A reconnaissance survey of channel bank particulate phosphorus concentrations, controls and estimated contributions to riverine loads across England

Simon Pulley; Yusheng Zhang; Ruth Copeland-Phillips; Atish N Vadher; Ian D L Foster; John Boardman; Adrian L Collins

doi:10.1002/hyp.14785

A reconnaissance survey of channel bank particulate phosphorus concentrations, controls and estimated contributions to riverine loads across England

Hydrol Process. 2022 Dec;36(12):e14785. doi: 10.1002/hyp.14785. Epub 2022 Dec 26.

Authors

Simon Pulley¹, Yusheng Zhang¹, Ruth Copeland-Phillips², Atish N Vadher², Ian D L Foster^{2

3}, John Boardman^{4

5}, Adrian L Collins¹

Affiliations

¹ Net Zero and Resilient Farming Rothamsted Research Okehampton UK.
² Faculty of Arts, Science & Technology University of Northampton Northampton UK.
³ Department of Geography Rhodes University Makhanda (Grahamstown) South Africa.
⁴ School of Geography and the Environment University of Oxford Oxford UK.
⁵ Department of Geography University of the Free State Bloemfontein South Africa.

Abstract

Channel banks can contribute a significant proportion of fine-grained (<63 μm) sediment to rivers, thereby also contributing to riverine total particulate phosphorus loads. Improving water quality through better agricultural practices alone can be difficult since the contributions from non-agricultural sources, including channel banks, can generate a 'spatial mismatch' between the efficacy of best management applied on farms and the likelihood of meeting environmental objectives. Our study undertook a reconnaissance survey (n = 76 sites each with 3 profiles sampled) to determine the total phosphorus (TP) concentrations of channel banks across England and to determine if TP content can be predicted using readily accessible secondary data. TP concentrations in adjacent field topsoils, local soil soil type/texture and geological parent material were examined as potential predictors of bank TP. Carbon and nitrogen content were also analysed to explore the impacts of organic matter content on measured TP concentrations. The results suggest that channel bank TP concentrations are primarily controlled by parent material rather than P additions to adjacent topsoils through fertilizer and organic matter inputs, but significant local variability in concentrations prevents the prediction of bank TP content using mapped soil type or geology. A median TP concentration of 873 mg kg^-1 was calculated for the middle section of the sampled channel bank profiles, with a 25th percentile of 675 mg kg^-1, and 75th percentile of 1159 mg kg^-1. Using these concentrations and, in comparison with previously published estimates, the estimated number of inland WFD waterbodies in England for which channel bank erosion contributes >20% of the riverine total PP load increased from 15 to 25 (corresponding range of 17-35 using the 25th and 75th percentiles of measured TP concentrations). Collectively, these 25 waterbodies account for 0.2% of the total inland WFD waterbody area comprising England.

Keywords: catchment management; channel banks; phosphorus; sediment source.

Abstract

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