ETC NRT Meteo from Dorinne
2023-12-31–2024-10-30
Deprecated data
Latest version:
XmlahFoYbMW7yxB_JiwoIzWl
11676/ABQyWYCoJOQgVrGe2pdO6tQb (link)
Automatically-produced, daily-growing (by data object deprecation) half-hourly meteorological variables with values aggregated spatially (e.g. one single soil temperature value per layer) calculated by the ICOS ETC starting from the single sensor half-hourly measurements. The data starts from the last respective L2 release.
Work was funded by grant ICOS-2 : Integrated Carbon Observation System-Research Infrastructure (ICOS-RI) from Service Public de Wallonie - Agriculture, Ressources Naturelles, Environnement
Heinesch, B., Bogaerts, G., Chopin, H., Demoulin, L., Faurès, A., Longdoz, B., Manise, T., Orgun, A. (2024). ETC NRT Meteo from Dorinne, 2023-12-31–2024-10-30, ICOS RI, https://hdl.handle.net/11676/ABQyWYCoJOQgVrGe2pdO6tQb
BibTex
@misc{https://hdl.handle.net/11676/ABQyWYCoJOQgVrGe2pdO6tQb,
author={Heinesch, Bernard and Bogaerts, Gaëtan and Chopin, Henri and Demoulin, Loïc and Faurès, Ariane and Longdoz, Bernard and Manise, Tanguy and Orgun, Ayche},
title={ETC NRT Meteo from Dorinne, 2023-12-31–2024-10-30},
year={2024},
url={https://hdl.handle.net/11676/ABQyWYCoJOQgVrGe2pdO6tQb},
publisher={Ecosystem Thematic Centre},
copyright={http://meta.icos-cp.eu/ontologies/cpmeta/icosLicence},
pid={11676/ABQyWYCoJOQgVrGe2pdO6tQb}
}
RIS
TY - DATA T1 - ETC NRT Meteo from Dorinne, 2023-12-31–2024-10-30 ID - 11676/ABQyWYCoJOQgVrGe2pdO6tQb PY - 2024 UR - https://hdl.handle.net/11676/ABQyWYCoJOQgVrGe2pdO6tQb PB - Ecosystem Thematic Centre AU - Heinesch, Bernard AU - Bogaerts, Gaëtan AU - Chopin, Henri AU - Demoulin, Loïc AU - Faurès, Ariane AU - Longdoz, Bernard AU - Manise, Tanguy AU - Orgun, Ayche ER -
ICOSETC_BE-Dor_METEO_NRT.zip
View contents
| File | Size | |
|---|---|---|
| Loading... |
1 MB (1131392 bytes)
14593
1
Acquisition
2023-12-31 22:30:00
2024-10-30 23:00:00
Production
2024-10-31 07:07:35
Previewable variables
| Name | Value type | Unit | Quantity kind | Preview |
|---|---|---|---|---|
| TIMESTAMP | time instant, UTC | |||
| TIMESTAMP_END | time instant, local non-DST time | |||
| P | precipitation (total) | mm | length | Preview |
| PA | atmospheric pressure | kPa | pressure | Preview |
| SW_IN | incoming shortwave radiation | W m-2 | energy flux | Preview |
| SW_OUT | outgoing shortwave radiation | W m-2 | energy flux | Preview |
| LW_IN | incoming long-wave radiation, net radiometer | W m-2 | energy flux | Preview |
| LW_OUT | outgoing long-wave radiation, net radiometer | W m-2 | energy flux | Preview |
| PPFD_IN | photosynthetic photon flux density incoming | µmol m-2 s-1 | particle flux | Preview |
| PPFD_OUT | photosynthetic photon flux density outgoing | µmol m-2 s-1 | particle flux | Preview |
| TA | air temperature | °C | temperature | Preview |
| RH | relative humidity | % | portion | Preview |
| D_SNOW | snow depth | cm | length | Preview |
| WD_1 | wind direction | ° | angle | Preview |
| WS_1 | wind speed | m s-1 | velocity | Preview |
| VPD | vapour pressure deficit | hPa | pressure | Preview |
| G_1 | soil heat flux | W m-2 | energy flux | Preview |
| G_2 | soil heat flux | W m-2 | energy flux | Preview |
| SWC_1 | volumetric soil water content | % | portion | Preview |
| SWC_2 | volumetric soil water content | % | portion | Preview |
| SWC_3 | volumetric soil water content | % | portion | Preview |
| SWC_4 | volumetric soil water content | % | portion | Preview |
| SWC_5 | volumetric soil water content | % | portion | Preview |
| TS_1 | soil temperature | °C | temperature | Preview |
| TS_2 | soil temperature | °C | temperature | Preview |
| TS_3 | soil temperature | °C | temperature | Preview |
| TS_4 | soil temperature | °C | temperature | Preview |
| TS_5 | soil temperature | °C | temperature | Preview |
| TS_6 | soil temperature | °C | temperature | Preview |
| WTD | water table depth | m | length | Preview |
Statistics
5
0
Technical information
1, 0
0014325980a824e42056b19eda974eead41bfd541ce743167d1ddcdbc1415e1a
ABQyWYCoJOQgVrGe2pdO6tQb/VQc50MWfR3c28FBXho
ICOS
meteo