Non‐native fishes and climate change: predicting species responses to warming temperatures in a temperate region

Britton, J. Robert; Cucherousset, Julien; Davies, Gareth; Godard, Michael; Copp, Gordon H.

doi:10.1111/j.1365-2427.2010.02396.x

Cited by 168 publications

(173 citation statements)

References 53 publications

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“…By contrast, the following non-native fishes were omitted from the study to avoid confounding issues with their heavy use in aquaculture would have potentially exposed them to a range of anti-parasite treatments: common carp Cyprinus carpio, goldfish Carassius auratus, rainbow trout Oncorhynchus mykiss and ide Leuciscus idus. Indeed, should any of these species be sampled in the wild in England and Wales then there is high probability they originated from a fish-farm as there are, for example, few naturally recruiting populations of C. carpio and O. mykiss present (Fausch 2007;Britton et al 2010). In addition, the regulations on their releases into the wild in the countries are comparatively light compared with the species included in this study, with regulations concerning C. carpio and O. mykiss broadly similar to some native fishes.…”

Section: Non-native Fish Speciesmentioning

confidence: 99%

Parasites of non-native freshwater fishes introduced into England and Wales suggest enemy release and parasite acquisition

et al. 2015

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When non-native species are introduced into a new range, their parasites can also be introduced, with these potentially spilling-over into native hosts. However, in general, evidence suggests that a high proportion of their native parasites are lost during introduction and infections by some new parasites from the native range might occur, potentially resulting in parasite spill-back to native species. These processes were investigated here using parasite surveys and literature review on seven non-native freshwater fishes introduced into England and Wales. Comparison of the mean numbers of parasite species and genera per population for each fish species England and Wales with their native ranges revealed\9 % of the native parasite fauna were present in their populations in England and Wales. There was no evidence suggesting these introduced parasites had spilled over into sympatric native fishes. The non-native fishes did acquire parasites following their introduction, providing potential for parasite spill-back to sympatric fishes, and resulted in non-significant differences in overall mean numbers of parasites per populations between the two ranges. Through this acquisition, the non-native fishes also had mean numbers of parasite species and genera per population that were not significantly different to sympatric native fishes. Thus, the non-native fishes in England and Wales showed evidence of enemy release, acquired new parasites following introduction providing potential for spill-back, but showed no evidence of parasite spill-over.

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Section: Non-native Fish Speciesmentioning

confidence: 99%

Parasites of non-native freshwater fishes introduced into England and Wales suggest enemy release and parasite acquisition

et al. 2015

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“…A few studies have shown that impacts of IAS are higher in the environmental conditions for which they are adapted (e.g., oxygen concentration [MacNeil et al 2004]; salinity [Alcaraz et al 2008]; conductivity [Kestrup and Ricciardi 2009]). However, assessments of how climate change can affect the consumptive per capita impact of IAS are lacking in comparison to investigations of how abundance and area occupied will be affected (Parker et al 1999, Hellmann et al 2008 Peterson 2003, Bomford et al 2010, Britton et al 2010, to our knowledge no such procedure has been applied to impact; measurements of functional and physiological responses along environmental gradients could be useful predictors of the consumptive impacts of established IAS on native communities. Here, we provide the first general test of the Environmental Matching Hypothesis by conducting a meta-analysis of published data to examine the importance of temperature in determining IAS impact levels.…”

Section: Introductionmentioning

confidence: 99%

Ecological impacts of invasive alien species along temperature gradients: testing the role of environmental matching

Iacarella

Dick

Alexander

et al. 2015

Ecological Applications

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General rights Copyright for the publications made accessible via the Queen's University Belfast Research Portal is retained by the author(s) and / or other copyright owners and it is a condition of accessing these publications that users recognise and abide by the legal requirements associated with these rights. Abstract. Invasive alien species (IAS) can cause substantive ecological impacts, and the role of temperature in mediating these impacts may become increasingly significant in a changing climate. Habitat conditions and physiological optima offer predictive information for IAS impacts in novel environments. Here, using meta-analysis and laboratory experiments, we tested the hypothesis that the impacts of IAS in the field are inversely correlated with the difference in their ambient and optimal temperatures. A meta-analysis of 29 studies of consumptive impacts of IAS in inland waters revealed that the impacts of fishes and crustaceans are higher at temperatures that more closely match their thermal growth optima. In particular, the maximum impact potential was constrained by increased differences between ambient and optimal temperatures, as indicated by the steeper slope of a quantile regression on the upper 25th percentile of impact data compared to that of a weighted linear regression on all data with measured variances. We complemented this study with an experimental analysis of the functional response (the relationship between predation rate and prey supply) of two invasive predators (freshwater mysid shrimp, Hemimysis anomala and Mysis diluviana) across relevant temperature gradients; both of these species have previously been found to exert strong community-level impacts that are corroborated by their functional responses to different prey items. The functional response experiments showed that maximum feeding rates of H. anomala and M. diluviana have distinct peaks near their respective thermal optima. Although variation in impacts may be caused by numerous abiotic or biotic habitat characteristics, both our analyses point to temperature as a key mediator of IAS impact levels in inland waters and suggest that IAS management should prioritize habitats in the invaded range that more closely match the thermal optima of targeted invaders.

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“…Such cold-water species may be vulnerable to the effects of warming temperatures caused by climate change (cf. Britton et al 2010;Hulme 2017). In some streams in Nova Scotia, the population density of brook trout was strongly related to water temperature, as streams that had a summer water temperature of 19 o C or more contained either few or no brook trout (MacMillan et al 2008).…”

Section: Discussionmentioning

confidence: 99%

“…For the majority of non-native species, no quantitative information is available regarding the consequences of such introductions (Simberloff et al 2013). Brook trout is classified as a medium-risk species among nonnative freshwater fish (Copp et al 2009;Britton et al 2010). Our article describes the distribution of brook trout in Norwegian water bodies.…”

Section: Methodsmentioning

confidence: 99%

Distribution of non-native brook trout (Salvelinus fontinalis) across Norwegian waterbodies – is it an invasive species?

2018

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Non-native brook trout (Salvelinus fontinalis MITCHILL, 1815) was introduced into Norway in 1883. However, it was not until the late 1970s that this acid-tolerant salmonid species was stocked into many acidified lakes that many populations became established. In 2004, all brook trout stocking in Norway ceased. In this study, we surveyed the distribution of brook trout in Norwegian water bodies. A totally of 202 self-sustaining populations were identified, mostly in unregulated lakes (n=101), streams (n=71) and also to some extent in reservoirs (n=25). Only four populations were found in inland rivers, and one population in a river with Atlantic salmon (Salmo salar L.). Localities with brook trout covered a wide range of altitudes and sizes. Analyses of time-series catches in sympatric populations of brown trout (Salmo trutta L.) and brook trout from 12 lakes (1997-2012) revealed a strong decline in brook trout stocks. A similar development in abundance has also emerged from other studies in recent years. Generally, lake-dwelling brook trout is regarded as a low-risk species with respect to invasiveness. However, brook trout/brown trout interactions may be habitat-specific, as brook trout may dominate in small and relatively cold streams.

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Non‐native fishes and climate change: predicting species responses to warming temperatures in a temperate region

Cited by 168 publications

References 53 publications

Parasites of non-native freshwater fishes introduced into England and Wales suggest enemy release and parasite acquisition

Parasites of non-native freshwater fishes introduced into England and Wales suggest enemy release and parasite acquisition

Ecological impacts of invasive alien species along temperature gradients: testing the role of environmental matching

Distribution of non-native brook trout (Salvelinus fontinalis) across Norwegian waterbodies – is it an invasive species?

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