Dissipation of Micropollutants in a Rewetted Fen Peatland: A Field Study Using Treated Wastewater

In the present study, a mixture of treated wastewater and surface water was used to rewet a degraded fen peatland site during a three-year rewetting experiment. We studied the behavior and effects of micropollutants by means of hydrological, physico-chemical, microbiological and ecotoxicological mon...

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Veröffentlicht in:	Water (Basel) 2017-06, Vol.9 (6), p.449
Hauptverfasser:	Maassen, Sebastian, Richter, Elisabeth, Coors, Anja, Guimarães, Bruno, Balla, Dagmar
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Arsenic Benzotriazole Carbamazepine Decay Diclofenac Dilution Environmental monitoring Evapotranspiration Field study Groundwater Groundwater treatment Hydrology Metabolites Microorganisms Micropollutants Organic chemistry Oxazepam Peat Peat-bogs Peatlands Photolysis Primidone Purification Receiving waters Sewage Soil testing Soil water Soils Surface water Wastewater Wastewater treatment Water Water treatment
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description	In the present study, a mixture of treated wastewater and surface water was used to rewet a degraded fen peatland site during a three-year rewetting experiment. We studied the behavior and effects of micropollutants by means of hydrological, physico-chemical, microbiological and ecotoxicological monitoring. The highest concentrations of micropollutants in the treated wastewater were found for the pharmaceuticals carbamazepine and diclofenac, some metabolites, the sweetener acesulfame, tolyl- and benzotriazole and diatrizoate. In the underlying, shallow groundwater where treated wastewater application for rewetting had been expected to have the greatest impact due to seeping and evapotranspiration processes, only a sporadic occurrence of micropollutants was found. The influence of dilution by groundwater movements was examined by applying a geohydrological model. The sorption of micropollutants onto the peaty soil also played a role, as found for carbamazepine. Further processes such as photolysis, microbial decay under low redox conditions and plant uptake can be assumed to be relevant for the removal of many substances. Ecotoxicity tests with the soil before and after rewetting did not indicate any negative impact on the soil habitat quality by wastewater application, but clearly pointed at ecotoxicologically relevant geogenic arsenic concentrations at the study site. Although a positive effect on receiving surface water systems is expected if wastewater is applied on land instead of discharged to water bodies, the rewetted soil may turn into a sink for micropollutants in the long term. Hence, the findings of the present field study encourage further investigations in order to identify the governing processes in the elimination of micropollutants in rewetted peatlands flooded with treated wastewater.
doi_str_mv	10.3390/w9060449
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Ecotoxicity tests with the soil before and after rewetting did not indicate any negative impact on the soil habitat quality by wastewater application, but clearly pointed at ecotoxicologically relevant geogenic arsenic concentrations at the study site. Although a positive effect on receiving surface water systems is expected if wastewater is applied on land instead of discharged to water bodies, the rewetted soil may turn into a sink for micropollutants in the long term. Hence, the findings of the present field study encourage further investigations in order to identify the governing processes in the elimination of micropollutants in rewetted peatlands flooded with treated wastewater.</description><identifier>ISSN: 2073-4441</identifier><identifier>EISSN: 2073-4441</identifier><identifier>DOI: 10.3390/w9060449</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Analysis ; Arsenic ; Benzotriazole ; Carbamazepine ; Decay ; Diclofenac ; Dilution ; Environmental monitoring ; Evapotranspiration ; Field study ; Groundwater ; Groundwater treatment ; Hydrology ; Metabolites ; Microorganisms ; Micropollutants ; Organic chemistry ; Oxazepam ; Peat ; Peat-bogs ; Peatlands ; Photolysis ; Primidone ; Purification ; Receiving waters ; Sewage ; Soil testing ; Soil water ; Soils ; Surface water ; Wastewater ; Wastewater treatment ; Water ; Water treatment</subject><ispartof>Water (Basel), 2017-06, Vol.9 (6), p.449</ispartof><rights>COPYRIGHT 2017 MDPI AG</rights><rights>2017. 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Ecotoxicity tests with the soil before and after rewetting did not indicate any negative impact on the soil habitat quality by wastewater application, but clearly pointed at ecotoxicologically relevant geogenic arsenic concentrations at the study site. Although a positive effect on receiving surface water systems is expected if wastewater is applied on land instead of discharged to water bodies, the rewetted soil may turn into a sink for micropollutants in the long term. 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We studied the behavior and effects of micropollutants by means of hydrological, physico-chemical, microbiological and ecotoxicological monitoring. The highest concentrations of micropollutants in the treated wastewater were found for the pharmaceuticals carbamazepine and diclofenac, some metabolites, the sweetener acesulfame, tolyl- and benzotriazole and diatrizoate. In the underlying, shallow groundwater where treated wastewater application for rewetting had been expected to have the greatest impact due to seeping and evapotranspiration processes, only a sporadic occurrence of micropollutants was found. The influence of dilution by groundwater movements was examined by applying a geohydrological model. The sorption of micropollutants onto the peaty soil also played a role, as found for carbamazepine. Further processes such as photolysis, microbial decay under low redox conditions and plant uptake can be assumed to be relevant for the removal of many substances. 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subjects	Analysis Arsenic Benzotriazole Carbamazepine Decay Diclofenac Dilution Environmental monitoring Evapotranspiration Field study Groundwater Groundwater treatment Hydrology Metabolites Microorganisms Micropollutants Organic chemistry Oxazepam Peat Peat-bogs Peatlands Photolysis Primidone Purification Receiving waters Sewage Soil testing Soil water Soils Surface water Wastewater Wastewater treatment Water Water treatment
title	Dissipation of Micropollutants in a Rewetted Fen Peatland: A Field Study Using Treated Wastewater
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