The effects of satellite soil moisture data on the parametrization of topsoil and root zone soil moisture in a conceptual hydrological model

Title:

The effects of satellite soil moisture data on the parametrization of topsoil and root zone soil moisture in a conceptual hydrological model

Creator:

Kuban, Martin, Parajka, Juraj, Tong, Rui, Greimeister-Pfeil, Isabella, Vreugdenhil, Mariette, Szolgay, Jan, Kohnova, Silvia, Hlavcova, Kamila, Sleziak, Patrik, and Brziak, Adam

Identifier:

https://cdk.lib.cas.cz/client/handle/uuid:01a120bb-1367-40c2-8ec3-68da8a0c6463
uuid:01a120bb-1367-40c2-8ec3-68da8a0c6463
doi:10.2478/johh-2022-0021

Subject:

ASCAT, TUW model, soil moisture, multi-objective calibration, and parameter uncertainty

Type:

model:article and TEXT

Format:

počítač and online zdroj

Description:

In a previous study, the topsoil and root zone ASCAT satellite soil moisture data were implemented into three multi-objective calibration approaches of the TUW hydrological model in 209 Austrian catchments. This paper examines the model parametrization in those catchments, which in the validation of the dual-layer conceptual semi-distributed model showed improvement in the runoff simulation efficiency compared to the single objective runoff calibration. The runoff simulation efficiency of the three multi-objective approaches was separately considered. Inferences about the specific location and the physiographic properties of the catchments where the inclusion of ASCAT data proved beneficial were made. Improvements were primarily observed in the watersheds with lower slopes (median of the catchment slope less than 15 per cent) and a higher proportion of farming land use (median of the proportion of agricultural land above 20 per cent), as well as in catchments where the runoff is not significantly influenced by snowmelt and glacier runoff. Changes in the mean and variability of the field capacity parameter FC of the soil moisture regime were analysed. The values of FC decreased by 20 per cent on average. Consequently, the catchments’ water balance closure generally improved by the increase in catchment evapotranspiration during the validation period. Improvements in model efficiency could be attributed to better runoff simulation in the spring and autumn month. The findings refine recommendations regarding when hydrological modelling could consider satellite soil moisture data added to runoff signatures in calibration useful.

Language:

Slovak

Rights:

http://creativecommons.org/licenses/by-nc-sa/4.0/
policy:public

Coverage:

295-307

Source:

Journal of hydrology and hydromechanics | 2022 Volume:70 | Number:3

Harvested from:

CDK

Metadata only:

false