Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/4840
Title: Changing climate may mitigate the invasiveness risk of non-native salmonids in the Danube and Adriatic basins of the Balkan Peninsula (south-eastern Europe)
Authors: Marić, Ana 
Špelić, Ivan
Radočaj, Tena
Vidović, Zoran
Kanjuh, Tamara 
Vilizzi, Lorenzo
Piria, Marina
Nikolić, Vera 
Škraba Jurlina, Dubravka
Mrdak, Danilo
Simonović, Predrag 
Keywords: AS-ISK;Extant;Fish;Horizon;Invasive;Risk screening
Issue Date: 3-Oct-2022
Rank: M21
Project: EIFAAC Project on Aquatic Invasive Species in Europe
Journal: NeoBiota
Abstract: 
Salmonids are an extensively hatchery-reared group of fishes that have been introduced worldwide mainly for their high commercial and recreational value. The Balkan Peninsula (south-eastern Europe) is characterised by an outstanding salmonid diversity that has become threatened by the introduction of non-native salmonids whose potential risk of invasiveness in the region remains unknown and especially so under predicted climate change conditions. In this study, 13 extant and four horizon non-native salmonid species were screened for their risk of invasiveness in the Danube and Adriatic basins of four Balkan countries. Overall, six (35%) of the screened species were ranked as carrying a high risk of invasiveness under current climate conditions, whereas under predicted conditions of global warming, this number decreased to three (17%). Under current climate conditions, the very high risk (‘top invasive’) species were rainbow trout Oncorhynchus mykiss and brown trout Salmo trutta (sensu stricto), whereas under predicted climate change, this was true only of O. mykiss. A high risk was also attributed to horizon vendace Coregonus albula and lake charr Salvelinus namaycush, and to extant Atlantic salmon Salmo salar and brook trout Salvelinus fontinalis, whose risk of invasiveness, except for S. fontinalis, decreased to medium. For the other eleven medium-risk species, the risk score decreased under predicted climate change, but still remained medium. The outcomes of this study reveal that global warming will influence salmonids and that only species with wider temperature tolerance, such as O. mykiss will likely prevail. It is anticipated that the present results may contribute to the implementation of appropriate management plans to prevent the introduction and translocation of non-native salmonids across the Balkan Peninsula. Additionally, adequate measures should be developed for aquaculture facilities to prevent escapees of non-native salmonids with a high risk of invasiveness, especially into recipient areas of high conservation value.
URI: https://biore.bio.bg.ac.rs/handle/123456789/4840
DOI: 10.3897/neobiota
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