Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Anna Jaeger
  • Claudia Coll
  • Malte Posselt
  • Jonas Mechelke
  • Cyrus Rutere
  • Andrea Betterle
  • Muhammad Raza
  • Anne Mehrtens
  • Karin Meinikmann
  • Andrea Portmann
  • Tanu Singh
  • Phillip J. Blaen
  • Stefan Krause
  • Marcus Andreas Horn
  • Juliane Hollender
  • Jonathan P Benskin
  • Anna Sobek
  • Jörg Lewandowski

Organisationseinheiten

Externe Organisationen

  • Humboldt-Universität zu Berlin (HU Berlin)
  • Stockholm University
  • Swiss Federal Institute of Aquatic Science and Technology (Eawag)
  • ETH Zürich
  • Universität Bayreuth
  • Università degli Studi di Padova
  • Technische Universität Darmstadt
  • IWW Rheinisch-Westfälisches Institut für Wasserforschung gemeinnützige GmbH
  • Carl von Ossietzky Universität Oldenburg
  • Colorado School of Mines (CSM)
  • University of Birmingham
  • Leibniz-Institut für Gewässerökologie und Binnenfischerei (IGB)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)2093-2108
Seitenumfang16
FachzeitschriftEnvironmental science. Processes & impacts
Jahrgang21
Ausgabenummer12
Frühes Online-Datum17 Okt. 2019
PublikationsstatusVeröffentlicht - 1 Dez. 2019

Abstract

Enhancing the understanding of the fate of wastewater-derived organic micropollutants in rivers is crucial to improve risk assessment, regulatory decision making and river management. Hyporheic exchange and sediment bacterial diversity are two factors gaining increasing importance as drivers for micropollutant degradation, but are complex to study in field experiments and usually ignored in laboratory tests aimed to estimate environmental half-lives. Flume mesocosms are useful to investigate micropollutant degradation processes, bridging the gap between the field and batch experiments. However, few studies have used flumes in this context. We present a novel experimental setup using 20 recirculating flumes and a response surface model to study the influence of hyporheic exchange and sediment bacterial diversity on half-lives of the anti-epileptic drug carbamazepine (CBZ) and the artificial sweetener acesulfame (ACS). The effect of bedform-induced hyporheic exchange was tested by three treatment levels differing in number of bedforms (0, 3 and 6). Three levels of sediment bacterial diversity were obtained by diluting sediment from the River Erpe in Berlin, Germany, with sand (1 : 10, 1 : 1000 and 1 : 100 000). Our results show that ACS half-lives were significantly influenced by sediment dilution and number of bedforms. Half-lives of CBZ were higher than ACS, and were significantly affected only by the sediment dilution variable, and thus by bacterial diversity. Our results show that (1) the flume-setup is a useful tool to study the fate of micropollutants in rivers, and that (2) higher hyporheic exchange and bacterial diversity in the sediment can increase the degradation of micropollutants in rivers.

ASJC Scopus Sachgebiete

Ziele für nachhaltige Entwicklung

Zitieren

Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives. / Jaeger, Anna; Coll, Claudia; Posselt, Malte et al.
in: Environmental science. Processes & impacts, Jahrgang 21, Nr. 12, 01.12.2019, S. 2093-2108.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Jaeger, A, Coll, C, Posselt, M, Mechelke, J, Rutere, C, Betterle, A, Raza, M, Mehrtens, A, Meinikmann, K, Portmann, A, Singh, T, Blaen, PJ, Krause, S, Horn, MA, Hollender, J, Benskin, JP, Sobek, A & Lewandowski, J 2019, 'Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives', Environmental science. Processes & impacts, Jg. 21, Nr. 12, S. 2093-2108. https://doi.org/10.1039/c9em00327d, https://doi.org/10.15488/11166
Jaeger, A., Coll, C., Posselt, M., Mechelke, J., Rutere, C., Betterle, A., Raza, M., Mehrtens, A., Meinikmann, K., Portmann, A., Singh, T., Blaen, P. J., Krause, S., Horn, M. A., Hollender, J., Benskin, J. P., Sobek, A., & Lewandowski, J. (2019). Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives. Environmental science. Processes & impacts, 21(12), 2093-2108. https://doi.org/10.1039/c9em00327d, https://doi.org/10.15488/11166
Jaeger A, Coll C, Posselt M, Mechelke J, Rutere C, Betterle A et al. Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives. Environmental science. Processes & impacts. 2019 Dez 1;21(12):2093-2108. Epub 2019 Okt 17. doi: 10.1039/c9em00327d, 10.15488/11166
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title = "Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives",
abstract = "Enhancing the understanding of the fate of wastewater-derived organic micropollutants in rivers is crucial to improve risk assessment, regulatory decision making and river management. Hyporheic exchange and sediment bacterial diversity are two factors gaining increasing importance as drivers for micropollutant degradation, but are complex to study in field experiments and usually ignored in laboratory tests aimed to estimate environmental half-lives. Flume mesocosms are useful to investigate micropollutant degradation processes, bridging the gap between the field and batch experiments. However, few studies have used flumes in this context. We present a novel experimental setup using 20 recirculating flumes and a response surface model to study the influence of hyporheic exchange and sediment bacterial diversity on half-lives of the anti-epileptic drug carbamazepine (CBZ) and the artificial sweetener acesulfame (ACS). The effect of bedform-induced hyporheic exchange was tested by three treatment levels differing in number of bedforms (0, 3 and 6). Three levels of sediment bacterial diversity were obtained by diluting sediment from the River Erpe in Berlin, Germany, with sand (1 : 10, 1 : 1000 and 1 : 100 000). Our results show that ACS half-lives were significantly influenced by sediment dilution and number of bedforms. Half-lives of CBZ were higher than ACS, and were significantly affected only by the sediment dilution variable, and thus by bacterial diversity. Our results show that (1) the flume-setup is a useful tool to study the fate of micropollutants in rivers, and that (2) higher hyporheic exchange and bacterial diversity in the sediment can increase the degradation of micropollutants in rivers.",
author = "Anna Jaeger and Claudia Coll and Malte Posselt and Jonas Mechelke and Cyrus Rutere and Andrea Betterle and Muhammad Raza and Anne Mehrtens and Karin Meinikmann and Andrea Portmann and Tanu Singh and Blaen, {Phillip J.} and Stefan Krause and Horn, {Marcus Andreas} and Juliane Hollender and Benskin, {Jonathan P} and Anna Sobek and J{\"o}rg Lewandowski",
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T1 - Using recirculating flumes and a response surface model to investigate the role of hyporheic exchange and bacterial diversity on micropollutant half-lives

AU - Jaeger, Anna

AU - Coll, Claudia

AU - Posselt, Malte

AU - Mechelke, Jonas

AU - Rutere, Cyrus

AU - Betterle, Andrea

AU - Raza, Muhammad

AU - Mehrtens, Anne

AU - Meinikmann, Karin

AU - Portmann, Andrea

AU - Singh, Tanu

AU - Blaen, Phillip J.

AU - Krause, Stefan

AU - Horn, Marcus Andreas

AU - Hollender, Juliane

AU - Benskin, Jonathan P

AU - Sobek, Anna

AU - Lewandowski, Jörg

N1 - Funding Information: The work has received funding from the European Union's Horizon 2020 research and innovation programme under Marie Sklodowska-Curie grant agreement No. 641939 and additionally from the Research Training Group ‘Urban Water Interfaces (UWI)’ (GRK 2032/1) funded by the German Research Foundation (DFG). We thank Ignacio Peralta-Maraver, Sheelajini Para-mjothy, Jason Galloway, Grit Siegert, Torsten Preuer and Christine Sturm for their support in the experimental work.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Enhancing the understanding of the fate of wastewater-derived organic micropollutants in rivers is crucial to improve risk assessment, regulatory decision making and river management. Hyporheic exchange and sediment bacterial diversity are two factors gaining increasing importance as drivers for micropollutant degradation, but are complex to study in field experiments and usually ignored in laboratory tests aimed to estimate environmental half-lives. Flume mesocosms are useful to investigate micropollutant degradation processes, bridging the gap between the field and batch experiments. However, few studies have used flumes in this context. We present a novel experimental setup using 20 recirculating flumes and a response surface model to study the influence of hyporheic exchange and sediment bacterial diversity on half-lives of the anti-epileptic drug carbamazepine (CBZ) and the artificial sweetener acesulfame (ACS). The effect of bedform-induced hyporheic exchange was tested by three treatment levels differing in number of bedforms (0, 3 and 6). Three levels of sediment bacterial diversity were obtained by diluting sediment from the River Erpe in Berlin, Germany, with sand (1 : 10, 1 : 1000 and 1 : 100 000). Our results show that ACS half-lives were significantly influenced by sediment dilution and number of bedforms. Half-lives of CBZ were higher than ACS, and were significantly affected only by the sediment dilution variable, and thus by bacterial diversity. Our results show that (1) the flume-setup is a useful tool to study the fate of micropollutants in rivers, and that (2) higher hyporheic exchange and bacterial diversity in the sediment can increase the degradation of micropollutants in rivers.

AB - Enhancing the understanding of the fate of wastewater-derived organic micropollutants in rivers is crucial to improve risk assessment, regulatory decision making and river management. Hyporheic exchange and sediment bacterial diversity are two factors gaining increasing importance as drivers for micropollutant degradation, but are complex to study in field experiments and usually ignored in laboratory tests aimed to estimate environmental half-lives. Flume mesocosms are useful to investigate micropollutant degradation processes, bridging the gap between the field and batch experiments. However, few studies have used flumes in this context. We present a novel experimental setup using 20 recirculating flumes and a response surface model to study the influence of hyporheic exchange and sediment bacterial diversity on half-lives of the anti-epileptic drug carbamazepine (CBZ) and the artificial sweetener acesulfame (ACS). The effect of bedform-induced hyporheic exchange was tested by three treatment levels differing in number of bedforms (0, 3 and 6). Three levels of sediment bacterial diversity were obtained by diluting sediment from the River Erpe in Berlin, Germany, with sand (1 : 10, 1 : 1000 and 1 : 100 000). Our results show that ACS half-lives were significantly influenced by sediment dilution and number of bedforms. Half-lives of CBZ were higher than ACS, and were significantly affected only by the sediment dilution variable, and thus by bacterial diversity. Our results show that (1) the flume-setup is a useful tool to study the fate of micropollutants in rivers, and that (2) higher hyporheic exchange and bacterial diversity in the sediment can increase the degradation of micropollutants in rivers.

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