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Ann Louise Heathwaite
Researcher at Lancaster University
Publications - 117
Citations - 6170
Ann Louise Heathwaite is an academic researcher from Lancaster University. The author has contributed to research in topics: Phosphorus & Surface runoff. The author has an hindex of 41, co-authored 117 publications receiving 5828 citations. Previous affiliations of Ann Louise Heathwaite include University of Sheffield & National Chemical Laboratory.
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Journal ArticleDOI
Characterising phosphorus loss in surface and subsurface hydrological pathways
Ann Louise Heathwaite,R. M. Dils +1 more
TL;DR: The magnitude and composition of the phosphorus (P) load transported in surface and subsurface hydrological pathways from a grassland catchment depends on the discharge capacity of the flow route and the frequency with which the pathway operates.
UK National Ecosystem Assessment:Technical report
Robert T. Watson,Steve D. Albon,R. Aspinall,Melanie C. Austen,B. Bardgett,Ian J. Bateman,Pam Berry,William Bird,Richard B. Bradbury,Claire Brown,J Bulloch,Jacquelin Burgess,Andrew Church,C Christie,I. R. Crute,Linda Davies,Gareth Edwards-Jones,Bridget A. Emmett,Les G. Firbank,Alastair Fitter,A. Gibson,Rosemary S. Hails,Roy Haines-Young,Ann Louise Heathwaite,John J. Hopkins,M. Jenkins,Laurence Jones,Georgina M. Mace,S.J. Malcolm,Edward Maltby,Lindsay C. Maskell,Ken Norris,Stephen James Ormerod,Juliet L. Osborne,Jules Pretty,Christopher P. Quine,Shona Russell,Lucy Simpson,Pete Smith,M Tierney,Krista L. Turner,R. Van der Wal,Bhaskar Vira,Matt Walpole,Andrew R. Watkinson,A. Weighell,Jonathan Winn,Michael Winter +47 more
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Modelling and managing critical source areas of diffuse pollution from agricultural land using flow connectivity simulation
TL;DR: In this paper, a combined critical source area and flow accumulation model is described that predicts the spatial distribution in the risk of diffuse nutrient losses from agricultural fields reaching surface waters, and the model is applied to a number of agricultural fields under a range of different land management scenarios.
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Hydrological processes in abandoned and restored peatlands: An overview of management approaches
TL;DR: In this article, the dominant peat-forming plant genus, Sphagnum, cannot easily reestablish on the degraded surface peat found on cutover sites, and removal of the acrotelm can result in surface subsidence of up to 3.7 cm y-1 m-1 of peat shortly after drainage (compression), and long-term rates up to 0.3 cm y − 1 m − 1 (compressive and oxidation).
Journal ArticleDOI
The phosphorus transfer continuum : linking source to impact with an interdisciplinary and multi-scaled approach
TL;DR: This critical review introduces a template that links phosphorus sources and mobilisation processes to the delivery of P to receiving waters where deleterious impact is of concern and describes the entire process in terms of a 'P transfer continuum' to emphasise the interdisciplinary and inter-scale nature of the problem.