2017
DOI: 10.1080/02755947.2016.1264509
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Earning their Stripes: The Potential of Tiger Trout and Other Salmonids as Biological Controls of Forage Fishes in a Western Reservoir

Abstract: Maintaining a balance between predator and prey populations can be an ongoing challenge for fisheries managers, especially in managing artificial ecosystems such as reservoirs. In a high‐elevation Utah reservoir, the unintentional introduction of the Utah Chub Gila atraria and its subsequent population expansion prompted managers to experimentally shift from exclusively stocking Rainbow Trout Oncorhynchus mykiss to also stocking tiger trout (female Brown Trout Salmo trutta × male Brook Trout Salvelinus fontina… Show more

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Cited by 9 publications
(12 citation statements)
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“…; Winters et al. ). Regardless of the method contemplated, eradication and control efforts in large systems can be expensive (Kolar et al.…”
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confidence: 97%
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“…; Winters et al. ). Regardless of the method contemplated, eradication and control efforts in large systems can be expensive (Kolar et al.…”
mentioning
confidence: 97%
“…Fisheries managers may manage introduced or undesirable fish populations through eradication or control efforts (Kolar et al 2010). Techniques for eradicating or controlling introduced fish populations can be placed into three different categories: chemical (Marking 1992;Lentsch et al 2001), physical (Johnston 1961; Thompson and Rahel 1996;Ng et al 2016), and biological (Ward et al 2008;Schill et al 2016;Winters et al 2017). Regardless of the method contemplated, eradication and control efforts in large systems can be expensive (Kolar et al 2010); thus, knowledge of how much effort is required to influence introduced fish populations is needed prior to the implementation of control programs (Klein et al 2016;Brauer et al 2019).…”
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confidence: 99%
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“…This decoupling can lead to unstable population dynamics, which can be risky and frustrating to manage, especially if the focal species are of economic importance, are imperiled, or sustain subsistence fisheries, for example (Stewart et al 1981; Ruzycki et al 2003; Al‐Chokhachy et al 2020). Efforts to better understand predator–prey dynamics and manage top fish predators for multiple goals range from the classic, relatively simple ratio‐based indices of predator performance relative to prey availability (e.g., proportional size distribution; reviewed by Noble 1981) to much more comprehensive and sophisticated attempts to quantify carrying capacity and predator consumption relative to prey biomass and production using multifaceted bioenergetics modeling and associated intensive field and laboratory work (e.g., Ruzycki et al 2003; Vatland et al 2008; Winters et al 2017). Alternatively, there have been considerable advances in modeling predator–prey dynamics to inform predator management, including ecosystem approaches using Ecopath (e.g., Christensen and Pauly 2004), Bayesian multispecies age‐structured models (e.g., Tsehaye et al 2014a), and a variety of elegant stock assessment tools that combine several of these approaches (e.g., He et al 2020).…”
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confidence: 99%
“…Another potential management strategy is to introduce additional predators and thereby reduce Common Carp and Gizzard Shad populations via predation. Stocking of additional piscivorous fishes has been used to reduce or eliminate undesirable fishes or to improve growth and size structure of desirable fishes in a variety of ecosystems, with varying success (e.g., Haines 2000; Boxrucker 2002; DeBoom and Wahl 2014; Koenig et al 2015; Winters et al 2017). In many cases, Largemouth Bass Micropterus salmoides , which are the primary apex predators in many small lakes, fail to control Gizzard Shad and Common Carp populations even when the Largemouth Bass populations are enhanced by stocking (Hambright et al 1991; Nowlin et al 2006; DeBoom and Wahl 2014; but see Irwin et al 2003).…”
mentioning
confidence: 99%