Antibiotic resistance genes in treated wastewater and in the receiving water bodies: A pan-European survey of urban settings

There is increasing public concern regarding the fate of antibiotic resistance genes (ARGs) during wastewater treatment, their persistence during the treatment process and their potential impacts on the receiving water bodies. In this study, we used quantitative PCR (qPCR) to determine the abundance of nine ARGs and a class 1 integron associated integrase gene in 16 wastewater treatment plant (WWTP) effluents from ten different European countries. In order to assess the impact on the receiving water bodies, gene abundances in the latter were also analysed.Six out of the nine ARGs analysed were detected in all effluent and river water samples. Among the quantified genes, intI1 and sul1 were the most abundant. Our results demonstrate that European WWTP contribute to the enrichment of the resistome in the receiving water bodies with the particular impact being dependent on the effluent load and local hydrological conditions. The ARGs concentrations in WWTP effluents were found to be inversely correlated to the number of implemented biological treatment steps, indicating a possible option for WWTP management.Furthermore, this study has identified blaOXA-58 as a possible resistance gene for future studies investigating the impact of WWTPs on their receiving water.COST ActionTekirdag Namık Kemal University-Corlu Faculty of Engineering3203301

MiDAS 4: A global catalogue of full-length 16S rRNA gene sequences and taxonomy for studies of bacterial communities in wastewater treatment plants

Microbial communities are responsible for biological wastewater treatment, but our knowledge of their diversity and function is still poor. Here, we sequence more than 5 million high-quality, full-length 16S rRNA gene sequences from 740 wastewater treatment plants (WWTPs) across the world and use the sequences to construct the ‘MiDAS 4’ database. MiDAS 4 is an amplicon sequence variant resolved, full-length 16S rRNA gene reference database with a comprehensive taxonomy from domain to species level for all sequences. We use an independent dataset (269 WWTPs) to show that MiDAS 4, compared to commonly used universal reference databases, provides a better coverage for WWTP bacteria and an improved rate of genus and species level classification. Taking advantage of MiDAS 4, we carry out an amplicon-based, global-scale microbial community profiling of activated sludge plants using two common sets of primers targeting regions of the 16S rRNA gene, revealing how environmental conditions and biogeography shape the activated sludge microbiota. We also identify core and conditionally rare or abundant taxa, encompassing 966 genera and 1530 species that represent approximately 80% and 50% of the accumulated read abundance, respectively. Finally, we show that for well-studied functional guilds, such as nitrifiers or polyphosphate-accumulating organisms, the same genera are prevalent worldwide, with only a few abundant species in each genus.Fil: Dueholm, Morten Kam Dahl. Aalborg University; DinamarcaFil: Nierychlo, Marta. Aalborg University; DinamarcaFil: Andersen, Kasper Skytte. Aalborg University; DinamarcaFil: Rudkjøbing, Vibeke. Aalborg University; DinamarcaFil: Knutsson, Simon. Aalborg University; DinamarcaFil: Arriaga, Sonia. Instituto Potosino de Investigación Científica y Tecnológica; MéxicoFil: Bakke, Rune. University College of Southeast Norway; NoruegaFil: Boon, Nico. University of Ghent; BélgicaFil: Bux, Faizal. Durban University of Technology; SudáfricaFil: Christensson, Magnus. Veolia Water Technologies Ab; SueciaFil: Chua, Adeline Seak May. University Malaya; MalasiaFil: Curtis, Thomas P.. University of Newcastle; Reino UnidoFil: Cytryn, Eddie. Agricultural Research Organization Of Israel; IsraelFil: Erijman, Leonardo. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina. Universidad de Buenos Aires; ArgentinaFil: Etchebehere, Claudia. Instituto de Investigaciones Biológicas "Clemente Estable"; UruguayFil: Fatta Kassinos, Despo. University of Cyprus; ChipreFil: Frigon, Dominic. McGill University; CanadáFil: Garcia Chaves, Maria Carolina. Universidad de Antioquia; ColombiaFil: Gu, April Z.. Cornell University; Estados UnidosFil: Horn, Harald. Karlsruher Institut Für Technologie; AlemaniaFil: Jenkins, David. David Jenkins & Associates Inc; Estados UnidosFil: Kreuzinger, Norbert. Tu Wien; AustriaFil: Kumari, Sheena. Durban University of Technology; SudáfricaFil: Lanham, Ana. University of Bath; Reino UnidoFil: Law, Yingyu. Singapore Centre For Environmental Life Sciences Engineering; SingapurFil: Leiknes, TorOve. King Abdullah University of Science and Technology; Arabia SauditaFil: Morgenroth, Eberhard. Eth Zürich; SuizaFil: Muszyński, Adam. Politechnika Warszawska; PoloniaFil: Petrovski, Steve. La Trobe University; AustraliaFil: Pijuan, Maite. Catalan Institute For Water Research; EspañaFil: Pillai, Suraj Babu. Va Tech Wabag Ltd; IndiaFil: Reis, Maria A. M.. Universidade Nova de Lisboa; PortugalFil: Rong, Qi. Chinese Academy of Sciences; ChinaFil: Rossetti, Simona. Istituto Di Ricerca Sulle Acque (irsa) ; Consiglio Nazionale Delle Ricerche;Fil: Seviour, Robert. La Trobe University; AustraliaFil: Tooker, Nick. University of Massachussets; Estados UnidosFil: Vainio, Pirjo. Espoo R&D Center; FinlandiaFil: van Loosdrecht, Mark. Delft University of Technology; Países BajosFil: Vikraman, R.. VA Tech Wabag, Philippines Inc; FilipinasFil: Wanner, Jiří. University of Chemistry And Technology; República ChecaFil: Weissbrodt, David. Delft University of Technology; Países BajosFil: Wen, Xianghua. Tsinghua University; ChinaFil: Zhang, Tong. The University of Hong Kong; Hong KongFil: Nielsen, Per H.. Aalborg University; DinamarcaFil: Albertsen, Mads. Aalborg University; DinamarcaFil: Nielsen, Per Halkjær. Aalborg University; Dinamarc

Covid-19: Szenarien für Herbst/Winter 2022 – und darüber hinaus

Die vergangenen Monate haben dynamische Entwicklungen der Pandemie verdeutlicht. Als Folge dessen kam es quasi zeitgleich in Österreich im ersten Quartal des Jahres 2022 neben dem Beschluss äußerst restriktiver Vorgaben wie der Impfpflicht auch wieder zur Aufhebung fast aller Schutzmaßnahmen im Zusammenhang mit der COVID-19-Pandemie. Die letzten beiden Jahre haben gezeigt, wie dynamisch und rasch sich die Situation phasenweise in der Pandemie ändern kann. Jede Phase erfordert – und je länger die Pandemie andauert, umso mehr – verstärkt interdisziplinäre Zugänge und klare Zielsetzungen für Public Health Interventionen. Dies ist einerseits im Sinne einer verständlichen Kommunikation gegenüber der allgemeinen Bevölkerung wichtig, und andererseits im Sinne einer effektiven Bekämpfung der Ausbreitung der Pandemie unbedingt erforderlich

Making Waves : Collaboration in the time of SARS-CoV-2-rapid development of an international co-operation and wastewater surveillance database to support public health decision-making

The presence of SARS-CoV-2 RNA in wastewater was first reported in March 2020. Over the subsequent months, the potential for wastewater surveillance to contribute to COVID-19 mitigation programmes has been the focus of intense national and international research activities, gaining the attention of policy makers and the public. As a new application of an established methodology, focused collaboration between public health practitioners and wastewater researchers is essential to developing a common understanding on how, when and where the outputs of this non-invasive community-level approach can deliver actionable outcomes for public health authorities. Within this context, the NORMAN SCORE "SARS-CoV-2 in sewage" database provides a platform for rapid, open access data sharing, validated by the uploading of 276 data sets from nine countries to-date. Through offering direct access to underpinning meta-data sets (and describing its use in data interpretation), the NORMAN SCORE database is a resource for the development of recommendations on minimum data requirements for wastewater pathogen surveillance. It is also a tool to engage public health practitioners in discussions on use of the approach, providing an opportunity to build mutual understanding of the demand and supply for data and facilitate the translation of this promising research application into public health practice. (C) 2021 Elsevier Ltd. All rights reserved.Peer reviewe

A global multinational survey of cefotaxime-resistant coliforms in urban wastewater treatment plants

The World Health Organization Global Action Plan recommends integrated surveillance programs as crucial strategies for monitoring antibiotic resistance. Although several national surveillance programs are in place for clinical and veterinary settings, no such schemes exist for monitoring antibiotic-resistant bacteria in the environment. In this transnational study, we developed, validated, and tested a low-cost surveillance and easy to implement approach to evaluate antibiotic resistance in wastewater treatment plants (WWTPs) by targeting cefotaxime-resistant (CTX-R) coliforms as indicators. The rationale for this approach was: i) coliform quantification methods are internationally accepted as indicators of fecal contamination in recreational waters and are therefore routinely applied in analytical labs; ii) CTX-R coliforms are clinically relevant, associated with extended-spectrum ?-lactamases (ESBLs), and are rare in pristine environments. We analyzed 57 WWTPs in 22 countries across Europe, Asia, Africa, Australia, and North America. CTX-R coliforms were ubiquitous in raw sewage and their relative abundance varied significantly (< 0.1% to 38.3%), being positively correlated (p < 0.001) with regional atmospheric temperatures. Although most WWTPs removed large proportions of CTX-R coliforms, loads over 103 colony-forming units per mL were occasionally observed in final effluents. We demonstrate that CTX-R coliform monitoring is a feasible and affordable approach to assess wastewater antibiotic resistance status

Tackling antibiotic resistance: the environmental framework

Antibiotic resistance is a threat to human and animal health worldwide, and key measures are required to reduce the risks posed by antibiotic resistance genes that occur in the environment. These measures include the identification of critical points of control, the development of reliable surveillance and risk assessment procedures, and the implementation of technological solutions that can prevent environmental contamination with antibiotic resistant bacteria and genes. In this Opinion article, we discuss the main knowledge gaps, the future research needs and the policy and management options that should be prioritized to tackle antibiotic resistance in the environment

Wechselwirkung von physikalischen, chemischen und biotischen Prozessen in aquatischen Systemen : Auswirkungen in Vorflutern mit unterschiedlichem Abwassereinfluss

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Summenparameter in der Abwassertechnik - Eine kritische Betrachtung

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Wechselwirkung Kläranlage - Gewässer

Ausgehend von der Diskussion um zentrale und dezentrale Lösungsansätze für die Abwasserentsorgung im ländlichen Raum soll der Versuch einer Skizzierung der Wechselwirkung zwischen Abwasserreinigungsanlage und Gewässer unternommen werden. Dabei soll unabhängig von einem spezifischen Konzept der Abwasserreinigung ein genereller Rückkoppelungsmechanismus aufgezeigt werden, der von einer Großkläranlage bis hin zur Kleinstkläranlage gleichermaßen gültig ist. Die einzelnen Punkte dieser Wechselwirkung werden besprochen und anhand von Beispielen veranschaulicht. Das System „Abwasserreinigungsanlage“ wird in die Faktoren Planung - realisiertes Projekt, Betrieb, Ablaufqualität und Ablaufquantität unterteilt. Die Untergliederung des Systems „Gewässer“ beschränkt sich auf die für die Bewilligung und Planung relevanten Faktoren Wassermenge, Immission und ökologische Funktionsfähigkeit. Diese Faktoren werden in eine Beziehung zueinander gebracht.1303393743

4. Reinigungsstufe auf Kläranlagen zur weitergehenden Behandlung kommunaler Abwässer

Über die letzten Jahre entwickelten sich die Überlegungen zu einer über den derzeitigen Stand der Technik hinausgehenden Abwasserreinigung von reinen forschungsorientierten Ansätzen hin zu einer großtechnischen Implementierung, sodass es heute für die unterschiedlichen verfahrenstechnischen Varianten einer weitergehenden Abwasserreinigung zur Entfernung von organischen Spurenstoffe bereits großtechnische Umsetzungen gibt. Vor allem in der Schweiz hat aufgrund der gesetzlichen Rahmenbedingungen die Umsetzung einer 4. Reinigungsstufe bereits begonnen, wenngleich auch noch eine Reihe von Detailfragestellungen für eine technische Implementierung offen ist. Dieser Beitrag fasst die heute anerkannten Optionen für Verfahren zur weitergehenden Abwasserreinigung zusammen und ergänzt sie durch Erkenntnisse aus einem vom BMLFUW geförderten nationalen Forschungsprojekt „KomOzAk“, das dazu beiträgt, die Umsetzung einer 4. Reinigungsstufe technisch und betrieblich zu optimieren.Over the last years, considerations for an implementation of advanced treatment steps for the removal of organic trace pollutants shifted from a rather research oriented approach focusing on the removal potential of considered technologies towards a full-scale implementation. As an according legislation is put into place, especially in Switzerland full-scale units comprising different technologies and combinations of technologies already are realized and in place. This paper gives an overview on treatment technologies that proved to be suitable for tackling the topic of further removal of organic trace pollutants from municipal wastewater. This overview is supplemented by results of an Austrian research project looking into details on technical and operational optimization of ozonation and activated carbon application.Bundesministeriums für Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft340345