Suspended sediment and particulate phosphorus in surface waters of the upper Thames Basin, UK

Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet...

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Published in:	Journal of hydrology (Amsterdam) Vol. 330; no. 1; pp. 142 - 154
Main Authors:	Neal, Colin, Neal, Margaret, Leeks, Graham J.L., Old, Gareth, Hill, Linda, Wickham, Heather
Format:	Journal Article
Language:	English
Published:	Elsevier B.V 30-10-2006
Subjects:	Calcite Canal Cherwell Dun Freshwater groundwater discharge groundwater flow hydrochemistry Kennet Lambourn Pang Particulate particulate phosphorus Phosphorus Ray River River Thames rivers seasonal variation Sediment sediments streams surface water Suspended sediment Thame Thames Water Framework Directive watersheds England British Isles, England, Avon British Isles British Isles, England, Thames R Suspended sediment Particulate Sediment Lambourn Water Framework Directive Canal Phosphorus Ray Calcite Cherwell Pang Thames Thame Kennet River Dun
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Abstract	Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet) and an artificial supply reservoir (Wilton Water). For the rivers which are mainly supplied from Chalk aquifer sources, SS and PP concentrations are poorly correlated with flow and there are issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP are better correlated with flow when the antecedent conditions are taken into account. Thus, if flows had increased the previous day, then SS and PP concentrations are augmented. Wilton Water and the Kennet and Avon Canal have, on average, higher SS and PP concentrations than the nearby Chalk fed rivers and this probably reflects increased effects of biological activity and calcite (CaCO 3) precipitation under more stagnant conditions. For the rivers draining less permeable (clay dominated) catchments, then there is clearer linkage between flow and SS and PP concentrations. This feature reflects the more responsive influence of runoff from the land surface without the confounding issues of seasonally-varying groundwater discharges, intersection of groundwater levels with the ground surface and overland flow that may well characterise the permeable Chalk catchments. SS and PP are linearly correlated across the catchments. For the Chalk catchments and the associated Wilton Water and Kennet and Avon Canal, the PP:SS ratios are similar, ranging typically between 2 and 4 μg/mg. For the clay dominated catchments, the ratios are typically higher at 3–7 μg/mg. The results are considered in the light of process understanding, farming, climate change/climate-variability and the Water Framework Directive.
AbstractList	Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet) and an artificial supply reservoir (Wilton Water). For the rivers which are mainly supplied from Chalk aquifer sources, SS and PP concentrations are poorly correlated with flow and there are issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP are better correlated with flow when the antecedent conditions are taken into account. Thus, if flows had increased the previous day, then SS and PP concentrations are augmented. Wilton Water and the Kennet and Avon Canal have, on average, higher SS and PP concentrations than the nearby Chalk fed rivers and this probably reflects increased effects of biological activity and calcite (CaCO3) precipitation under more stagnant conditions. For the rivers draining less permeable (clay dominated) catchments, then there is clearer linkage between flow and SS and PP concentrations. This feature reflects the more responsive influence of runoff from the land surface without the confounding issues of seasonally-varying groundwater discharges, intersection of groundwater levels with the ground surface and overland flow that may well characterise the permeable Chalk catchments. SS and PP are linearly correlated across the catchments. For the Chalk catchments and the associated Wilton Water and Kennet and Avon Canal, the PP:SS ratios are similar, ranging typically between 2 and 4mug/mg. For the clay dominated catchments, the ratios are typically higher at 3-7mug/mg. The results are considered in the light of process understanding, farming, climate change/climate-variability and the Water Framework Directive. Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet) and an artificial supply reservoir (Wilton Water). For the rivers which are mainly supplied from Chalk aquifer sources, SS and PP concentrations are poorly correlated with flow and there are issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP are better correlated with flow when the antecedent conditions are taken into account. Thus, if flows had increased the previous day, then SS and PP concentrations are augmented. Wilton Water and the Kennet and Avon Canal have, on average, higher SS and PP concentrations than the nearby Chalk fed rivers and this probably reflects increased effects of biological activity and calcite (CaCO sub(3)) precipitation under more stagnant conditions. For the rivers draining less permeable (clay dominated) catchments, then there is clearer linkage between flow and SS and PP concentrations. This feature reflects the more responsive influence of runoff from the land surface without the confounding issues of seasonally-varying groundwater discharges, intersection of groundwater levels with the ground surface and overland flow that may well characterise the permeable Chalk catchments. SS and PP are linearly correlated across the catchments. For the Chalk catchments and the associated Wilton Water and Kennet and Avon Canal, the PP:SS ratios are similar, ranging typically between 2 and 4 kg/mg. For the clay dominated catchments, the ratios are typically higher at 3-7 kg/mg. The results are considered in the light of process understanding, farming, climate change/climate-variability and the Water Framework Directive. Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet) and an artificial supply reservoir (Wilton Water). For the rivers which are mainly supplied from Chalk aquifer sources, SS and PP concentrations are poorly correlated with flow and there are issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP are better correlated with flow when the antecedent conditions are taken into account. Thus, if flows had increased the previous day, then SS and PP concentrations are augmented. Wilton Water and the Kennet and Avon Canal have, on average, higher SS and PP concentrations than the nearby Chalk fed rivers and this probably reflects increased effects of biological activity and calcite (CaCO 3) precipitation under more stagnant conditions. For the rivers draining less permeable (clay dominated) catchments, then there is clearer linkage between flow and SS and PP concentrations. This feature reflects the more responsive influence of runoff from the land surface without the confounding issues of seasonally-varying groundwater discharges, intersection of groundwater levels with the ground surface and overland flow that may well characterise the permeable Chalk catchments. SS and PP are linearly correlated across the catchments. For the Chalk catchments and the associated Wilton Water and Kennet and Avon Canal, the PP:SS ratios are similar, ranging typically between 2 and 4 μg/mg. For the clay dominated catchments, the ratios are typically higher at 3–7 μg/mg. The results are considered in the light of process understanding, farming, climate change/climate-variability and the Water Framework Directive. Suspended sediment (SS) and particulate phosphorus (PP) in surface waters of the upper Thames Basin, UK, were reported. For the rivers, which were mainly supplied from Chalk aquifer sources, SS and PP concentrations were poorly correlated with flow. There were issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP were better correlated with glow when the antecedent conditions were taken into account. The surface runoff from the high permeability catchments had generally lower concentration and flux per unit area of SS and PP than the less permeable counterparts for the upper Thames. Results indicated that there were clear differences in concentrations and fluxes across each of the catchment. Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River Thames, several of its tributaries, the Cherwell, Dun, Lambourn, Pang and Thame, the Kennet and Avon Canal (that drains to the Dun and Kennet) and an artificial supply reservoir (Wilton Water). For the rivers which are mainly supplied from Chalk aquifer sources, SS and PP concentrations are poorly correlated with flow and there are issues of both biological and inorganic production of SS and PP during the spring and summer months. SS and PP are better correlated with flow when the antecedent conditions are taken into account. Thus, if flows had increased the previous day, then SS and PP concentrations are augmented. Wilton Water and the Kennet and Avon Canal have, on average, higher SS and PP concentrations than the nearby Chalk fed rivers and this probably reflects increased effects of biological activity and calcite (CaCO₃) precipitation under more stagnant conditions. For the rivers draining less permeable (clay dominated) catchments, then there is clearer linkage between flow and SS and PP concentrations. This feature reflects the more responsive influence of runoff from the land surface without the confounding issues of seasonally-varying groundwater discharges, intersection of groundwater levels with the ground surface and overland flow that may well characterise the permeable Chalk catchments. SS and PP are linearly correlated across the catchments. For the Chalk catchments and the associated Wilton Water and Kennet and Avon Canal, the PP:SS ratios are similar, ranging typically between 2 and 4 micrograms/mg. For the clay dominated catchments, the ratios are typically higher at 3-7 micrograms/mg. The results are considered in the light of process understanding, farming, climate change/climate-variability and the Water Framework Directive.
Author	Neal, Colin Neal, Margaret Hill, Linda Old, Gareth Leeks, Graham J.L. Wickham, Heather
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Snippet	Suspended sediment (SS) and particulate phosphorus (PP) concentrations in surface waters of the upper Thames Basin are reported for the main stem of the River... Suspended sediment (SS) and particulate phosphorus (PP) in surface waters of the upper Thames Basin, UK, were reported. For the rivers, which were mainly...
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SubjectTerms	Calcite Canal Cherwell Dun Freshwater groundwater discharge groundwater flow hydrochemistry Kennet Lambourn Pang Particulate particulate phosphorus Phosphorus Ray River River Thames rivers seasonal variation Sediment sediments streams surface water Suspended sediment Thame Thames Water Framework Directive watersheds
Title	Suspended sediment and particulate phosphorus in surface waters of the upper Thames Basin, UK
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