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P. Haygarth (2005)
Linking landscape sources of phosphorus and sediment to ecological impacts in surface waters.The Science of the total environment, 344 1-3
L. Heathwaite, P. Haygarth, R. Matthews, N. Preedy, P. Butler (2005)
Evaluating colloidal phosphorus delivery to surface waters from diffuse agricultural sources.Journal of environmental quality, 34 1
Laura Gimbert, P. Worsfold, P. Haygarth (2007)
Processes affecting transfer of sediment and colloids, with associated phosphorus, from intensively farmed grasslands:colloid and sediment characterization methodsHydrological Processes, 21
S. Granger, Roland Bol, P. Butler, P. Haygarth, P. Naden, G. Old, Philip Owens, B. Smith (2007)
Processes affecting transfer of sediment and colloids, with associated phosphorus, from intensively farmed grasslands: tracing sediment and organic matterHydrological Processes, 21
David Jones, G. Campbell, C. Kaspar, P. Haygarth, S. Jarvis (2002)
Human enteric pathogens.
M. Bechmanna, D. Bergeb, H. Eggestada, S. Vandsemba (2005)
Phosphorus transfer from agricultural areas and its impact on the eutrophication of lakes — two long-term integrated studies from Norway
T. Krueger, J. Freer, J. Quinton, C. Macleod (2007)
Processes affecting transfer of sediment and colloids, with associated phosphorus, from intensively farmed grasslands: a critical note on modelling of phosphorus transfersHydrological Processes, 21
K. Beven, L. Heathwaite, P. Haygarth, D. Walling, R. Brazier, P. Withers (2005)
On the concept of delivery of sediment and nutrients to stream channelsHydrological Processes, 19
J. Sims, F. Coale, P. Haygarth, S. Jarvis (2002)
Solutions to nutrient management problems in the Chesapeake Bay Watershed, USA.
D. Oliver, C. Clegg, P. Haygarth, A. Heathwaite (2002)
Assessing the Potential for Pathogen Transfer from Grassland Soils to Surface WatersAdvances in Agronomy, 85
W. Hession, D. Storm (2000)
Watershed-level uncertainties : Implications for phosphorus management and eutrophicationJournal of Environmental Quality, 29
Citeau Citeau, Lamy Lamy, van Oort van Oort, Elsass Elsass (2001)
Nature of soils and nature of mobile colloids in gravitational water: a field studyComptes Rendus De L Academie Des Sciences Serie Ii Fascicule a‐Sciences De La Terre Et Des Planetes, 332
P. Haygarth, L. Condron, A. Heathwaite, Benjamin Turner, Graham Harris (2005)
The phosphorus transfer continuum: linking source to impact with an interdisciplinary and multi-scaled approach.The Science of the total environment, 344 1-3
P. Haygarth, P. Chapman, S. Jarvis, R. Smith (1998)
Phosphorus budgets for two contrasting grassland farming systems in the UKSoil Use and Management, 14
L. Citeau (2001)
Nature des sols et nature des colloïdes circulant dans les eaux gravitaires : une étude in situNature of soils and nature of mobile colloids in gravitational water: a field studyComptes Rendus De L Academie Des Sciences Serie Ii Fascicule A-sciences De La Terre Et Des Planetes
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
Laura Gimbert, P. Haygarth, R. Beckett, P. Worsfold (2005)
Comparison of centrifugation and filtration techniques for the size fractionation of colloidal material in soil suspensions using sedimentation field-flow fractionation.Environmental science & technology, 39 6
N. Preedy, K. Mctiernan, R. Matthews, L. Heathwaite, P. Haygarth (2001)
Rapid incidental phosphorus transfers from grassland.Journal of environmental quality, 30 6
Laura Gimbert, Kevin Andrew, P. Haygarth, P. Worsfold (2003)
Environmental applications of flow field-flow fractionation (FIFFF)Trends in Analytical Chemistry, 22
H. Bennion, J. Hilton, M. Hughes, Judy Clark, D. Hornby, I. Fozzard, G. Phillips, C. Reynolds (2005)
The use of a GIS-based inventory to provide a national assessment of standing waters at risk from eutrophication in Great Britain.The Science of the total environment, 344 1-3
A. Heathwaite, R. Dils, Shuming Liu, Laurence Carvalho, Richard Brazier, L. Pope, Michael Hughes, Geoff Phillips, Linda May (2005)
A tiered risk-based approach for predicting diffuse and point source phosphorus losses in agricultural areas.The Science of the total environment, 344 1-3
C. Neal, H. Jarvie (2005)
Agriculture, community, river eutrophication and the Water Framework DirectiveHydrological Processes, 19
L. Citeau, I. Lamy, F. Oort, F. Elsass (2003)
Colloidal facilitated transfer of metals in soils under different land useColloids and Surfaces A: Physicochemical and Engineering Aspects, 217
P. Haygarth, M. Warwick, W. House (1997)
Size distribution of colloidal molybdate reactive phosphorus in river waters and soil solutionWater Research, 31
Tom Leader (2002)
SedimentLandscape Journal, 21
E. Bennett, S. Carpenter, N. Caraco (2001)
Human Impact on Erodable Phosphorus and Eutrophication: A Global Perspective, 51
M. McLachlan (1996)
Bioaccumulation of hydrophobic chemicals in agricultural food chainsEnvironmental Science & Technology, 30
J. Quinton (2004)
Erosion and sediment transport : finding simplicity in complexity.
S. Greig, D. Sear, P. Carling (2005)
The impact of fine sediment accumulation on the survival of incubating salmon progeny: implications for sediment management.The Science of the total environment, 344 1-3
T. Page, P. Haygarth, K. Beven, A. Joynes, Trisha Butler, Chris Keeler, J. Freer, P. Owens, G. Wood (2005)
Spatial variability of soil phosphorus in relation to the topographic index and critical source areas: sampling for assessing risk to water quality.Journal of environmental quality, 34 6
D. Nash, M. Hannah, D. Halliwell, C. Murdoch (2000)
Factors Affecting Phosphorus Export from a Pasture-Based Grazing SystemJournal of Environmental Quality, 29
K. Cameron, H. Di, L. Condron, P. Haygarth, S. Jarvis (2002)
Nutrient and pesticide transfer from agricultural soils to water in New Zealand
G. Bilotta, R. Brazier, P. Haygarth (2007)
Processes affecting transfer of sediment and colloids, with associated phosphorus, from intensively farmed grasslands: erosionHydrological Processes, 21
P. Haygarth, A. Sharpley (2000)
Terminology for Phosphorus TransferJournal of Environmental Quality, 29
P. Bellamy, P. Loveland, R. Bradley, R. Lark, Guy Kirk (2005)
Carbon losses from all soils across England and Wales 1978–2003Nature, 437
D. Oliver, L. Heathwaite, P. Haygarth, C. Clegg (2005)
Transfer of Escherichia coli to water from drained and undrained grassland after grazing.Journal of environmental quality, 34 3
L. Citeau, I. Lamy, F. Oort, F. Elsass (2001)
Nature des sols et nature des colloı̈des circulant dans les eaux gravitaires : une étude in situComptes Rendus De L Academie Des Sciences Serie Ii Fascicule A-sciences De La Terre Et Des Planetes, 332
Introduction The science of the export of sediment and colloids from grassland to water presents many new challenges for hydrologists, soil scientists and environmental chemists, in terms of increasing awareness and pressures to control, reduce and mitigate diffuse pollution from livestock dominated areas (Bechmann et al., 2005; Bennion et al., 2005; Haygarth et al., 2005; Heathwaite et al., 2005a; Neal and Jarvie, 2005). Sediment and colloids are well-established at being efï¬cient âcarriersâ of rogue pollutants, such as nutrients (particularly phosphorus) (Haygarth et al., 1997; Heathwaite et al., 2005b), metals (Citeau et al., 2001; 2003), pathogens (Oliver et al., 2005a; 2005b) and persistent organic pollutants (POPs) (Gaveo and Jones, 2002). The problem that arises with nutrients is eutrophication, particularly of surface waters (Bennett et al., 2001; Bennion et al., 2005; Hession and Storm, 2000), while pathogens can cause sickness in humans, with an almost immediate effect (Jones, 2002). POPs, on the other hand, have a more long-term inï¬uence, presenting threats to ecosystem health and, after passing through the food chain, accumulating in mammalian adipose tissue (McLachlan, 1996). In addition to the carrying of pollutants, sediments and colloids can themselves contribute problems because of soil loss from productive land (soil
Hydrological Processes – Wiley
Published: Dec 30, 2006
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