PL-SWAT-51_20: a high-resolution simulated water balance and streamflow data set for 1951-2020 for the territory of Poland
DOI:10.4121/16843183.v1
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DOI: 10.4121/16843183
DOI: 10.4121/16843183
Datacite citation style
Marcinkowski, Paweł; I. (Ignacy) Kardel; Płaczkowska, Eliza; Giełczewski, Marek; Paweł Osuch et. al. (2021): PL-SWAT-51_20: a high-resolution simulated water balance and streamflow data set for 1951-2020 for the territory of Poland. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/16843183.v1
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Dataset
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Categories
Time coverage 1/1/1951-12/31/2020
Licence CC0
Interoperability
by
Paweł Marcinkowski,
I. (Ignacy) Kardel
,
Eliza Płaczkowska,
Marek Giełczewski,
Paweł Osuch,
Tomasz Okruszko,
Nelson Venegas-Cordero,
stefan ignar,
Mikołaj Piniewski
,
Eliza Płaczkowska,
Marek Giełczewski,
Paweł Osuch,
Tomasz Okruszko,
Nelson Venegas-Cordero,
stefan ignar,
Mikołaj Piniewski
The
PL+ SWAT model hydrology dataset was derived for years 1951-2020 at sub-basin and
reach level, with a daily time step. It includes model outputs for 4381 subbasins and river reaches covering the Poland territory and parts of the neighbouring countries from which water drains to Poland. At sub-basin level, the dataset contains average daily water balance components including precipitation total, snowfall, snowmelt, evapotranspiration (actual and potential), surface runoff, percolation, groundwater recharge, groundwater flow, tile flow and water yield (all components in mm/day) and soil water (mm) were included. At reach level it includes average daily streamflow values (m3/s).
The applied model was extensively calibrated and validated following a two-stage, multi-site calibration approach for 88 gauging stations across Poland for the period 2000-2019. The simulations showed satisfactory performance with a median Kling-Gupta efficiency of 0.73 and 0.69 in the calibration and validation period, respectively.
The applied model was extensively calibrated and validated following a two-stage, multi-site calibration approach for 88 gauging stations across Poland for the period 2000-2019. The simulations showed satisfactory performance with a median Kling-Gupta efficiency of 0.73 and 0.69 in the calibration and validation period, respectively.
History
- 2021-10-29 first online, published, posted
Publisher
4TU.ResearchDataFormat
NetCDFOrganizations
Warsaw University of Life Sciences (SGGW)DATA
Files (7)
- 589,903 bytesMD5:
f478fe7d0aef4994b636c71d41e02ea5readme_PL_SWAT_51_20.pdf - 1,792,335,976 bytesMD5:
94d63364153607f3d4f56436badadcf2PL_SWAT_51_20_ prec_pet_et_wyld_subbasin.nc - 1,792,336,004 bytesMD5:
3712045972b3774e85078ad8f4677345PL_SWAT_51_20_ surq__gwrchg_baseflow_tileq_subbasin.nc - 1,089,983 bytesMD5:
1a13ea9609fd0608dcd79fe394df6412PL_SWAT_51_20_extent.kml - 1,792,336,132 bytesMD5:
b3656db9793cc5c6d3ffaf2c199ee998PL_SWAT_51_20_snowmelt_snowfall_soilwater_perc_subbasin.nc - 448,174,384 bytesMD5:
8a2d39b30df464ea22bfc6ade894861dPL_SWAT_51_20_streamflow.nc - 12,165,789 bytesMD5:
235015798c3f00c82251ee4ee82ea064shapefiles.zip -
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