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Changing suspended sediment and particulate phosphorus loads and pathways in underdrained lowland agricultural catchments; Herefordshire and Worcestershire, U.K.

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Abstract

Data obtained from a small (150 ha) experimental catchment, Hereford U.K., have shown that land drains contributed >50% of the total catchment suspended sediment (SS) yield over a two year period. In one of the monitored drains, annual sediment yields were 964 and 978 kg ha−1. Particulate phosphorus (PP) contributed >60% of total phosphorus lost through the drains and at least 73% of the total drain load came from topsoil. A major question that was not answered by the monitoring programme was whether SS and PP loads had increased since the drains had been installed between the 1960s and 1980s. To address this problem, a sediment yield record was reconstructed from the Kyre Pool catchment in Worcestershire that has a similar drainage history and soil types. Reservoir sediments were dated using the 210Pb crs method and results suggest a fourfold increase in SS yield (300–1170 kg ha−1 yr−1) and PP loads (0.19–0.79 kg ha−1 yr−1) since the 1960s. The most recent SS and PP loads are comparable to those obtained from catchment monitoring. The high lake sediment 137Cs inventory suggests a significant influx of eroded topsoil and 137Cs activities in the most recent lake sediments are comparable to those of monitored land drains, supporting the hypothesis that land drainage has had a major impact on SS and PP yields and pathways.

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References

  • Appleby, P. G. & F. Oldfield, 1978. The calculation of Pb-210 dates assuming a constant rate of supply of unsupported Pb-210 to the sediment. Catena 5: 1-8.

    Google Scholar 

  • Brune, G. M., 1954. Trap Efficiency of Reservoirs. Trans. am. Geophys. Union 34: 407-418.

    Google Scholar 

  • Cawse, P. A. & A. D. Horrill, 1986. A survey of caesium-137 and plutonium in British Soils in 1977. AERE Harwell Report R 10155, Harwell, U.K.

  • Chapman, A. S., 2001. Particulate phosphorus loss from agricultural land via sub-surface drainage in the U.K.: tracing, modelling and risk assessment. Unpublished PhD Thesis, Coventry University.

  • Chapman, A. S., I. D. L. Foster, J. A. Lees, R. A. Hodgkinson & R. H. Jackson, 2001. Particulate phosphorus transport by sub-surface drainage from agricultural land in the U.K. Environmental significance at the catchment and national scale. Sci. Tot. Environ. 266: 95-102.

    Google Scholar 

  • Culley, J. L. B. & E. F. Bolton, 1993a. Suspended solids and phosphorus loads from a clay soil. I Plot studies. J. Environ. Qual. 12: 493-498.

    Google Scholar 

  • Culley, J. L. B. & E. F. Bolton, 1993b. Suspended solids and phosphorus loads from a clay soil. II Watershed study. J. Environ. Qual. 12: 498-503.

    Google Scholar 

  • Foster, I. D. L., 1995. Lake and reservoir bottom-sediments as a source of soil erosion and sediment transport data in the U.K. In Foster, I. D. L., A. M. Gurnell & B.W. Webb (eds), Sediment and Water Quality in River Catchments. Chichester, Wiley: 265-283.

    Google Scholar 

  • Foster, I. D. L. & J. A. Lees, 1999a. Changing headwater suspended sediment yields in the LOIS catchments over the last century: a palaeolimnological approach. Hydrol. Proc. 13: 1137-1153.

    Google Scholar 

  • Foster, I. D. L. & J. A. Lees, 1999b. Changes in the physical and geochemical properties of suspended sediments delivered to the headwaters of LOIS river basins over the last 100 years: a preliminary analysis of lake and reservoir bottom sediments. Hydrol. Proc. 13: 1067-1086.

    Google Scholar 

  • Foster, I. D. L. & J. A. Lees, In Press. Evidence for past erosional events from lake sediments. In Boardman, J. & D. Favis-Mortlock (eds), Climate Change and Soil Erosion, London, Imperial College Press.

  • Foster, I. D. L. & D. E. Walling, 1994. Using reservoir sediment deposits to reconstruct sediment yields and sources in the catchment of the Old Mill Reservoir, South Devon, U.K. over the last 50 years. Hydrol. Sci. J. 39: 247-268.

    Google Scholar 

  • Foster, I. D. L., J. A. Dearing, A. D. Carter, A. D. Simpson & P. G. Appleby, 1985. Lake catchment based studies of erosion and denudation in the Merevale catchment, N. Warwickshire, U.K. Earth Surface Processes and Landforms 10: 45-68.

    Google Scholar 

  • Foster, I. D. L., S. Wade, J. Sheasby, S. Baban, S. Charlesworth, R. Jackson & D. McIlroy, 1998a. Eutrophication in controlled waters in Lower Severn Area. U.K. Environment Agency, Midland Region (Final Report), Tewkesbury, Environment Agency / Coventry University. Vol. 1-04 pp.

    Google Scholar 

  • Foster, I. D. L., J. A. Lees, P. N. Owens & D. E. Walling, 1998b. Mineral magnetic characterisation of sediment sources from an analysis of lake and floodplain sediments in the catchments of the Old Mill reservoir and Slapton Ley, South Devon, U.K. Earth Surface Processes and Landforms 23: 685-703.

    Google Scholar 

  • Foster, I. D. L., S. M. J. Baban, S. D. Wade, S. Charlesworth, P. J. Buckland & K. Wagstaff, 1996. Sediment-associated phosphorus transport in the Warwickshire River Avon, U.K. IAHS Publication (Proc Exeter Symposium), 236: 303-312.

    Google Scholar 

  • Foster, I. D. L., J. A. Lees, A. R. Jones, A. S. Chapman, S. E. Turner. & R. M. Hodgkinson, 2002. The possible role of agricultural land drains in sediment delivery to a small reservoir, Worcestershire, U.K.: a multiparameter fingerprint study. IAHS Publication (Proceedings of the Alice Springs Symposium, Sept. 2002) 276: 433-442.

    Google Scholar 

  • Grant, R., A. Laubel, B. Kronvang, H. E. Andersen, L.M. Svendsen & A. Fuglsang, 1996. Loss of dissolved and particulate phosphorus from arable catchments by subsurface drainage. Wat. Res. 30: 2633-2642.

    Google Scholar 

  • Hodgkinson, R. A. & P. J. A. Withers, 1997. Non-point source phosphorus loss from small agricultural catchments. In Proc. Diffuse Pollution and Agriculture Conference, Edinburgh, April 1997: 120-126.

  • Hodgkinson, R. A., A. Matthews & P. J. A. Withers, 1998. Phosphorus losses from small rural catchments: factors influencing pattern and forms. Field studies and an outline modelling approach. In Petchy, T. B. D'Arcy, & A. Frost (eds), Diffuse Pollution and Agriculture II, Scottish Agricultural College: 84-100.

  • Hooda, P. S., M. Moynagh, I. F. Svoboda, A. C. Edwards, H. A. Anderson & G. Sym, 1999. Phosphorus loss in drainflow from intensively managed grassland soils. J. Environ. Qual. 28: 1235-1242.

    Google Scholar 

  • Kronvang, B., A. Laubel & R. Grant, 1997. Suspended sediment and particulate phosphorus transport and delivery pathways in an arable catchment, Gelbæk stream, Denmark. Hydrol. Proc. 11: 627-642.

    Google Scholar 

  • Ragg, J. M., G. R. Beard, H. George, F. W. Heaven, J. M. Hollis, R. J. Jones, R. C. Palmer, M. J. Reeve, J. D. Robson & W. A. D. Whitfield, 1984. Soils and their use in Midland and Western England. Soil Survey of England and Wales Bulletin. No. 12, SSEW, Harpenden, Hertfordshire: 433 pp.

    Google Scholar 

  • Robinson, M., 1990. Impact of improved land drainage on river flows. Institute of Hydrology Report, No. 113. Wallingford, U.K. Institute of Hydrology.

    Google Scholar 

  • Robinson, M. & A. M. C. Armstrong, 1988. The extent of agricultural field drainage in England and Wales, 1971-1980. Transactions of the Institute of British Geographers 13: 19-28.

    Google Scholar 

  • Russell, M. A., D. E. Walling & R. A. Hodgkinson, 2001. Suspended sediment sources in two small lowland agricultural catchments in the U.K. J. Hydrol. 252: 1-24.

    Google Scholar 

  • Ulén, B & K. Persson, 1999. Field scale phosphorus losses from a drained clay soil in Sweden. Hydrol. Proc. 13: 2801-2812.

    Google Scholar 

  • Walling, D. E., M. A. Russell, R. A. Hodgkinson & Y. Zhang. 2002. Establishing sediment budgets for two small lowland agricultural catchments in the U.K. Catena, 47: 323-353.

    Google Scholar 

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Authors and Affiliations

  1. Centre for Environmental Research and Consultancy, School of S.E. (Geography), Coventry University, Priory St., Coventry, CV1 5FB, U.K.

    I. D. L. Foster, A. S. Chapman, A. R. Jones, J. A. Lees & S. E. Turner

  2. ADAS Gleadthorpe, Meden Vale, Mansfield, Nottinghamshire, NG20 9PF, U.K

    R. M. Hodgkinson

  3. Environment Agency, Midland Region, Riversmeet House, Northway Lane, Tewkesbury, GL20 8JG, U.K

    M. Scott

Authors
  1. I. D. L. Foster
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  2. A. S. Chapman
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  3. R. M. Hodgkinson
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  4. A. R. Jones
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  5. J. A. Lees
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  6. S. E. Turner
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  7. M. Scott
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Foster, I.D.L., Chapman, A.S., Hodgkinson, R.M. et al. Changing suspended sediment and particulate phosphorus loads and pathways in underdrained lowland agricultural catchments; Herefordshire and Worcestershire, U.K.. Hydrobiologia 494, 119–126 (2003). https://doi.org/10.1023/A:1025497728181

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