River water temperature quantiles as thermal stress indicators: Case study in Switzerland

[Display omitted] •Statistical distributions are fitted to water temperature extremes.•Distributions are compared using various selection criteria.•The Weibull and Normal distributions are most frequently selected.•Thermally homogeneous regions are defined in Switzerland.•Temperature quantiles are u...

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Bibliographic Details
Published in:Ecological indicators 2021-11, Vol.131, p.108234, Article 108234
Main Authors: Souaissi, Zina, Ouarda, Taha B.M.J., St-Hilaire, André
Format: Article
Language:English
Subjects:
Discordancy measure
Extreme river temperature
Goodness-of-fit criteria
L-moment ratio diagram
Local frequency analysis
Probability distribution
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Summary:[Display omitted] •Statistical distributions are fitted to water temperature extremes.•Distributions are compared using various selection criteria.•The Weibull and Normal distributions are most frequently selected.•Thermally homogeneous regions are defined in Switzerland.•Temperature quantiles are used as indicators of thermal stress for Brown trout. The variability of the river water thermal regime has important consequences on the environment and aquatic habitat. In 25 independent and identically distributed stations in Switzerland, local frequency analysis is used to quantify extreme river temperatures. Probability distributions are fitted to the data to estimate maximum water temperatures corresponding to different return periods. The goodness of fit of statistical distributions are evaluated using the Akaike and Bayesian Information Criteria. L-moment ratio diagrams are also used to validate the choices of appropriate candidate distributions. Results show that for high altitude stations the two-parameter Weibull (W2) distribution is the most adequate distribution to represent extreme river water temperatures while for low altitude stations the most commonly selected distributions are the Normal (N) and Inverse Gamma (IG). The L-moment ratio diagrams confirm the results of the local frequency analysis. These results point to the presence of a regional homogeneity in the thermal regime of the study area. River temperature quantiles are compared to know thresholds above which thermal stress occurs for a relatively ubiquitous salmonid species in Europe (Brown trout).
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2021.108234