ETC NRT Meteo from Lonzee
2022-12-31–2023-09-28
Deprecated data
Latest version:
xM-csyYIBQmBRYLS5RXn8sNO
11676/SjkOyFSpMamymh5afTI__DbG (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
Dumont, B., Bogaerts, G., Chopin, H., De Ligne, A., Demoulin, L., Faurès, A., Heinesch, B., Longdoz, B., Manise, T., Orgun, A. (2023). ETC NRT Meteo from Lonzee, 2022-12-31–2023-09-28, ICOS RI, https://hdl.handle.net/11676/SjkOyFSpMamymh5afTI__DbG
BibTex
@misc{https://hdl.handle.net/11676/SjkOyFSpMamymh5afTI__DbG,
author={Dumont, Benjamin and Bogaerts, Gaëtan and Chopin, Henri and De Ligne, Anne and Demoulin, Loïc and Faurès, Ariane and Heinesch, Bernard and Longdoz, Bernard and Manise, Tanguy and Orgun, Ayche},
title={ETC NRT Meteo from Lonzee, 2022-12-31–2023-09-28},
year={2023},
url={https://hdl.handle.net/11676/SjkOyFSpMamymh5afTI__DbG},
publisher={Ecosystem Thematic Centre},
copyright={http://meta.icos-cp.eu/ontologies/cpmeta/icosLicence},
pid={11676/SjkOyFSpMamymh5afTI__DbG}
}
RIS
TY - DATA T1 - ETC NRT Meteo from Lonzee, 2022-12-31–2023-09-28 ID - 11676/SjkOyFSpMamymh5afTI__DbG PY - 2023 UR - https://hdl.handle.net/11676/SjkOyFSpMamymh5afTI__DbG PB - Ecosystem Thematic Centre AU - Dumont, Benjamin AU - Bogaerts, Gaëtan AU - Chopin, Henri AU - De Ligne, Anne AU - Demoulin, Loïc AU - Faurès, Ariane AU - Heinesch, Bernard AU - Longdoz, Bernard AU - Manise, Tanguy AU - Orgun, Ayche ER -
ICOSETC_BE-Lon_METEO_NRT.zip
View contents
| File | Size | |
|---|---|---|
| Loading... |
628 KB (642942 bytes)
13009
1
Acquisition
2022-12-31 22:30:00
2023-09-28 23:00:00
Production
2023-09-29 07:05:26
Previewable variables
| Name | Value type | Unit | Quantity kind | Preview |
|---|---|---|---|---|
| TIMESTAMP | time instant, UTC | |||
| TIMESTAMP_END | time instant, local non-DST time | |||
| D_SNOW | snow depth | cm | length | Preview |
| G_1 | soil heat flux | W m-2 | energy flux | Preview |
| G_2 | soil heat flux | 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 |
| P | precipitation (total) | mm | length | Preview |
| PA | atmospheric pressure | kPa | pressure | 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 |
| RH | relative humidity | % | portion | 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 |
| SW_IN | incoming shortwave radiation | W m-2 | energy flux | Preview |
| SW_OUT | outgoing shortwave radiation | W m-2 | energy flux | Preview |
| TA | air temperature | °C | temperature | 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 |
| VPD | vapour pressure deficit | hPa | pressure | Preview |
| WTD | water table depth | m | length | Preview |
Statistics
3
0
Technical information
1, 0
4a390ec854a931a9b29a1e5a7d323ffc36c6b5ddee2174cc00a00bc0cb9a3518
SjkOyFSpMamymh5afTI//DbGtd3uIXTMAKALwMuaNRg
ICOS
meteo