High densities of conspecifics buffer native fish from negative interactions with an ecologically similar invasive

Invasive species are a leading cause for native species declines, yet it remains unclear whether maintenance of high native densities influence native persistence in freshwater systems. We designed complementary laboratory and field experiments to test whether high native cutthroat trout ( Oncorhync...

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Published in	Biological invasions Vol. 24; no. 5; pp. 1283 - 1297
Main Authors	Pennock, Casey A., Carl Saunders, W., Budy, Phaedra
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.05.2022 Springer Nature B.V
Subjects	Biomedical and Life Sciences Buffers conspecificity Conspecifics Density Developmental Biology Ecological effects Ecology Experiments Field tests Fish Fish populations freshwater Freshwater & Marine Ecology Indigenous species Introduced species Invasive fish Invasive species Laboratories Life Sciences Native species Oncorhynchus clarkii Original Paper Plant Sciences Population decline Salmo trutta Salmon Sympatric populations sympatry Trout Virulence Competition Biological invasion Wildlife disease Social behavior Experiment
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ISSN	1387-3547 1573-1464
DOI	10.1007/s10530-021-02725-y

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Abstract	Invasive species are a leading cause for native species declines, yet it remains unclear whether maintenance of high native densities influence native persistence in freshwater systems. We designed complementary laboratory and field experiments to test whether high native cutthroat trout ( Oncorhynchus clarkii ) densities affect competition with invasive brown trout ( Salmo trutta ). We manipulated density of native cutthroat trout while holding brown trout density constant. Interspecific aggressive interactions towards native cutthroat trout were 66% fewer in the highest cutthroat trout density treatment compared to the lowest density treatment. At high densities of conspecifics, cutthroat trout, sympatric with brown trout, lost 33–81% less weight and demonstrated 1.5 times greater survival in both experiments than at low conspecific densities. Cutthroat trout held at low densities in laboratory experiments experienced greater stress-related disease virulence and negative effects of harassment, apparently owing to more frequent aggressive interactions with brown trout. These results support the hypothesis that reduced per capita effects of invaders on native fish at high densities buffers native species from negative effects of invaders, reducing the potential for invasive fish to displace high density native fish populations.
AbstractList	Invasive species are a leading cause for native species declines, yet it remains unclear whether maintenance of high native densities influence native persistence in freshwater systems. We designed complementary laboratory and field experiments to test whether high native cutthroat trout (Oncorhynchus clarkii) densities affect competition with invasive brown trout (Salmo trutta). We manipulated density of native cutthroat trout while holding brown trout density constant. Interspecific aggressive interactions towards native cutthroat trout were 66% fewer in the highest cutthroat trout density treatment compared to the lowest density treatment. At high densities of conspecifics, cutthroat trout, sympatric with brown trout, lost 33–81% less weight and demonstrated 1.5 times greater survival in both experiments than at low conspecific densities. Cutthroat trout held at low densities in laboratory experiments experienced greater stress-related disease virulence and negative effects of harassment, apparently owing to more frequent aggressive interactions with brown trout. These results support the hypothesis that reduced per capita effects of invaders on native fish at high densities buffers native species from negative effects of invaders, reducing the potential for invasive fish to displace high density native fish populations. Invasive species are a leading cause for native species declines, yet it remains unclear whether maintenance of high native densities influence native persistence in freshwater systems. We designed complementary laboratory and field experiments to test whether high native cutthroat trout ( Oncorhynchus clarkii ) densities affect competition with invasive brown trout ( Salmo trutta ). We manipulated density of native cutthroat trout while holding brown trout density constant. Interspecific aggressive interactions towards native cutthroat trout were 66% fewer in the highest cutthroat trout density treatment compared to the lowest density treatment. At high densities of conspecifics, cutthroat trout, sympatric with brown trout, lost 33–81% less weight and demonstrated 1.5 times greater survival in both experiments than at low conspecific densities. Cutthroat trout held at low densities in laboratory experiments experienced greater stress-related disease virulence and negative effects of harassment, apparently owing to more frequent aggressive interactions with brown trout. These results support the hypothesis that reduced per capita effects of invaders on native fish at high densities buffers native species from negative effects of invaders, reducing the potential for invasive fish to displace high density native fish populations.
Author	Budy, Phaedra Pennock, Casey A. Carl Saunders, W.
Author_xml	– sequence: 1 givenname: Casey A. orcidid: 0000-0002-3547-6477 surname: Pennock fullname: Pennock, Casey A. organization: Department of Watershed Sciences and The Ecology Center, Utah State University – sequence: 2 givenname: W. surname: Carl Saunders fullname: Carl Saunders, W. email: carl.saunders@usu.edu organization: Department of Watershed Sciences and The Ecology Center, Utah State University, PacFish InFish Biological Opinion Effectiveness Monitoring Program, Forest Service, U.S. Department of Agriculture – sequence: 3 givenname: Phaedra surname: Budy fullname: Budy, Phaedra organization: Department of Watershed Sciences and The Ecology Center, Utah State University, U. S. Geological Survey, Utah Cooperative Fish and Wildlife Research Unit, Utah State University
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Snippet	Invasive species are a leading cause for native species declines, yet it remains unclear whether maintenance of high native densities influence native...
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SubjectTerms	Biomedical and Life Sciences Buffers conspecificity Conspecifics Density Developmental Biology Ecological effects Ecology Experiments Field tests Fish Fish populations freshwater Freshwater & Marine Ecology Indigenous species Introduced species Invasive fish Invasive species Laboratories Life Sciences Native species Oncorhynchus clarkii Original Paper Plant Sciences Population decline Salmo trutta Salmon Sympatric populations sympatry Trout Virulence
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Title	High densities of conspecifics buffer native fish from negative interactions with an ecologically similar invasive
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