On the reintroduction of the endangered thick-shelled river mussel Unio crassus: The importance of the river's longitudinal profile

•Freshwater mussels constitute one of the most endangered groups of organisms in the world.•The Biała River was studied with regard to existing and reintroduced populations of endangered mussel species.•Neither physicochemical water parameters nor fish hosts distribution correlated with the mussels...

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Bibliographic Details
Published in:The Science of the total environment 2018-05, Vol.624, p.273-282
Main Authors: Zając, Katarzyna, Florek, Jacek, Zając, Tadeusz, Adamski, Paweł, Bielański, Wojciech, Ćmiel, Adam M., Klich, Mariusz, Lipińska, Anna M.
Format: Article
Language:English
Subjects:
Animals
Channel morphology
Conservation of Natural Resources
Ecosystem
Endangered Species
Freshwater mussel restoration
Functional habitat
Mussels recruitment
Poland
Rivers
Unio
Unionidae
Water chemistry
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Summary:•Freshwater mussels constitute one of the most endangered groups of organisms in the world.•The Biała River was studied with regard to existing and reintroduced populations of endangered mussel species.•Neither physicochemical water parameters nor fish hosts distribution correlated with the mussels distribution.•Hydromorphological variables were correlated with mussels' distribution, recruitment and success of the reintroduction. [Display omitted] Freshwater mussels of the order Unionida provide important ecosystem functions and services. Unfortunately, some previously widespread species are now seriously endangered. To restore the historical range of the population of Unio crassus in the Biała River, southern Poland, the species was reintroduced into a series of ‘stepping stones’ joining two remnant populations. During the first phase of the study, the relationships between the abundance of U. crassus, physical habitat, and water quality were studied to assess reintroduction potential. In general, chemical water quality improved upstream from the existing population, favouring the decision for reintroduction, whereas morphological variables worsened. Mussel abundance was correlated negatively with the elevation and slope of channel, organic matter contents, and pH (exceeding 8.0), but positively with silt presence, water conductivity, and concentrations of HCO3−, Ca2+, and NO3−. During the second phase, adult individuals were introduced into one type of functional habitat—marginal channel sectors with still water and fine sediment. Despite the initial very high rate of reproduction in some parts of the upper reach of the river, the juveniles were ultimately recruited only in the lower part of the restored range, resulting in a very rapid change in recruitment at a channel slope of 1.8‰. Recruitment was positively related to silt content, conductivity, and Ca2+ and HCO3– ions, negatively to channel elevation and slope, and water pH. The host fish species showed no correlation with abiotic habitat features within the studied reach. These results imply that most of the habitat traits related to U. crassus occurrence depended on the river's longitudinal profile, not on the chemical water quality, and that final success of introduction should be evaluated after several years.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2017.11.346