Assessing the role of the “estuarine filter” for emerging contaminants: pharmaceuticals, perfluoroalkyl compounds and plasticisers in sediment cores from two contrasting systems in the southern U.K.
Assessing the role of the “estuarine filter” for emerging contaminants: pharmaceuticals, perfluoroalkyl compounds and plasticisers in sediment cores from two contrasting systems in the southern U.K.
The environmental occurrence, fate and ecotoxicity of emerging contaminants (ECs) has been the subject of increasing research, policy and public concern over the past two decades. While a wide range of publications have examined the environmental persistence and sediment/soil interactions of ECs following their discharge into aquatic environments, the extent to which ECs are sequestered in estuarine sediments, and the impact of this on their environmental persistence and supply to the ocean, in comparison remains unclear. This Article examines the environmental concentrations of seven, relatively water-soluble and environmentally mobile, ECs (including pharmaceuticals, perfluoroalkyl compounds, and plasticisers) in dated intertidal saltmarsh cores from two contrasting estuarine sites in the southern U.K. (one heavily urbanised/industrial, the other non-urbanised). Mean sediment EC concentrations are similar in both estuarine systems (in the range 0.1 (acetaminophen) to 17 (4-hydroxyacetophenone) ng/g dry weight). Despite their variable reported Log Kow values (from ca. 0.5 to > 7), the ECs are all apparently mobile in the marsh systems studied, and where subsurface concentration maxima are present these most likely relate to local flushing or diffusive processes and cannot be clearly linked to likely input trends or changes in sediment geochemistry (including sedimentary organic carbon content). The “estuarine filter” here, at least with respect to intertidal saltmarsh sediments, shows reduced potential to sequester the seven ECs examined and mediate their supply to coastal and shelf environments.
Emerging contaminants, Estuary, Perfluorinated compounds, Pharmaceuticals, Plasticisers, Saltmarsh
1-11
Celis-hernandez, Omar
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Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Croudace, Ian W.
24deb068-d096-485e-8a23-a32b7a68afaf
Ward, Raymond D.
e5178c4b-a07b-4df7-89fd-3312426a37d1
Busquets, Rosa
d3f8511d-c34e-4bf7-956c-19e4c1c5949f
Wilkinson, John L.
3b91a935-2e5c-41e6-8971-beeee5f1e0e2
1 February 2021
Celis-hernandez, Omar
4f213650-9ea6-420b-82bf-14200795d767
Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Croudace, Ian W.
24deb068-d096-485e-8a23-a32b7a68afaf
Ward, Raymond D.
e5178c4b-a07b-4df7-89fd-3312426a37d1
Busquets, Rosa
d3f8511d-c34e-4bf7-956c-19e4c1c5949f
Wilkinson, John L.
3b91a935-2e5c-41e6-8971-beeee5f1e0e2
Celis-hernandez, Omar, Cundy, Andrew B., Croudace, Ian W., Ward, Raymond D., Busquets, Rosa and Wilkinson, John L.
(2021)
Assessing the role of the “estuarine filter” for emerging contaminants: pharmaceuticals, perfluoroalkyl compounds and plasticisers in sediment cores from two contrasting systems in the southern U.K.
Water Research, 189, , [116610].
(doi:10.1016/j.watres.2020.116610).
Abstract
The environmental occurrence, fate and ecotoxicity of emerging contaminants (ECs) has been the subject of increasing research, policy and public concern over the past two decades. While a wide range of publications have examined the environmental persistence and sediment/soil interactions of ECs following their discharge into aquatic environments, the extent to which ECs are sequestered in estuarine sediments, and the impact of this on their environmental persistence and supply to the ocean, in comparison remains unclear. This Article examines the environmental concentrations of seven, relatively water-soluble and environmentally mobile, ECs (including pharmaceuticals, perfluoroalkyl compounds, and plasticisers) in dated intertidal saltmarsh cores from two contrasting estuarine sites in the southern U.K. (one heavily urbanised/industrial, the other non-urbanised). Mean sediment EC concentrations are similar in both estuarine systems (in the range 0.1 (acetaminophen) to 17 (4-hydroxyacetophenone) ng/g dry weight). Despite their variable reported Log Kow values (from ca. 0.5 to > 7), the ECs are all apparently mobile in the marsh systems studied, and where subsurface concentration maxima are present these most likely relate to local flushing or diffusive processes and cannot be clearly linked to likely input trends or changes in sediment geochemistry (including sedimentary organic carbon content). The “estuarine filter” here, at least with respect to intertidal saltmarsh sediments, shows reduced potential to sequester the seven ECs examined and mediate their supply to coastal and shelf environments.
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Revised MS cleaned final Water Research
- Accepted Manuscript
Text
Supporting Info inc Table S1 to S5 final Water Research
- Accepted Manuscript
More information
Accepted/In Press date: 5 November 2020
e-pub ahead of print date: 12 November 2020
Published date: 1 February 2021
Additional Information:
Funding Information:
OCH is grateful to the Consejo Nacional de Ciencia y Tecnologia (CONACYT), Mexico for funding through the scholarship program (No 209683), and to the Universities of Southampton and Brighton for hosting the Fellowship under which this work was undertaken. RB acknowledges GCRF-UKRI funding received from Kingston University.
Publisher Copyright:
© 2020 Elsevier Ltd
Keywords:
Emerging contaminants, Estuary, Perfluorinated compounds, Pharmaceuticals, Plasticisers, Saltmarsh
Identifiers
Local EPrints ID: 445589
URI: http://eprints.soton.ac.uk/id/eprint/445589
ISSN: 0043-1354
PURE UUID: 9894e15b-cc97-4308-96ca-f9eb19be4551
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Date deposited: 16 Dec 2020 18:14
Last modified: 17 Mar 2024 06:11
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Contributors
Author:
Omar Celis-hernandez
Author:
Raymond D. Ward
Author:
Rosa Busquets
Author:
John L. Wilkinson
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