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Trends in flow intermittence for European rivers

Authors :
Tramblay, Yves
Rutkowska, Agnieszka
Sauquet, Eric
Sefton, Catherine
Laaha, Gregor
Osuch, Marzena
Albuquerque, Teresa
Alves, Maria Helena
Banasik, Kazimierz
Beaufort, Aurelien
Brocca, Luca
Camici, Stefania
Csabai, Zoltán
Dakhlaoui, Hamouda
DeGirolamo, Anna Maria
Dörflinger, Gerald
Gallart, Francesc
Gauster, Tobias
Hanich, Lahoucine
Kohnová, Silvia
Mediero, Luis
Plamen, Ninov
Parry, Simon
Quintana-Seguí, Pere
Tzoraki, Ourania
Datry, Thibault
Tramblay, Yves
Rutkowska, Agnieszka
Sauquet, Eric
Sefton, Catherine
Laaha, Gregor
Osuch, Marzena
Albuquerque, Teresa
Alves, Maria Helena
Banasik, Kazimierz
Beaufort, Aurelien
Brocca, Luca
Camici, Stefania
Csabai, Zoltán
Dakhlaoui, Hamouda
DeGirolamo, Anna Maria
Dörflinger, Gerald
Gallart, Francesc
Gauster, Tobias
Hanich, Lahoucine
Kohnová, Silvia
Mediero, Luis
Plamen, Ninov
Parry, Simon
Quintana-Seguí, Pere
Tzoraki, Ourania
Datry, Thibault
Publication Year :
2021

Abstract

Intermittent rivers are prevalent in many countries across Europe, but little is known about the temporal evolution of intermittence and its relationship with climate variability. Trend analysis of the annual and seasonal number of zero-flow days, the maximum duration of dry spells and the mean date of the zero-flow events is performed on a database of 452 rivers with varying degrees of intermittence between 1970 and 2010. The relationships between flow intermittence and climate are investigated using the standardized precipitation evapotranspiration index (SPEI) and climate indices describing large-scale atmospheric circulation. The results indicate a strong spatial variability of the seasonal patterns of intermittence and the annual and seasonal number of zero-flow days, highlighting the controls exerted by local catchment properties. Most of the detected trends indicate an increasing number of zero-flow days, which also tend to occur earlier in the year, particularly in southern Europe. The SPEI is found to be strongly related to the annual and seasonal zero-flow day occurrence in more than half of the stations for different accumulation times between 12 and 24 months. Conversely, there is a weaker dependence of river intermittence with large-scale circulation indices. Overall, these results suggest increased water stress in intermittent rivers that may affect their biota and biochemistry and also reduce available water resources.

Details

Database :
OAIster
Notes :
text, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1237968038
Document Type :
Electronic Resource