The UKC2 regional coupled environmental prediction system

The UKC2 regional coupled environmental prediction system

It is hypothesized that more accurate prediction and warning of natural hazards, such as of the impacts of severe weather mediated through various components of the environment, require a more integrated Earth System approach to forecasting. This hypothesis can be explored using regional coupled...

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Main Authors: H. W. Lewis, J. M. Castillo Sanchez, J. Graham, A. Saulter, J. Bornemann, A. Arnold, J. Fallmann, C. Harris, D. Pearson, S. Ramsdale, A. Martínez-de la Torre, L. Bricheno, E. Blyth, V. A. Bell, H. Davies, T. R. Marthews, C. O'Neill, H. Rumbold, E. O'Dea, A. Brereton, K. Guihou, A. Hines, M. Butenschon, S. J. Dadson, T. Palmer, J. Holt, N. Reynard, M. Best, J. Edwards, J. Siddorn
Format: Article
Language:English
Published: Copernicus Publications 2018-01-01
Series:Geoscientific Model Development
Online Access:https://www.geosci-model-dev.net/11/1/2018/gmd-11-1-2018.pdf
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author H. W. Lewis
J. M. Castillo Sanchez
J. Graham
A. Saulter
J. Bornemann
A. Arnold
J. Fallmann
C. Harris
D. Pearson
S. Ramsdale
A. Martínez-de la Torre
L. Bricheno
E. Blyth
V. A. Bell
H. Davies
T. R. Marthews
C. O'Neill
H. Rumbold
E. O'Dea
A. Brereton
K. Guihou
A. Hines
M. Butenschon
S. J. Dadson
T. Palmer
J. Holt
N. Reynard
M. Best
J. Edwards
J. Siddorn
spellingShingle H. W. Lewis
J. M. Castillo Sanchez
J. Graham
A. Saulter
J. Bornemann
A. Arnold
J. Fallmann
C. Harris
D. Pearson
S. Ramsdale
A. Martínez-de la Torre
L. Bricheno
E. Blyth
V. A. Bell
H. Davies
T. R. Marthews
C. O'Neill
H. Rumbold
E. O'Dea
A. Brereton
K. Guihou
A. Hines
M. Butenschon
S. J. Dadson
T. Palmer
J. Holt
N. Reynard
M. Best
J. Edwards
J. Siddorn
The UKC2 regional coupled environmental prediction system
Geoscientific Model Development
author_facet H. W. Lewis
J. M. Castillo Sanchez
J. Graham
A. Saulter
J. Bornemann
A. Arnold
J. Fallmann
C. Harris
D. Pearson
S. Ramsdale
A. Martínez-de la Torre
L. Bricheno
E. Blyth
V. A. Bell
H. Davies
T. R. Marthews
C. O'Neill
H. Rumbold
E. O'Dea
A. Brereton
K. Guihou
A. Hines
M. Butenschon
S. J. Dadson
T. Palmer
J. Holt
N. Reynard
M. Best
J. Edwards
J. Siddorn
author_sort H. W. Lewis
title The UKC2 regional coupled environmental prediction system
title_short The UKC2 regional coupled environmental prediction system
title_full The UKC2 regional coupled environmental prediction system
title_fullStr The UKC2 regional coupled environmental prediction system
title_full_unstemmed The UKC2 regional coupled environmental prediction system
title_sort ukc2 regional coupled environmental prediction system
publisher Copernicus Publications
series Geoscientific Model Development
issn 1991-959X
1991-9603
publishDate 2018-01-01
description It is hypothesized that more accurate prediction and warning of natural hazards, such as of the impacts of severe weather mediated through various components of the environment, require a more integrated Earth System approach to forecasting. This hypothesis can be explored using regional coupled prediction systems, in which the known interactions and feedbacks between different physical and biogeochemical components of the environment across sky, sea and land can be simulated. Such systems are becoming increasingly common research tools. This paper describes the development of the UKC2 regional coupled research system, which has been delivered under the UK Environmental Prediction Prototype project. This provides the first implementation of an atmosphere–land–ocean–wave modelling system focussed on the United Kingdom and surrounding seas at km-scale resolution. The UKC2 coupled system incorporates models of the atmosphere (Met Office Unified Model), land surface with river routing (JULES), shelf-sea ocean (NEMO) and ocean waves (WAVEWATCH III). These components are coupled, via OASIS3-MCT libraries, at unprecedentedly high resolution across the UK within a north-western European regional domain. A research framework has been established to explore the representation of feedback processes in coupled and uncoupled modes, providing a new research tool for UK environmental science. This paper documents the technical design and implementation of UKC2, along with the associated evaluation framework. An analysis of new results comparing the output of the coupled UKC2 system with relevant forced control simulations for six contrasting case studies of 5-day duration is presented. Results demonstrate that performance can be achieved with the UKC2 system that is at least comparable to its component control simulations. For some cases, improvements in air temperature, sea surface temperature, wind speed, significant wave height and mean wave period highlight the potential benefits of coupling between environmental model components. Results also illustrate that the coupling itself is not sufficient to address all known model issues. Priorities for future development of the UK Environmental Prediction framework and component systems are discussed.
url https://www.geosci-model-dev.net/11/1/2018/gmd-11-1-2018.pdf
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spelling doaj-46a9495747f4482bb257033c41e881f12020-11-24T21:13:25ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032018-01-011114210.5194/gmd-11-1-2018The UKC2 regional coupled environmental prediction systemH. W. Lewis0J. M. Castillo Sanchez1J. Graham2A. Saulter3J. Bornemann4A. Arnold5J. Fallmann6C. Harris7D. Pearson8S. Ramsdale9A. Martínez-de la Torre10L. Bricheno11E. Blyth12V. A. Bell13H. Davies14T. R. Marthews15C. O'Neill16H. Rumbold17E. O'Dea18A. Brereton19K. Guihou20A. Hines21M. Butenschon22S. J. Dadson23T. Palmer24J. Holt25N. Reynard26M. Best27J. Edwards28J. Siddorn29Met Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKNational Oceanography Centre, Liverpool, L3 5DA, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKNational Oceanography Centre, Liverpool, L3 5DA, UKNational Oceanography Centre, Liverpool, L3 5DA, UKMet Office, Exeter, EX1 3PB, UKPlymouth Marine Laboratory, Plymouth, PL1 2LP, UKSchool of Geography and the Environment, University of Oxford, South Parks Road, Oxford, OX1 3QY, UKMet Office, Exeter, EX1 3PB, UKNational Oceanography Centre, Liverpool, L3 5DA, UKCentre for Ecology & Hydrology, Wallingford, OX10 8BB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKMet Office, Exeter, EX1 3PB, UKIt is hypothesized that more accurate prediction and warning of natural hazards, such as of the impacts of severe weather mediated through various components of the environment, require a more integrated Earth System approach to forecasting. This hypothesis can be explored using regional coupled prediction systems, in which the known interactions and feedbacks between different physical and biogeochemical components of the environment across sky, sea and land can be simulated. Such systems are becoming increasingly common research tools. This paper describes the development of the UKC2 regional coupled research system, which has been delivered under the UK Environmental Prediction Prototype project. This provides the first implementation of an atmosphere–land–ocean–wave modelling system focussed on the United Kingdom and surrounding seas at km-scale resolution. The UKC2 coupled system incorporates models of the atmosphere (Met Office Unified Model), land surface with river routing (JULES), shelf-sea ocean (NEMO) and ocean waves (WAVEWATCH III). These components are coupled, via OASIS3-MCT libraries, at unprecedentedly high resolution across the UK within a north-western European regional domain. A research framework has been established to explore the representation of feedback processes in coupled and uncoupled modes, providing a new research tool for UK environmental science. This paper documents the technical design and implementation of UKC2, along with the associated evaluation framework. An analysis of new results comparing the output of the coupled UKC2 system with relevant forced control simulations for six contrasting case studies of 5-day duration is presented. Results demonstrate that performance can be achieved with the UKC2 system that is at least comparable to its component control simulations. For some cases, improvements in air temperature, sea surface temperature, wind speed, significant wave height and mean wave period highlight the potential benefits of coupling between environmental model components. Results also illustrate that the coupling itself is not sufficient to address all known model issues. Priorities for future development of the UK Environmental Prediction framework and component systems are discussed.https://www.geosci-model-dev.net/11/1/2018/gmd-11-1-2018.pdf

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