Dr. Sim M. Reaney, Durham University, UK
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"Conference Presentations"
H51D-0929
Science in the clouds: UAVs and cloud computing methods for spatial diffuse pollution risk assessment (Invited)
Reaney, S M
The processes related to diffuse pollution can be understood within a ‘source -> mobilisation -> pathway -> impact’ framework. Recently our ability to monitor the impact section of this framework has significantly increased. [...]
Continue Reading →H33E-1185 Poster
Optimal sampling of soil depth variability for the prediction of hydrological response
Reaney, S M and Hopp, L (Department of Forest Engineering, Resources and Management, Oregon State University, Corvallis, OR, USA)
It has been shown that the spatial pattern of soil depth is important for determining the hydrological response of a [...]
Continue Reading →Reaney, S. M., Lane S. N. and Heathwaite A. L. 2009: Simulating the Spatial Distribution of Hydrological Connectivity Under Possible Future Climates – Impacts on River Flow Dynamics and Non-Point Source Pollution; American Geophysical Union Fall Meeting, San Francisco, USA
Predicted changes to the climate have the potential to alter the hydrological dynamics of [...]
Continue Reading →Reaney S M, Lane S N, Heathwaite A L and Dugdale L 2006: Integrated land-water risk analysis for the protection of sensitive catchments from diffuse pollution; British Hydrological Society 9th National Hydrology Symposium, Durham University, September 2006.
Continue Reading →Lane S N, Reaney S M and Du Y 2006: Wetter? Drier? Floods? Droughts? Continuous flow simulation to 2099 for Northern England; British Hydrological Society 9th National Hydrology Symposium, Durham University, September 2006.
Continue Reading →Reaney S. M., Lane S. N. and Heathwaite A. L. 2006: Integrated land-water risk analysis for the protection of sensitive catchments from diffuse pollution; European Geophysical Union General Assembly, Vienna.
Diffuse pollution is a major management challenge as it commonly involved processes that are small in magnitude, distributed over a large spatial area and associated [...]
Continue Reading →Reaney S. and Lane S. 2005: Modelling Nitrogen Cycling Within a Catchment: the Development and Application of the Fully Distributed Model, CAS-HYDRO; Geophysical Research Abstracts, Vol. 7, 09351,
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