Sewage-effluent phosphorus: A greater risk to river eutrophication than agricultural phosphorous?
Jarvie, Helen P. ORCID: https://orcid.org/0000-0002-4984-1607; Neal, Colin; Withers, Paul J. A.. 2006 Sewage-effluent phosphorus: A greater risk to river eutrophication than agricultural phosphorous? Science of the Total Environment, 360 (1-3). 246-253. https://doi.org/10.1016/j.scitotenv.2005.08.038
Full text not available from this repository.Abstract/Summary
Phosphorus (P) concentrations from water quality monitoring at 54 UK river sites across seven major lowland catchment systems are examined in relation to eutrophication risk and to the relative importance of point and diffuse sources. The over-riding evidence indicates that point (effluent) rather than diffuse (agricultural) sources of phosphorus provide the most significant risk for river eutrophication, even in rural areas with high agricultural phosphorus losses. Traditionally, the relative importance of point and diffuse sources has been assessed from annual P flux budgets, which are often dominated by diffuse inputs in storm runoff from intensively managed agricultural land. However, the ecological risk associated with nuisance algal growth in rivers is largely linked to soluble reactive phosphorus (SRP) concentrations during times of ecological sensitivity (spring/summer low-flow periods), when biological activity is at its highest. The relationships between SRP and total phosphorus (TP; total dissolved P + suspended particulate P) concentrations within UK rivers are evaluated in relation to flow and boron (B; a tracer of sewage effluent). SRP is the dominant P fraction (average 67% of TP) in all of the rivers monitored, with higher percentages at low flows. In most of the rivers the highest SRP concentrations occur under low-flow conditions and SRP concentrations are diluted as flows increase, which is indicative of point, rather than diffuse, sources. Strong positive correlations between SRP and B (also TP and B) across all the 54 river monitoring sites also confirm the primary importance of point source controls of phosphorus concentrations in these rivers, particularly during spring and summer low flows, which are times of greatest eutrophication risk. Particulate phosphorus (PP) may form a significant proportion of the phosphorus load to rivers, particularly during winter storm events, but this is of questionable relevance for river eutrophication. Although some of the agriculturally derived PP is retained as sediment on the river bed, in most cases this bed sediment showed potential for removal of SRP from the overlying river water during spring and summer low flows. Thus, bed sediments may well be helping to reduce SRP concentrations within the river at times of eutrophication risk. These findings have important implications for targeting environmental management controls for phosphorus more efficiently, in relation to the European Union Water Framework Directive requirements to maintain/improve the ecological quality of impacted lowland rivers. For the UK rivers examined here, our results demonstrate that an important starting point for reducing phosphorus concentrations to the levels approaching those required for ecological improvement, is to obtain better control over point source inputs, particularly small point sources discharging to ecologically sensitive rural/agricultural tributaries
Item Type: | Publication - Article |
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Digital Object Identifier (DOI): | https://doi.org/10.1016/j.scitotenv.2005.08.038 |
Programmes: | CEH Programmes pre-2009 publications > Biogeochemistry CEH Programmes pre-2009 publications > Water |
UKCEH and CEH Sections/Science Areas: | _ Water Quality |
ISSN: | 0048-9697 |
Format Availability: | Electronic, Print |
Additional Keywords: | Eutrophication, Water Framework Directive, Phosphorus, Sewage, Agriculture, Rivers, LOIS, Humber, Wye, Avon, Thames |
NORA Subject Terms: | Agriculture and Soil Science Hydrology Chemistry |
Date made live: | 02 Jul 2007 08:31 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/370 |
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