Access the full text.
Sign up today, get DeepDyve free for 14 days.
Robert Nairn, W. Mitsch (1999)
Phosphorus removal in created wetland ponds receiving river overflow.Ecological Engineering, 14
I. Foster, J. Lees, A. Jones, A. Chapman, S. Turner, R. Hodgkinson (2002)
The possible role of agricultural land drains in sediment delivery to a small reservoir, Worcestershire, UK: a multiparameter fingerprint study.IAHS-AISH publication
P. O'connell, P. Quinn, J. Bathurst, G. Parkin, C. Kilsby, K. Beven, T. Burt, M. Kirkby, A. Pickering, M. Robinson, C. Soulsby, A. Werritty, D. Wilcock (2003)
Catchment Hydrology and Sustainable Management (CHASM): an integrating methodological framework for prediction
Mark Wilkinson, P. Quinn (2010)
Belford Catchment Proactive Flood Solutions: A toolkit for managing runoff in the rural landscape
P. Johnes (2007)
Uncertainties in annual riverine phosphorus load estimation: Impact of load estimation methodology, sampling frequency, baseflow index and catchment population densityJournal of Hydrology, 332
R. Cassidy, P. Jordan (2011)
Limitations of instantaneous water quality sampling in surface-water catchments: Comparison with near-continuous phosphorus time-series dataJournal of Hydrology, 405
D. Walling, A. Collins, P. Jones, G. Leeks, G. Old (2006)
Establishing fine-grained sediment budgets for the Pang and Lambourn LOCAR catchments, UKJournal of Hydrology, 330
H. Penman (1948)
Natural evaporation from open water, bare soil and grassProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 193
J. Gray, G. Glysson (2003)
Proceedings of the Federal Interagency Workshop on Turbidity and Other Sediment Surrogates, April 30-May 2, 2002, Reno Nevada
D. Pavanelli, A. Bigi (2005)
A new indirect method to estimate suspended sediment concentration in a river monitoring programmeBiosystems Engineering, 92
N. Barber, P. Quinn (2012)
Mitigating diffuse water pollution from agriculture using soft‐engineered runoff attenuation featuresArea, 44
E. Teixeira, P. Caliari (2005)
Estimation of the concentration of suspended solids in rivers from turbidity measurement : error assessmentIAHS-AISH publication
Rowan Barling, I. Moore (1994)
Role of buffer strips in management of waterway pollution: A reviewEnvironmental Management, 18
G. Williams (1989)
Sediment concentration versus water discharge during single hydrologic events in riversJournal of Hydrology, 111
A. Jones, D. Stevens, J. Horsburgh, N. Mesner (2011)
Surrogate Measures for Providing High Frequency Estimates of Total Suspended Solids and Total Phosphorus Concentrations 1JAWRA Journal of the American Water Resources Association, 47
D. Walling (2005)
Tracing suspended sediment sources in catchments and river systems.The Science of the total environment, 344 1-3
L. Nguyen, J. Sukias (2002)
Phosphorus fractions and retention in drainage ditch sediments receiving surface runoff and subsurface drainage from agricultural catchments in the North Island, New ZealandAgriculture, Ecosystems & Environment, 92
P. Owens, R. Batalla, A. Collins, B. Gomez, D. Hicks, A. Horowitz, G. Kondolf, M. Marden, M. Page, D. Peacock, E. Petticrew, W. Salomons, N. Trustrum (2005)
Fine‐grained sediment in river systems: environmental significance and management issuesRiver Research and Applications, 21
D. Allen, A. Newell, A. Butcher (2010)
Preliminary review of the geology and hydrogeology of the Eden DTC sub-catchments
T. Fukuyama, Y. Onda, T. Gomi, Kazukiyo Yamamoto, Naoto Kondo, S. Miyata, K. Kosugi, S. Mizugaki, Nobuyuki Tsubonuma (2010)
Quantifying the impact of forest management practice on the runoff of the surface‐derived suspended sediment using fallout radionuclidesHydrological Processes, 24
C. Deasy, J. Quinton, M. Silgram, A. Bailey, B. Jackson, C. Stevens (2009)
Mitigation options for sediment and phosphorus loss from winter-sown Arable Crops.Journal of environmental quality, 38 5
J. Petry, C. Soulsby, I. Malcolm, A. Youngson (2002)
Hydrological controls on nutrient concentrations and fluxes in agricultural catchments.The Science of the total environment, 294 1-3
J. Phillips, M. Russell, D. Walling (2000)
Time-integrated sampling of fluvial suspended sediment: a simple methodology for small catchmentsHydrological Processes, 14
A. Collins, D. Walling, R. Stroud, M. Robson, L. Peet (2010)
Assessing damaged road verges as a suspended sediment source in the Hampshire Avon catchment, southern United KingdomHydrological Processes, 24
J. Gray, J. Gartner (2009)
Technological advances in suspended‐sediment surrogate monitoringWater Resources Research, 45
M. Wilkinson, P. Quinn, P. Welton (2010)
Runoff management during the September 2008 floods in the Belford catchment, NorthumberlandJournal of Flood Risk Management, 3
J. Fox, A. Papanicolaou (2007)
The Use of Carbon and Nitrogen Isotopes to Study Watershed Erosion Processes 1JAWRA Journal of the American Water Resources Association, 43
D. Tilman, K. Cassman, P. Matson, R. Naylor, S. Polasky (2002)
Agricultural sustainability and intensive production practicesNature, 418
N. Martínez-Carreras, A. Krein, T. Udelhoven, F. Gallart, J. Iffly, L. Hoffmann, L. Pfister, D. Walling (2010)
A rapid spectral-reflectance-based fingerprinting approach for documenting suspended sediment sources during storm runoff eventsJournal of Soils and Sediments, 10
J. Minella, G. Merten, J. Reichert, R. Clarke (2008)
Estimating suspended sediment concentrations from turbidity measurements and the calibration problemHydrological Processes, 22
W. Mayes, C. Walsh, J. Bathurst, C. Kilsby, P. Quinn, M. Wilkinson, A. Daugherty, P. O'Connell (2006)
Monitoring a flood event in a densely instrumented catchment, the Upper Eden, Cumbria, UKWater and Environment Journal, 20
J. Bolland, L. Bracken, R. Martin, M. Lucas (2010)
A protocol for stocking hatchery reared freshwater pearl mussel Margaritifera margaritiferaAquatic Conservation-marine and Freshwater Ecosystems, 20
P. Haygarth, A. Heathwaite, S. Jarvis, T. Harrod (1999)
Hydrological factors for phosphorus transfer from agricultural soils.Advances in Agronomy, 69
The water quality of our rivers and lakes is a reflection of the landscape over and through which it travels. The UK government, along with all European Union member states, are obliged under the Water Framework Directive (WFD) to aim for good ecological status of fresh water bodies by 2015. In order to evaluate the effectiveness of potential mitigation measures in reducing diffuse water pollution from agriculture at the catchment scale, the Demonstration Test Catchment (DTC) project was developed. The project is jointly funded by Defra, the Environment Agency (EA) and the Welsh Assembly Government (WAG). There are three DTCs across the country: the Eden catchment, Cumbria; the Wensum catchment, Norfolk and the Hampshire Avon catchment. The Eden DTC has established three ∼10 km2 focus catchments, chosen to reflect different farming practices, geologies, elevations and hydrological characteristics. Within each focus catchment, two sub‐catchments have been selected, one control and one mitigated, in which numerous existing and novel mitigation measures will be tested. It is hoped that the mitigation features will be multi‐purpose, having positive effects on pollutant retention, flooding, carbon sequestration, habitat creation and biodiversity. The effectiveness of these measures is assessed through networks of hydro‐meteorological and water‐quality instrumentation, most of which will provide data in near real time, with sub‐hourly time steps.
Area – Wiley
Published: Dec 1, 2012
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.