National-scale surveillance of emerging SARS-CoV-2 variants in wastewater

Fabian Amman; Rudolf Markt; Lukas Endler; Sebastian Hupfauf; Benedikt Agerer; Anna Schedl; Lukas Richter; Melanie Zechmeister; Martin Bicher; Georg Heiler; Petr Tříska; Matthew Thornton; Thomas Penz; Martin Senekowitsch; Jan Laine; Zsofia Keszei; Beatrice Daleiden; Martin Steinlechner; Harald Niederstätter; Christoph Scheffknecht; Gunther Vogl; Günther Weichlinger; Andreas Otto Wagner; Katarzyna Ślipko; Amandine Masseron; Elena Radu; Franz Allerberger; Niki Popper; Christoph Bock; Daniela Schmid; Herbert Oberacher; Norbert Kreuzinger; Heribert Insam; Andreas Bergthaler

doi:10.1101/2022.01.14.21267633

National-scale surveillance of emerging SARS-CoV-2 variants in wastewater

Fabian Amman(Austrian Academy of Sciences), Rudolf Markt(Universität Innsbruck), Lukas Endler(Austrian Academy of Sciences), Sebastian Hupfauf(Universität Innsbruck), Benedikt Agerer(Austrian Academy of Sciences), Anna Schedl(Austrian Academy of Sciences), Lukas Richter(Austrian Agency for Health and Food Safety), Melanie Zechmeister, Martin Bicher(TU Wien), Georg Heiler(TU Wien), Petr Tříska(Austrian Academy of Sciences), Matthew Thornton(Austrian Academy of Sciences), Thomas Penz(Austrian Academy of Sciences), Martin Senekowitsch(Austrian Academy of Sciences), Jan Laine(Austrian Academy of Sciences), Zsofia Keszei(Austrian Academy of Sciences), Beatrice Daleiden(Innsbruck Medical University), Martin Steinlechner(Innsbruck Medical University), Harald Niederstätter(Innsbruck Medical University), Christoph Scheffknecht(Amt für Umwelt), Gunther Vogl(Bayerisches Landesamt für Gesundheit und Lebensmittelsicherheit), Günther Weichlinger(Klinikum Klagenfurt), Andreas Otto Wagner(Universität Innsbruck), Katarzyna Ślipko(TU Wien), Amandine Masseron(TU Wien), Elena Radu(TU Wien), Franz Allerberger(Austrian Agency for Health and Food Safety), Niki Popper(TU Wien), Christoph Bock(Austrian Academy of Sciences), Daniela Schmid(Austrian Agency for Health and Food Safety), Herbert Oberacher(Innsbruck Medical University), Norbert Kreuzinger(TU Wien), Heribert Insam(Universität Innsbruck), Andreas Bergthaler(Austrian Academy of Sciences)

medRxiv

January 14, 2022

10.1101/2022.01.14.21267633

Cited by 10Open Access

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Abstract

Abstract SARS-CoV-2 surveillance is crucial to identify variants with altered epidemiological properties. Wastewater-based epidemiology (WBE) provides an unbiased and complementary approach to sequencing individual cases. Yet, national WBE surveillance programs have not been widely implemented and data analyses remain challenging. We deep-sequenced 2,093 wastewater samples representing 95 municipal catchments, covering >57% of Austria’s population, from December 2020 to September 2021. Our Va riant Qu antification in S e wage pipeline designed for Ro bustness ( VaQuERo ) enabled us to deduce variant abundance from complex wastewater samples and delineate the spatiotemporal dynamics of the dominant Alpha and Delta variants as well as regional clusters of other variants of concern. These results were cross validated by epidemiological records of >130,000 individual cases. Finally, we provide a framework to predict emerging variants de novo and infer variant-specific reproduction numbers from wastewater. This study demonstrates the power of national-scale WBE to support public health and promises particular value for countries without dense individual monitoring. Graphical Abstract

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