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Details of Award

NERC Reference : NE/S009280/1

Arctic Emissivity of Snow for Operational Prediction (AESOP) of Weather

Grant Award

Principal Investigator:
Dr MJ Sandells, Northumbria University, Fac of Engineering and Environment
Science Area:
Atmospheric
Freshwater
Terrestrial
Overall Classification:
Unknown
ENRIs:
Environmental Risks and Hazards
Global Change
Natural Resource Management
Science Topics:
Radiative Processes & Effects
Radiation modelling
Regional & Extreme Weather
Satellite observation
Land - Atmosphere Interactions
Numerical weather prediction
Snow and ice flows
Abstract:
AESOP will initiate a collaboration between Northumbria University and the Met Office to make an evidence-based business decision necessary to change the way satellite measurements in the snow-covered Arctic are used in Met Office operational weather forecasts. The Met Office needs to improve short-range operational weather forecasts in the Arctic, which will lead to enhanced operational seasonal forecasts in the UK due to the close proximity of the UK to the Arctic. It is currently extremely difficult to use these satellite measurements over the Arctic because at the microwave frequencies needed to see through the clouds, the satellites observe both the surface and atmosphere together. Consequently, vast quantities of potentially usable satellite data are currently rejected by weather forecasting systems. New data and recent theoretical advances in surface emissivity models now provides potential for separation of surface and atmospheric emissivity signals to top of atmosphere microwave brightness temperature, thus allowing previously discarded satellite observations to be used for operational numerical weather prediction. AESOP will provide the host organisation with the justification and knowledge needed to implement changes in the operational system at the appropriate point in its development cycle. This placement uses existing science and expertise, leveraging recent scientific advances funded by NERC and the European Space Agency to meet two Met Office primary needs. Firstly, the Met Office requires ground-based data and evaluation of simulations of airborne brightness temperature measurements taken during Measurements of Arctic Clouds, Snow, and Sea Ice nearby the Marginal Ice ZonE (MACSSIMIZE : Met Office funded Facility for Airborne Atmospheric Measurements campaign). The necessary ground measurements of snow microstructure have recently been collected and quality-controlled by staff at Northumbria University (funded by NERC UK and Canada Arctic Partnership bursary 'Characterisation of Arctic snow for modelling microwave and thermal properties') and are available to AESOP. Secondly, the Met Office would like to harness an innovative new snow emission modelling approach (SMRT ) developed by Sandells and colleagues. This is a substantial development over single radiative transfer model approaches previously used due to multiple model representations in SMRT, which allows an estimate of the model error needed for weather forecast systems. Model code and computational expertise to run it will be provided to the Met Office from Northumbria University for collaborative use through and beyond the timescale of this placement. The host organisation will benefit from translation of data and modelling expertise into the RTTOV radiative transfer model used in their operational system, and this placement will provide clear evidence to the Met Office of the benefits of making changes to their operational modelling scheme. This is a critical step to contribute to future developmental changes in the operational weather prediction at the Met Office, as full data assimilation trials within their operational system are hugely expensive.
Period of Award:
1 Nov 2018 - 30 Apr 2019
Value:
£22,379
Authorised funds only
NERC Reference:
NE/S009280/1
Grant Stage:
Completed
Scheme:
Innovation People
Grant Status:
Closed

This grant award has a total value of £22,379  

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FDAB - Financial Details (Award breakdown by headings)

Exception - StaffException - T&S
£12,209£10,170

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