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Diurnal Footprints for Zurich-Hardau at 30-min resolution - 2023-02-12

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2023-02-12

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Latest version(s): HJOk3ws-a0y_lag2fMcKJg9i
11676/BL8U2rmifzVMQrAdVeEGq1o- (link)

NOTE: This data object has been deprecated because the spatial coordinates of the calculated footprints contain errors. Do not use.

This file contains flux footprints for the Zurich-Hardau flux-tower in Switzerland at 30-minute temporal resolution. The filename includes the date of all footprints contained. Each file contains up to 48 footprints with the following variables each: Time, X, Y, Boundary Layer Height Quality Flag, and Footprint Climatology. The flux footprints are computed using FFP as described in Kljun et al. (2015), https://doi.org/10.5194/gmd‐8‐3695‐2015, at 10-meter spatial resolution.

This work is part of the ICOS Cities/PAUL Pilot Applications in Urban Landscapes project.

2023-02-12 03:00:00
2023-02-12 22:30:00
half-hourly
Molinier, B., Kljun, N. (2024). Diurnal Footprints for Zurich-Hardau at 30-min resolution - 2023-02-12, 2023-02-12, ICOS Cities, https://hdl.handle.net/11676/BL8U2rmifzVMQrAdVeEGq1o-
BibTex
@misc{https://hdl.handle.net/11676/BL8U2rmifzVMQrAdVeEGq1o-,
  author={Molinier, Betty and Kljun, Natascha},
  title={Diurnal Footprints for Zurich-Hardau at 30-min resolution - 2023-02-12, 2023-02-12},
  year={2024},
  note={NOTE: This data object has been deprecated because the spatial coordinates of the calculated footprints contain errors. Do not use.

This file contains flux footprints for the Zurich-Hardau flux-tower in Switzerland at 30-minute temporal resolution. The filename includes the date of all footprints contained. Each file contains up to 48 footprints with the following variables each: Time, X, Y, Boundary Layer Height Quality Flag, and Footprint Climatology. The flux footprints are computed using FFP as described in Kljun et al. (2015), https://doi.org/10.5194/gmd‐8‐3695‐2015, at 10-meter spatial resolution.

This work is part of the ICOS Cities/PAUL Pilot Applications in Urban Landscapes project.
},
  keywords={Flux footprints, atmospheric modelling, urban flux, ICOS Cities},
  url={https://hdl.handle.net/11676/BL8U2rmifzVMQrAdVeEGq1o-},
  publisher={Carbon Portal},
  copyright={http://meta.icos-cp.eu/ontologies/cpmeta/icosLicence},
  pid={11676/BL8U2rmifzVMQrAdVeEGq1o-}
}
RIS
TY - DATA
T1 - Diurnal Footprints for Zurich-Hardau at 30-min resolution - 2023-02-12, 2023-02-12
ID - 11676/BL8U2rmifzVMQrAdVeEGq1o-
PY - 2024
AB - NOTE: This data object has been deprecated because the spatial coordinates of the calculated footprints contain errors. Do not use.

This file contains flux footprints for the Zurich-Hardau flux-tower in Switzerland at 30-minute temporal resolution. The filename includes the date of all footprints contained. Each file contains up to 48 footprints with the following variables each: Time, X, Y, Boundary Layer Height Quality Flag, and Footprint Climatology. The flux footprints are computed using FFP as described in Kljun et al. (2015), https://doi.org/10.5194/gmd‐8‐3695‐2015, at 10-meter spatial resolution.

This work is part of the ICOS Cities/PAUL Pilot Applications in Urban Landscapes project.

UR - https://hdl.handle.net/11676/BL8U2rmifzVMQrAdVeEGq1o-
PB - Carbon Portal
AU - Molinier, Betty
AU - Kljun, Natascha
KW - Flux footprints
KW - atmospheric modelling
KW - urban flux
KW - ICOS Cities
ER - 
zurich_footprint_230212.nc
31 MB (32046004 bytes)
3

Acquisition

2023-02-12 03:00:00
2023-02-12 22:30:00

Production

2024-06-24 11:00:00

Statistics

3

Submission

2024-06-27 10:49:29
2024-06-27 10:43:59

Technical information

04bf14dab9a27f354c42b01d55e106ab5a3e15fdcdb64eb3d3e0b1a26938dce9
BL8U2rmifzVMQrAdVeEGq1o+Ff3Ntk6z0+Cxomk43Ok
[(Lat: 47.32634, Lon: 8.429202), (Lat: 47.436353, Lon: 8.429202), (Lat: 47.436353, Lon: 8.591174), (Lat: 47.32634, Lon: 8.591174)]
Flux footprints ICOS Cities atmospheric modelling urban flux
3 pilot cities
15 countries
15 cities
30 scientific partners
13M€ funding
2021-2025
EU flag PAUL, Pilot Applications in Urban Landscapes - Towards integrated city observatories for greenhouse gases (ICOS Cities), has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under grant agreement No 101037319.