Cite this dataset as
Stanley, S., Antoniou, V., Askquith-Ellis, A., Ball, L.A., Bennett, E.S., Blake, J.R., Boorman, D.B., Brooks, M., Clarke, M., Cooper, H.M., Cowan, N., Cumming, A., Evans, J.G., Farrand, P., Fry, M., Harvey, D., Houghton-Carr, H., Howson, T., Khamis, D., Lord, W.D., Morrison, R., Nash, G.V., O'Callaghan, F., Rylett, D., Scarlett, P.M., Smith, R., Swain, O.D., Szczykulska, M., Teagle, S., Thornton, J.L., Trill, E.J., Ward, H.C., Warwick, A.C., Winterbourn, J.B. (2023). Daily and sub-daily hydrometeorological and soil data (2013-2022) [COSMOS-UK]. NERC EDS Environmental Information Data Centre. (Dataset). https://doi.org/10.5285/5060cc27-0b5b-471b-86eb-71f96da0c80f
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This dataset is available under the terms of the Open Government Licence 
Daily and sub-daily hydrometeorological and soil data (2013-2022) [COSMOS-UK]
THIS DATASET HAS BEEN SUPERSEDED. The latest version is Daily and sub-daily hydrometeorological and soil data (2013-2023) [COSMOS-UK]
Values from previous years in this dataset have changed due to updated quality control procedures and new science for deriving certain variables. A new version that includes these updated values and additional data for 2023 is now available.
If you need access to this archived version, please contact the EIDC
This dataset contains daily and sub-daily hydrometeorological and soil moisture observations from COSMOS-UK (cosmic-ray soil moisture) monitoring network from October 2013 to the end of 2022. These data are from 51 sites across the UK recording a range of hydrometeorological and soil variables.
Each site in the network records the following hydrometeorological and soil data at 30-minute resolution: Radiation (short wave, long wave, and net), precipitation, atmospheric pressure, air temperature, wind speed and direction, humidity, soil heat flux, and soil temperature and volumetric water content (VWC), measured by point sensors at various depths.
Each site hosts a cosmic-ray sensing probe; a novel sensor technology which counts fast neutrons in the surrounding atmosphere. In combination with the recorded hydrometeorological data, neutron counts are used to derive VWC over a field scale (COSMOS VWC), at two temporal resolutions (hourly and daily).
The presence of snow leads to erroneously high measurements of COSMOS VWC due to all the extra water in the surrounding area. Included in the daily data are indications of snow days, on which, the COSMOS VWC are adjusted, and the snow water equivalent (SWE) is given.
The potential evapotranspiration (PE), derived from recorded hydrometeorological and soil are also included at daily resolution.
Two levels of quality control are carried out, firstly data is run through a series of automated checks, such as range tests and spike tests, and then all data is manually inspected each week where any other faults are picked up, including sensor faults or connection issues. Quality control flags are provided for all recorded (30 minute) data, indicating the reason for any missing data.
This work was supported by the Natural Environment Research Council award number NE/R016429/1 as part of the UK-SCAPE programme delivering National Capability.
Each site in the network records the following hydrometeorological and soil data at 30-minute resolution: Radiation (short wave, long wave, and net), precipitation, atmospheric pressure, air temperature, wind speed and direction, humidity, soil heat flux, and soil temperature and volumetric water content (VWC), measured by point sensors at various depths.
Each site hosts a cosmic-ray sensing probe; a novel sensor technology which counts fast neutrons in the surrounding atmosphere. In combination with the recorded hydrometeorological data, neutron counts are used to derive VWC over a field scale (COSMOS VWC), at two temporal resolutions (hourly and daily).
The presence of snow leads to erroneously high measurements of COSMOS VWC due to all the extra water in the surrounding area. Included in the daily data are indications of snow days, on which, the COSMOS VWC are adjusted, and the snow water equivalent (SWE) is given.
The potential evapotranspiration (PE), derived from recorded hydrometeorological and soil are also included at daily resolution.
Two levels of quality control are carried out, firstly data is run through a series of automated checks, such as range tests and spike tests, and then all data is manually inspected each week where any other faults are picked up, including sensor faults or connection issues. Quality control flags are provided for all recorded (30 minute) data, indicating the reason for any missing data.
This work was supported by the Natural Environment Research Council award number NE/R016429/1 as part of the UK-SCAPE programme delivering National Capability.
Publication date: 2023-03-29
View record as
Format
Comma-separated values (CSV)
Spatial information
- Study area
-
- Spatial representation type
- Tabular (text)
- Spatial reference systems
-
OSGB 1936 / British National Grid
WGS 84
Temporal information
- Temporal extent
-
2013-01-01 to 2022-12-31
Provenance & quality
Hydrometeorological and soil observations are recorded at sites around the UK using an array of sensors. Every hour, the raw data collected is sent to UKCEH in Wallingford, where it is subject to quality control. Soil volumetric water content data are derived from 30-minute hydrometeorological data and data from the cosmic-ray sensing probe by Python scripts run every hour. The data are calculated using the method outlined in Evans et al. 2016. Snow water equivalents are derived by Python scripts at the end of the day from the hydrometeorological data according to Wallbank et al., 2020. Potential evapotranspiration data are derived by Python scripts at the end of the day from the hydrometeorological data according to the Penman-Monteith method, (FAO Crop evapotranspiration - Guidelines for computing crop water requirements - FAO Irrigation and drainage paper 56). All data (including raw, quality controlled and derived) is saved in an Oracle database.
Citations
Cooper, H.M., Bennett, E., Blake, J., et al. (2021) COSMOS-UK: national soil moisture and hydrometeorology data for environmental science research. Earth System Science Data 13, 1737–1757. https://doi.org/10.5194/essd-13-1737-2021
Evans, J.G., Ward, H.C., Blake, J.R., et al. (2016) Soil water content in southern England derived from a cosmic‐ray soil moisture observing system – COSMOS‐UK. Hydrological Processes 30, 4987–4999. https://doi.org/10.1002/hyp.10929
Supplemental information
Penman-Monteith method, Chapter 4 - Determination of ETo in ‘Crop evapotranspiration - Guidelines for computing crop water requirements - FAO Irrigation and drainage paper 56’.
Correspondence/contact details
Smith, R.
UK Centre for Ecology & Hydrology
Maclean Building, Benson Lane, Crowmarsh Gifford
Wallingford
Oxfordshire
OX10 8BB
UNITED KINGDOM
enquiries@ceh.ac.uk
Wallingford
Oxfordshire
OX10 8BB
UNITED KINGDOM
Authors
https://orcid.org/0000-0002-8303-2969
Askquith-Ellis, A.
UK Centre for Ecology & Hydrology
Clarke, M.
Farrand, P.
Harvey, D.
UK Centre for Ecology & Hydrology
Houghton-Carr, H.
UK Centre for Ecology & Hydrology
Howson, T.
UK Centre for Ecology & Hydrology
Khamis, D.
UK Centre for Ecology & Hydrology
O'Callaghan, F.
UK Centre for Ecology & Hydrology
Scarlett, P.M.
UK Centre for Ecology & Hydrology
Swain, O.D.
UK Centre for Ecology & Hydrology
Teagle, S.
UK Centre for Ecology & Hydrology
Thornton, J.L.
UK Met Office
Warwick, A.C.
UK Centre for Ecology & Hydrology
Other contacts
- Rights holder
-
UK Centre for Ecology & Hydrology
- Custodian
-
NERC EDS Environmental Information Data Centreinfo@eidc.ac.uk
- Publisher
-
NERC EDS Environmental Information Data Centreinfo@eidc.ac.uk
Additional metadata
- Topic categories
- environment
- INSPIRE theme
- Environmental Monitoring Facilities
- Keywords
- Absolute humidity , air temperature , atmospheric precipitation , atmospheric pressure , cosmic-ray sensing probe , COSMOS-UK , Environmental survey , evapotranspiration , hydrology , Incoming longwave radiation , meteorological parameter , net radiation , Outgoing longwave radiation , potential evapotranspiration , precipitation , relative humidity , soil , soil heat flux , soil humidity , soil moisture , soil temperature , soil water content , soil water content , soil wetness , UK-SCAPE , volumetric water content , wind direction , wind speed
- Funding
- Natural Environment Research Council Award: NE/R016429/1
- Last updated
- 19 April 2024 08:35