Removal of bacterial contaminants and antibiotic resistance genes by conventional wastewater treatment processes in Saudi Arabia: Is the treated wastewater safe to reuse for agricultural irrigation?

Aljassim, Nada I.; Ansari, Mohd Ikram; Harb, Moustapha; Hong, Pei‐Ying

doi:10.1016/j.watres.2015.01.036

Cited by 184 publications

(122 citation statements)

References 51 publications

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“…However, infectious EV was detected in the chlorinated effluent and occasionally in concentrations approximating its 50% infectious dose. These results and those of an earlier study identified antibiotic-resistant bacteria and associated resistance genes in chlorinated effluent [1], indicating a need to implement good management practices (e.g., wearing personal protective gear or clothing) when irrigating fields with treated wastewater in the local context. The presence of plant viruses in chlorinated effluent raises concerns about reuse in commercial agricultural irrigation.…”

Section: Discussionsupporting

confidence: 70%

“…All samples have a coliform count lower than 2.2 CFU/100 mL and meet the maximum discharge requirement for unrestricted irrigation [1,2]. The coliform counts increased in the months experiencing a lower temperature (Table S2).…”

Section: Fecal Coliform Counts In Chlorinated Effluentmentioning

confidence: 99%

“…In developing countries, wastewater treatment plants utilize biological activated sludge for nutrient removal and physical processes to separate biomass from treated wastewater. Secondary biological treatment processes achieve satisfactory treatment with regards to fecal coliforms in wastewater, and generally are able to meet a local discharge requirement that includes a permissible level of fecal coliforms in wastewater <1000 CFU/100 mL for restricted irrigation or <2.2 CFU/100 mL for unrestricted irrigation [1,2].…”

Section: Introductionmentioning

confidence: 99%

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Membrane Bioreactor-Based Wastewater Treatment Plant in Saudi Arabia: Reduction of Viral Diversity, Load, and Infectious Capacity

Jumat

Hasan

Subramanian

et al. 2017

Water

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A membrane bioreactor (MBR)-based wastewater treatment plant in Saudi Arabia was assessed over a nine-month period for virus removal efficiency. Viral diversity was detected using omics-based approaches. Log reduction values (LRV) of Adenoviruses (AdV) and Enteroviruses (EV) were enumerated using digital polymerase chain reaction (dPCR) and assessed for infectivity using fluorescence-based infection assays. MBR treatment was successful in reducing viral diversity. Plant viruses remained abundant in the treated effluent. Human enteric viruses were present in lower abundance than plant viruses, and were reduced by MBR at varying LRV. AdV copy numbers were reduced by 3.7-log. Infectious AdV was not detected in the effluent. EV copy numbers were reduced by 1.7-log post MBR and infectious EV decreased by an average of 2.0-log. Infectious EV was detected in the chlorinated effluent, occasionally in concentrations that approximate to its 50% infectious dose. Overall, results indicated that a MBR-based wastewater treatment plant (WWTP) effectively reduces viral diversity, viral load, and infectious capacity by up to 4-logs. These findings suggest potential concerns associated with plant and human enteric viruses for reuse events in this country. Local guidelines for assessment of treated water quality should take into consideration both infectious viral concentration and LRV.

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Section: Discussionsupporting

confidence: 70%

Section: Fecal Coliform Counts In Chlorinated Effluentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Membrane Bioreactor-Based Wastewater Treatment Plant in Saudi Arabia: Reduction of Viral Diversity, Load, and Infectious Capacity

Jumat

Hasan

Subramanian

et al. 2017

Water

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“…Given the potential for arcobacters to grow during sewage treatment, it was interesting to see that a recent study of secondary treatment WWTP in Saudi Arabia showed (by NGS) effective removal of certain genera such as Pseudomonas (4 log 10 reduction) and Arcobacter (2 log 10 reduction) from influent to effluent water (Al-Jassim et al, 2015). A further 1 log 10 removal of Arcobacter was achieved by chlorination.…”

Section: Secondary Treatmentmentioning

confidence: 99%

Arcobacter

Banting¹,

Salvat²

2019

Water and Sanitation for the 21st Century: Health and Microbiological Aspects of Excreta and Wastewater Management (Global Wate

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“…Yuan et al [21] showed that all bacteria, except erythromycin-and sulfadiazine-resistant bacteria, were inactivated fully by 15 mg Cl 2 min/L, and a chlorine dose of > 60 mg Cl 2 min/L was needed to inactivate erythromycin-and sulfadiazine-resistant bacteria. Additionally, the proportion of multidrug-resistant bacteria isolated from the chlorinated effluent increases compared to the influent, and antibiotic-resistance genes remain detectable in the chlorinated effluent [25]. Huang et al [26] also indicated that tetracycline-resistant E. coli showed a higher resistance to chlorine than tetracycline-sensitive E. coli.…”

Section: Inactivation Ratio Of Vre and Detection Of Vana In Secondarymentioning

confidence: 99%

Inactivation Effect of Antibiotic-Resistant Gene Using Chlorine Disinfection

Furukawa

Jikumaru

Ueno

et al. 2017

Water

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Abstract:The aim of this study was to elucidate the inactivation effects on the antibiotic-resistance gene (vanA) of vancomycin-resistant enterococci (VRE) using chlorination, a disinfection method widely used in various water treatment facilities. Suspensions of VRE were prepared by adding VRE to phosphate-buffered saline, or the sterilized secondary effluent of a wastewater treatment plant. The inactivation experiments were carried out at several chlorine concentrations and stirring time. Enterococci concentration and presence of vanA were determined. The enterococci concentration decreased as chlorine concentrations and stirring times increased, with more than 7.0 log reduction occurring under the following conditions: 40 min stirring at 0.5 mg Cl 2 /L, 20 min stirring at 1.0 mg Cl 2 /L, and 3 min stirring at 3.0 mg Cl 2 /L. In the inactivation experiment using VRE suspended in secondary effluent, the culturable enterococci required much higher chlorine concentration and longer treatment time for complete disinfection than the cases of suspension of VRE. However, vanA was detected in all chlorinated suspensions of VRE, even in samples where no enterococcal colonies were present on the medium agar plate. The chlorine disinfection was not able to destroy antibiotic-resistance genes, though it can inactivate and decrease bacterial counts of antibiotic-resistant bacteria (ARB). Therefore, it was suggested that remaining ARB and/or antibiotic-resistance gene in inactivated bacterial cells after chlorine disinfection tank could be discharged into water environments.

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Removal of bacterial contaminants and antibiotic resistance genes by conventional wastewater treatment processes in Saudi Arabia: Is the treated wastewater safe to reuse for agricultural irrigation?

Cited by 184 publications

References 51 publications

Membrane Bioreactor-Based Wastewater Treatment Plant in Saudi Arabia: Reduction of Viral Diversity, Load, and Infectious Capacity

Membrane Bioreactor-Based Wastewater Treatment Plant in Saudi Arabia: Reduction of Viral Diversity, Load, and Infectious Capacity

Arcobacter

Inactivation Effect of Antibiotic-Resistant Gene Using Chlorine Disinfection

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