Alison C. Rudd
Alison C. Rudd
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Climate hydrology and ecology research support system potential evapotranspiration dataset for Great Britain (1961-2017)[CHESS-PE]
EL Robinson, EM Blyth, DB Clark, E Comyn-Platt, AC Rudd
NERC Environmental Information Data Centre, 2020
Climate change impacts on peak river flows: combining national-scale hydrological modelling and probabilistic projections
AL Kay, AC Rudd, M Fry, G Nash, S Allen
Climate Risk Management 31, 100263, 2021
Changing climate risk in the UK: A multi-sectoral analysis using policy-relevant indicators
NW Arnell, AL Kay, A Freeman, AC Rudd, JA Lowe
Climate Risk Management 31, 100265, 2021
Trends in atmospheric evaporative demand in Great Britain using high-resolution meteorological data
EL Robinson, EM Blyth, DB Clark, J Finch, AC Rudd
Hydrology and Earth System Sciences 21 (2), 1189-1224, 2017
Representation of model error in a convective-scale ensemble prediction system
LH Baker, AC Rudd, S Migliorini, RN Bannister
Nonlinear Processes in Geophysics 21 (1), 19-39, 2014
Hydrological Outlook UK: an operational streamflow and groundwater level forecasting system at monthly to seasonal time scales
C Prudhomme, J Hannaford, S Harrigan, D Boorman, J Knight, V Bell, ...
Hydrological Sciences Journal 62 (16), 2753-2768, 2017
National-scale analysis of simulated hydrological droughts (1891–2015)
AC Rudd, VA Bell, AL Kay
Journal of Hydrology 550, 368-385, 2017
Use of very high resolution climate model data for hydrological modelling: baseline performance and future flood changes
AL Kay, AC Rudd, HN Davies, EJ Kendon, RG Jones
Climatic Change 133, 193-208, 2015
A probabilistic risk assessment of the national economic impacts of regulatory drought management on irrigated agriculture
G Salmoral, D Rey, A Rudd, P De Margon, I Holman
Earth's Future 7 (2), 178-196, 2019
National-scale analysis of future river flow and soil moisture droughts: potential changes in drought characteristics
AC Rudd, AL Kay, VA Bell
Climatic Change 156 (3), 323-340, 2019
Cloud banding and winds in intense European cyclones: Results from the DIAMET project
G Vaughan, J Methven, D Anderson, B Antonescu, L Baker, TP Baker, ...
Bulletin of the American Meteorological Society 96 (2), 249-265, 2015
Processes controlling atmospheric dispersion through city centres
SE Belcher, O Coceal, EV Goulart, AC Rudd, AG Robins
Journal of Fluid Mechanics 763, 51-81, 2015
Use of very high resolution climate model data for hydrological modelling: estimation of potential evaporation
AC Rudd, AL Kay
Hydrology Research 47 (3), 660-670, 2016
Climate change effects on indicators of high and low river flow across Great Britain
AL Kay, A Griffin, AC Rudd, RM Chapman, VA Bell, NW Arnell
Advances in Water Resources 151, 103909, 2021
National-scale analysis of low flow frequency: historical trends and potential future changes
AL Kay, VA Bell, BP Guillod, RG Jones, AC Rudd
Climatic Change 147, 585-599, 2018
An inverse method for determining source characteristics for emergency response applications
AC Rudd, AG Robins, JJ Lepley, SE Belcher
Boundary-layer meteorology 144, 1-20, 2012
Sensing network and method
J Lepley, G Bourdon, D Friedrich, AC Rudd, S Belcher, AG Robins
US Patent App. 13/011,230, 2011
The MaRIUS‐G2G datasets: Grid‐to‐Grid model estimates of flow and soil moisture for Great Britain using observed and climate model driving data
VA Bell, AL Kay, AC Rudd, HN Davies
Geoscience Data Journal 5 (2), 63-72, 2018
Grid-based simulation of river flows in Northern Ireland: model performance and future flow changes
AL Kay, HN Davies, RA Lane, AC Rudd, VA Bell
Journal of Hydrology: Regional Studies 38, 100967, 2021
Use of abstraction and discharge data to improve the performance of a national‐scale hydrological model
P Rameshwaran, VA Bell, MJ Brown, HN Davies, AL Kay, AC Rudd, ...
Water Resources Research 58 (1), e2021WR029787, 2022
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