Abstract

Geobacter species may be important agents in the bioremediation of organic and metal contaminants in the subsurface, but as yet unknown factors limit the in situ growth of subsurface Geobacter well below rates predicted by analysis of gene expression or in silico metabolic modeling. Analysis of the genomes of five different Geobacter species recovered from contaminated subsurface sites indicated that each of the isolates had been infected with phage. Geobacter-associated phage sequences were also detected by metagenomic and proteomic analysis of samples from a uranium-contaminated aquifer undergoing in situ bioremediation, and phage particles were detected by microscopic analysis in groundwater collected from sediment enrichment cultures. Transcript abundance for genes from the Geobacter-associated phage structural proteins, tail tube Gp19 and baseplate J, increased in the groundwater in response to the growth of Geobacter species when acetate was added, and then declined as the number of Geobacter decreased. Western blot analysis of a Geobacter-associated tail tube protein Gp19 in the groundwater demonstrated that its abundance tracked with the abundance of Geobacter species. These results suggest that the enhanced growth of Geobacter species in the subsurface associated with in situ uranium bioremediation increased the abundance and activity of Geobacter-associated phage and show that future studies should focus on how these phages might be influencing the ecology of this site.

Published

2015

41. Transport and removal of viruses in saturated sand columns under oxic and anoxic conditions--Potential implications for groundwater protection.

Author

Frohnert A, Apelt S, Klitzke S, Chorus I, Szewzyk R, and Selinka HC

Subjects

Adsorption, Filtration, Humans, Levivirus, Models, Theoretical, Oxidation-Reduction, Drinking Water virology, Groundwater virology, Oxygen, Silicon Dioxide, Viruses, Water Microbiology, Water Purification methods

Abstract

To protect groundwater as a drinking water resource from microbiological contamination, protection zones are installed. While travelling through these zones, concentrations of potential pathogens should decline to levels that pose no risks to human health. Removal of viruses during subsurface passage is influenced by physicochemical conditions, such as oxygen concentration, which also affects virus survival. The aim of our study was to evaluate the effect of redox conditions on the removal of viruses during sand filtration. Experiments in glass columns filled with medium-grained sand were conducted to investigate virus removal in the presence and absence of dissolved oxygen. Bacteriophages MS2 and PhiX174, as surrogates for human enteric viruses were spiked in pulsed or in continuous mode and pumped through the columns at a filter velocity of about 1m/d. Virus breakthrough curves were analyzed by calculating total viral elimination and fitted using one-dimensional transport models (CXTFIT and HYDRUS-1D). While short-term experiments with pulsed virus application showed only small differences with regard to virus removal under oxic and anoxic conditions, a long-term experiment with continuous dosing revealed a clearly lower elimination of viruses under anoxic conditions. These findings suggest that less inactivation and less adsorption of viruses in anoxic environments affect their removal. Therefore, in risk assessment studies aimed to secure drinking water resources from viral contamination and optimization of protection zones, the oxic and anoxic conditions in the subsurface should also be considered., (Copyright © 2014 Elsevier GmbH. All rights reserved.)

Published

2014

42. Removal of indigenous coliphages and enteric viruses during riverbank filtration from highly polluted river water in Delhi (India).

Author

Sprenger C, Lorenzen G, Grunert A, Ronghang M, Dizer H, Selinka HC, Girones R, Lopez-Pila JM, Mittal AK, and Szewzyk R

Subjects

Feces virology, India, Water Pollution, Chemical analysis, Water Quality, Water Supply, Coliphages isolation & purification, Enterovirus isolation & purification, Filtration methods, Groundwater virology, Rivers virology, Water Purification methods

Abstract

Emerging countries frequently afflicted by waterborne diseases require safe and cost-efficient production of drinking water, a task that is becoming more challenging as many rivers carry a high degree of pollution. A study was conducted on the banks of the Yamuna River, Delhi, India, to ascertain if riverbank filtration (RBF) can significantly improve the quality of the highly polluted surface water in terms of virus removal (coliphages, enteric viruses). Human adenoviruses and noroviruses, both present in the Yamuna River in the range of 10(5) genomes/100 mL, were undetectable after 50 m infiltration and approximately 119 days of underground passage. Indigenous somatic coliphages, used as surrogates of human pathogenic viruses, underwent approximately 5 log10 removal after only 3.8 m of RBF. The initial removal after 1 m was 3.3 log10, and the removal between 1 and 2.4 m and between 2.4 and 3.8 m was 0.7 log10 each. RBF is therefore an excellent candidate to improve the water situation in emerging countries with respect to virus removal.

Published

2014

43. Viruses as groundwater tracers: using ecohydrology to characterize short travel times in aquifers.

Author

Hunt RJ, Borchardt MA, and Bradbury KR

Subjects

Environmental Monitoring, Water Supply, Groundwater virology, Viruses, Water Microbiology, Water Movements

Abstract

Viruses are attractive tracers of short (<3 year) travel times in aquifers because they have unique genetic signatures, are detectable in trace quantities, and are mobile in groundwater. Virus "snaphots" result from infection and disappearance in a population over time; therefore, the virus snapshot shed in the fecal wastes of an infected population at a specific point in time can serve as a marker for tracking virus and groundwater movement. The virus tracing approach and an example application are described to illustrate their ability to characterize travel times in high-groundwater velocity settings, and provide insight unavailable from standard hydrogeologic approaches. Although characterization of preferential flowpaths does not usually characterize the majority of other travel times occurring in the groundwater system (e.g., center of plume mass; tail of the breakthrough curve), virus approaches can trace very short times of transport, and thus can fill an important gap in our current hydrogeology toolbox., (© 2014, National Ground Water Association.)

Published

2014

44. Assessment of virus removal by managed aquifer recharge at three full-scale operations.

Author

Betancourt WQ, Kitajima M, Wing AD, Regnery J, Drewes JE, Pepper IL, and Gerba CP

Subjects

Arizona, California, Colorado, Real-Time Polymerase Chain Reaction, Time Factors, Tobamovirus isolation & purification, Environmental Monitoring, Groundwater virology, Rivers virology, Viruses isolation & purification, Wastewater virology, Water Purification standards

Abstract

Managed aquifer recharge (MAR) systems such as riverbank filtration and soil-aquifer treatment all involve the use of natural subsurface systems to improve the quality of recharged water (i.e. surface water, stormwater, reclaimed water) before reuse. During MAR, water is either infiltrated via basins, subsurface injected or abstracted from wells adjacent to rivers. The goal of this study was to assess the removal of selected enteric viruses and a potential surrogate for virus removal at three full-scale MAR systems located in different regions of the United States (Arizona, Colorado, and California). Samples of source water (i.e., river water receiving treated wastewater and reclaimed water) before recharge and recovered groundwater at all three sites were tested for adenoviruses, enteroviruses, Aichi viruses and pepper mild mottle virus (PMMoV) by quantitative polymerase chain reaction (qPCR). Samples of groundwater positive for any virus were also tested for the presence of infectious virus by cell culture. PMMoV was the most commonly detected virus in the groundwater samples. Infectious enteric viruses (reovirus) were only detected in one groundwater sample with a subsurface residence time of 5 days. The results suggested that in groundwater with a residence time of greater than 14 days all of the viruses are removed below detection indicating a 1 to greater than 5 log removal depending upon the type of virus. Given its behavior, PMMoV may be suitable to serve as a conservative tracer of enteric virus removal in managed aquifer treatment systems.

Published

2014

45. Variability in bacteria and virus-like particle abundances during purging of unconfined aquifers.

Author

Roudnew B, Lavery TJ, Seymour JR, Jeffries TC, and Mitchell JG

Subjects

Environmental Monitoring methods, Flow Cytometry, Groundwater chemistry, South Australia, Temperature, Water Microbiology, Groundwater microbiology, Groundwater virology

Abstract

Standard methodologies for sampling the physicochemical conditions of groundwater recommend purging a bore for three bore volumes to avoid sampling the stagnant water within a bore and instead gain samples representative of the aquifer. However, there are currently no methodological standards addressing the amount of purging required to gain representative biological samples to assess groundwater bacterial and viral abundances. The objective of this study was to examine how bacterial and viral abundances change during the purging of bore volumes. Six bores infiltrating into unconfined aquifers were pumped for five or six bore volumes each and bacteria and virus-like particles (VLPs) were enumerated from each bore volume using flow cytometry. In examination of the individual bores trends in bacterial abundances were observed to increase, decrease, or remain constant with each purged bore volume. Furthermore, triplicates taken at each bore volume indicated substantial variations in VLP and bacterial abundances that are often larger than the differences between bore volumes. This indicates a high level of small scale heterogeneity in microbial community abundance in groundwater samples, and we suggest that this may be an intrinsic feature of bore biology. The heterogeneity observed may be driven by bottom up processes (variability in the distribution of organic and inorganic nutrients), top-down processes (grazing and viral lysis), physical heterogeneities in the bore, or technical artifacts associated with the purging process. We suggest that a more detailed understanding of the ecology underpinning this variability is required to adequately describe the microbiological characteristics of groundwater ecosystems., (© 2013, National Ground Water Association.)

Published

2014

46. Nationwide surveillance for pathogenic microorganisms in groundwater near carcass burials constructed in South Korea in 2010.

Author

Joung HK, Han SH, Park SJ, Jheong WH, Ahn TS, Lee JB, Jeong YS, Jang KL, Lee GC, Rhee OJ, Park JW, and Paik SY

Subjects

Animals, Burial, Cadaver, Chickens, Colony Count, Microbial, Drinking Water microbiology, Drinking Water virology, Livestock, Polymerase Chain Reaction, Republic of Korea, Groundwater microbiology, Groundwater virology, Water Quality

Abstract

Widespread outbreaks of foot-and-mouth disease and avian influenza occurred in South Korea during 2010. In response to the culling of many animals to attenuate the spread of disease, South Korea used mass burial sites to dispose of the large number of carcasses; consequently, concerns about groundwater contamination by leachate from these burial sites are increasing. Groundwater is one of the main sources of drinking water, and its cleanliness is directly related to public health. Thus, this study aimed to evaluate the safety of groundwater around the burial sites (total of 600 sites). A total of 1,200 groundwater samples were collected though the country, and microbial analysis was conducted during two time periods: during the spring (n = 600; April to June 2012) and after rainfall (n = 600; August to October, 2012; fall). Fecal coliform and Escherichia coli were detected in 173 (14.4%) and 85 (7.1%) of the 1,200 samples, respectively. Salmonella spp. and Shigella spp. each were detected only once (0.083%). Clostridium perfringens was detected from 7 groundwater samples (0.583%), and E. coli O157:H7 was not detected. With respect to norovirus, only the GII type was detected from six groundwater samples (0.5%), and enterovirus was detected in 15 groundwater samples (1.25%). The frequency of E. coli that we detected was lower than that found in previous studies conducted in South Korea, but we detected higher frequency of fecal coliform than that observed in a previous report. The contamination frequencies of Salmonella spp. and Shigella spp. were very low, but C. perfringens, which could be an indicator of fecal pollution, was detected in seven regions. Overall, the results of the present study indicate a low possibility of contamination from burial sites. However, consistent monitoring is required to prevent microbial contamination of groundwater near the burial sites.

Published

2013

47. Confined aquifers as viral reservoirs.

Author

Smith RJ, Jeffries TC, Roudnew B, Seymour JR, Fitch AJ, Simons KL, Speck PG, Newton K, Brown MH, and Mitchell JG

Subjects

Biodiversity, Ecosystem, Molecular Sequence Data, Phylogeny, Viruses classification, Viruses genetics, Disease Reservoirs virology, Groundwater virology, Viruses isolation & purification

Abstract

Knowledge about viral diversity and abundance in deep groundwater reserves is limited. We found that the viral community inhabiting a deep confined aquifer in South Australia was more similar to reclaimed water communities than to the viral communities in the overlying unconfined aquifer community. This similarity was driven by high relative occurrence of the single-stranded DNA viral groups Circoviridae, Geminiviridae and Microviridae, which include many known plant and animal pathogens. These groups were present in a 1500-year-old water situated 80 m below the surface, which suggests the potential for long-term survival and spread of potentially pathogenic viruses in deep, confined groundwater. Obtaining a broader understanding of potentially pathogenic viral communities within aquifers is particularly important given the ability of viruses to spread within groundwater ecosystems., (© 2013 John Wiley & Sons Ltd and Society for Applied Microbiology.)

Published

2013

48. Dynamics of natural prokaryotes, viruses, and heterotrophic nanoflagellates in alpine karstic groundwater.

Author

Wilhartitz IC, Kirschner AK, Brussaard CP, Fischer UR, Wieltschnig C, Stadler H, and Farnleitner AH

Subjects

Groundwater parasitology, Seasons, Bacterial Load, Biota, Groundwater microbiology, Groundwater virology, Parasite Load, Viral Load

Abstract

Seasonal dynamics of naturally occurring prokaryotes, viruses, and heterotrophic nanoflagellates in two hydro-geologically contrasting alpine karst springs were monitored over three annual cycles. To our knowledge, this study is the first to shed light on the occurrence and possible interrelationships between these three groups in karstic groundwater. Hydrological and microbiological standard indicators were recovered simultaneously in order to estimate surface influence, especially during rainfall events. Data revealed a strong dependence of the microbial communities on the prevailing hydrological situation. Prokaryotic numbers averaged 5.1 × 10(7) and 1.3 × 10(7) cells L(-1) , and heterotrophic nanoflagellate abundance averaged 1.1 × 10(4) and 3 × 10(3) cells L(-1) in the limestone spring type (LKAS2) and the dolomitic spring type (DKAS1), respectively. Viral abundance in LKAS2 and DKAS1 averaged 9.4 × 10(8) and 1.1 × 10(8) viruses L(-1) . Unlike in DKAS1, the dynamic spring type LKAS2 revealed a clear difference between base flow and high discharge conditions. The virus-to-prokaryotes ratio was generally lower by a factor of 2-3, at higher average water residence times. Furthermore, the high prokaryotes-to-heterotrophic nanoflagellate ratios, namely about 4700 and 5400 for LKAS2 and DKAS1, respectively, pointed toward an uncoupling of these two groups in the planktonic fraction of alpine karstic aquifers., (© 2013 The Authors. Microbiology Open published by John Wiley & Sons Ltd.)

Published

2013

49. Norovirus contamination levels in ground water treatment systems used for food-catering facilities in South Korea.

Author

Lee BR, Lee SG, Park JH, Kim KY, Ryu SR, Rhee OJ, Park JW, Lee JS, and Paik SY

Subjects

Chlorine analysis, Genotype, Groundwater chemistry, Humans, Hydrogen-Ion Concentration, Polymerase Chain Reaction, RNA, Viral genetics, Republic of Korea, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Temperature, Food Handling methods, Food Industry methods, Groundwater virology, Norovirus isolation & purification

Abstract

This study aimed to inspect norovirus contamination of groundwater treatment systems used in food-catering facilities located in South Korea. A nationwide study was performed in 2010. Water samples were collected and, for the analysis of water quality, the temperature, pH, turbidity, and residual chlorine content were assessed. To detect norovirus genotypes GI and GII, RT-PCR and semi-nested PCR were performed with specific NV-GI and NV-GII primer sets, respectively. The PCR products amplified from the detected strains were then subjected to sequence analyses. Of 1,090 samples collected in 2010, seven (0.64%) were found to be norovirus-positive. Specifically, one norovirus strain was identified to have the GI-6 genotype, and six GII strains had the GII, GII-3, GII-4, and GII-17 genotypes. The very low detection rate of norovirus most likely reflects the preventative measures used. However, this virus can spread rapidly from person to person in crowded, enclosed places such as the schools investigated in this study. To promote better public health and sanitary conditions, it is necessary to periodically monitor noroviruses that frequently cause epidemic food poisoning in South Korea.

Published

2013

50. Effects of fluctuations in river water level on virus removal by bank filtration and aquifer passage--a scenario analysis.

Author

Derx J, Blaschke AP, Farnleitner AH, Pang L, Blöschl G, and Schijven JF

Subjects

Computer Simulation, Filtration, Floods, Hydrology, Models, Theoretical, Water Movements, Groundwater virology, Rivers virology, Viruses isolation & purification, Water Pollutants isolation & purification

Abstract

Riverbank filtration is an effective process for removing pathogenic viruses from river water. Despite indications that changing hydraulic conditions during floods can affect the efficacy of riverbank filtration to remove viruses, the impact on advection and dispersion of viruses in the riverbank is not well understood. We investigated the effects of fluctuations in river water level on virus transport during riverbank filtration, considering 3-D transient groundwater flow and virus transport. Using constant removal rates from published field experiments with bacteriophages, removal of viruses with distance from the riverbank was simulated for coarse gravel, fine gravel and fine sandy gravel. Our simulations showed that, in comparison with steady flow conditions, fluctuations in river water level cause viruses to be transported further at higher concentrations into the riverbank. A 1-5 m increase in river water levels led to a 2- to 4-log (log10 reduction in concentration relative to the initial concentration in the river) increase in virus concentration and to up to 30% shorter travel times. For particular cases during the receding flood, changing groundwater flow conditions caused that pristine groundwater was carried from further inland and that simulated virus concentrations were more diluted in groundwater. Our study suggests that the adverse effect of water level fluctuations on virus transport should be considered in the simulation of safe setback distances for drinking water supplies., (Copyright © 2013. Published by Elsevier B.V.)

Published

2013