Attributing the drivers of runoff decline in the Thaya river basin

The Thaya river basin provides multiple water uses in the transboundary region of Lower Austria and Southern Moravia. Due to the low precipitation (P) to reference evapotranspiration (ETo) ratio, the Thaya river basin is among the most sensitive to climate change in the region. The main objective is...

Full description

Saved in:
Bibliographic Details
Published in:Journal of hydrology. Regional studies 2023-08, Vol.48, p.101436, Article 101436
Main Authors: Fischer, Milan, Pavlík, Petr, Vizina, Adam, Bernsteinová, Jana, Parajka, Juraj, Anderson, Martha, Řehoř, Jan, Ivančicová, Jana, Štěpánek, Petr, Balek, Jan, Hain, Christopher, Tachecí, Pavel, Hanel, Martin, Lukeš, Petr, Bláhová, Monika, Dlabal, Jiří, Zahradníček, Pavel, Máca, Petr, Komma, Jürgen, Rapantová, Nad’a, Feng, Song, Janál, Petr, Zeman, Evžen, Žalud, Zdeněk, Blöschl, Günter, Trnka, Miroslav
Format: Article
Language:English
Subjects:
Climate change
Evapotranspiration
Precipitation
Remote sensing
Runoff
Trend analysis
Water balance
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The Thaya river basin provides multiple water uses in the transboundary region of Lower Austria and Southern Moravia. Due to the low precipitation (P) to reference evapotranspiration (ETo) ratio, the Thaya river basin is among the most sensitive to climate change in the region. The main objective is to understand the changes in the water balance variables including actual evapotranspiration (ET), P and runoff (RO) and their drivers for the period 1981–2020, and 2001–2020 in the case of using remote sensing data. The analyses confirm previously reported increasing trends in air temperature, ETo, and no trends in P. ET consistently increased during spring and decreased during summer, although insignificantly. This change was associated with a significant increase of spring vegetation development followed by summer stagnation. The spring RO shows significantly decreasing trends, especially in the upland water source areas. The correlation analysis reveals a different behavior along the altitude gradient, with ET in the uplands generally limited by available energy whilst in the lowlands by available water in spring. In summer, however, the entire basin is often water-limited, with a more pronounced limitation in the lowlands. Complex adaptation measures reflecting the different hydroclimate relations across the altitudinal gradient are needed to sustain the water dependent sectors operating in the region facing increasing aridity. [Display omitted] •Runoff is decreasing in the Thaya river basin with the strongest decline in spring.•This decline is driven by increasing temperature while stagnating precipitation.•Evapotranspiration of headwater catchments is limited by energy in spring.•Evapotranspiration of the entire basin is limited by water in summer.
ISSN:2214-5818
2214-5818
DOI:10.1016/j.ejrh.2023.101436