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Nature-based solutions enhance sediment and nutrient storage in an agricultural lowland catchment

Nature-based solutions enhance sediment and nutrient storage in an agricultural lowland catchment
Nature-based solutions enhance sediment and nutrient storage in an agricultural lowland catchment
In this paper, nature-based solutions (NBS) include: (1) natural flood management (NFM) interventions with a primary function of flood risk reduction but with additional multiple benefits for water quality improvements through the mitigation of diffuse pollution; and (2) ponds with a primary function of water quality improvement. This study assesses the ability of these NBS to trap pollutants in run-off within two small (3.4 km2) agricultural catchments (Upper Thames, UK). The masses of sediment, phosphorus, and organic carbon trapped by 14 features (since construction 2–3 years previously) were quantified through sediment surveying and sampling. Streamflow and suspended sediment monitoring downstream of features enabled catchment yields to be calculated. The features trapped a total of 83 t sediment, 122 kg phosphorus, and 4.3 t organic carbon. Although the footprint of the features was <1% of the catchment area, they drained 44% of the total land area and captured the equivalent of 15% of the total suspended sediment yield, 10% of the total phosphorus yield, and 8% of the particulate organic carbon yield as monitored at the catchment outlet over the monitoring period. Results reveal that accumulation rates were influenced by hydrological connectivity, with greater accumulation in features constructed directly on streams (online ponds), and those offline features that filled from overbank flows. The low to moderate accumulation rates observed in offline features suggests that their floodwater storage potential is only likely to significantly reduce in the medium term, necessitating maintenance after ~10 years. Compared with topsoil in each contributing area, trapped sediment was enriched in phosphorus and carbon in the majority of features, having on average 50% higher phosphorus and 17% higher organic carbon concentrations than surrounding arable soils, highlighting its potential value for redistribution on farmland. Monitoring results demonstrate the potential of NBS, including NFM, to mitigate diffuse pollution in lowland catchments.
catchment management, diffuse agricultural pollution, fine sediment, multiple benefits, natural flood management, organic carbon, phosphorus, soil erosion, water quality, working with natural processes
0197-9337
Robotham, John Nicholas Peter
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Old, Gareth
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Rameshwaran, Ponnambalam
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Sear, David
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Trill, Emily
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Bishop, James
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Gasca-Tucker, David
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Old, Joanne
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McKnight, David
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Robotham, John Nicholas Peter
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Old, Gareth
397059a3-8a29-4c33-85db-0cc52f8dd991
Rameshwaran, Ponnambalam
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Sear, David
ccd892ab-a93d-4073-a11c-b8bca42ecfd3
Trill, Emily
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Bishop, James
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Gasca-Tucker, David
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Old, Joanne
745bdcdb-4248-40d5-ace0-75f8a4f9a914
McKnight, David
59962b42-95a0-4f66-8de9-70acd57e33e9

Robotham, John Nicholas Peter, Old, Gareth, Rameshwaran, Ponnambalam, Sear, David, Trill, Emily, Bishop, James, Gasca-Tucker, David, Old, Joanne and McKnight, David (2022) Nature-based solutions enhance sediment and nutrient storage in an agricultural lowland catchment. Earth Surface Processes and Landforms. (doi:10.1002/esp.5483).

Record type: Article

Abstract

In this paper, nature-based solutions (NBS) include: (1) natural flood management (NFM) interventions with a primary function of flood risk reduction but with additional multiple benefits for water quality improvements through the mitigation of diffuse pollution; and (2) ponds with a primary function of water quality improvement. This study assesses the ability of these NBS to trap pollutants in run-off within two small (3.4 km2) agricultural catchments (Upper Thames, UK). The masses of sediment, phosphorus, and organic carbon trapped by 14 features (since construction 2–3 years previously) were quantified through sediment surveying and sampling. Streamflow and suspended sediment monitoring downstream of features enabled catchment yields to be calculated. The features trapped a total of 83 t sediment, 122 kg phosphorus, and 4.3 t organic carbon. Although the footprint of the features was <1% of the catchment area, they drained 44% of the total land area and captured the equivalent of 15% of the total suspended sediment yield, 10% of the total phosphorus yield, and 8% of the particulate organic carbon yield as monitored at the catchment outlet over the monitoring period. Results reveal that accumulation rates were influenced by hydrological connectivity, with greater accumulation in features constructed directly on streams (online ponds), and those offline features that filled from overbank flows. The low to moderate accumulation rates observed in offline features suggests that their floodwater storage potential is only likely to significantly reduce in the medium term, necessitating maintenance after ~10 years. Compared with topsoil in each contributing area, trapped sediment was enriched in phosphorus and carbon in the majority of features, having on average 50% higher phosphorus and 17% higher organic carbon concentrations than surrounding arable soils, highlighting its potential value for redistribution on farmland. Monitoring results demonstrate the potential of NBS, including NFM, to mitigate diffuse pollution in lowland catchments.

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e-pub ahead of print date: 30 September 2022
Additional Information: Funding Information: This research was funded by the Natural Environment Research Council, grant number NE/L002531/1. Thank you to Claire Shelton for fieldwork assistance surveying storage features. The support of Thames Water (Helena Soteriou) as a CASE partner of this project and in providing access to Smarter Water Catchments water quality sonde data is much appreciated. We are grateful to the Evenlode Catchment Partnership for their support, particularly Wild Oxfordshire (Ann Berkeley) and the Environment Agency. Thank you to the Astor family and farm manager Matt Childs for allowing us to undertake this research on the Bruern Estate and to use his drone imagery. We are grateful to the reviewers who provided valuable feedback on the original manuscript. Publisher Copyright: © 2022 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd.
Keywords: catchment management, diffuse agricultural pollution, fine sediment, multiple benefits, natural flood management, organic carbon, phosphorus, soil erosion, water quality, working with natural processes

Identifiers

Local EPrints ID: 471597
URI: http://eprints.soton.ac.uk/id/eprint/471597
ISSN: 0197-9337
PURE UUID: 95752ba1-49c2-48ad-826c-e41840089595
ORCID for John Nicholas Peter Robotham: ORCID iD orcid.org/0000-0002-1223-8345
ORCID for David Sear: ORCID iD orcid.org/0000-0003-0191-6179

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Date deposited: 14 Nov 2022 17:55
Last modified: 17 Mar 2024 03:53

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Contributors

Author: Gareth Old
Author: Ponnambalam Rameshwaran
Author: David Sear ORCID iD
Author: Emily Trill
Author: James Bishop
Author: David Gasca-Tucker
Author: Joanne Old
Author: David McKnight

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