2018
DOI: 10.1111/1365-2435.13102
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Past selection impacts the strength of an aquatic trophic cascade

Abstract: In complex food webs, interactions among species in different trophic levels can generate cascading indirect effects that couple top predators with primary producers, thereby affecting ecosystem functioning. Natural selection imposed by top predators on intermediate predators may play a role in shaping the strength of these trophic cascades, but this conjecture remains largely untested. To determine the effects of natural selection on the strength of trophic cascades, we conducted a two‐part experiment in a fo… Show more

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Cited by 25 publications
(24 citation statements)
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“…Eco‐evolutionary feedbacks in aquatic ecosystems have been studied primarily through the perspectives of trophic interactions and nutrient recycling (Matthews, Narwani et al, ; Post & Palkovacs, ; Schoener, ). The presence of eco‐evo feedbacks in aquatic microcosms is now incontrovertible with evidence for eco‐evo effects outside of laboratory experiments for a wide variety of aquatic taxa, including zooplankton (Matthews, Hausch, Winter, Suttle, & Shurin, ; Miner, Meester, Pfrender, Lampert, & Hairston, ), aquatic macroinvertebrates (Ousterhout, Graham, Hasik, Serrano, & Siepielski, ), amphibians (Reinhardt, Steinfartz, Paetzold, & Weitere, ; Urban, ) and fishes (Auer et al, ; Carlson, Quinn, & Hendry, ; Fryxell & Palkovacs, ; Tuckett, Simon, & Kinnison, ). Here, we detail evidence for feedbacks in three fish study systems—alewife, guppies and threespine stickleback in the context of Figure .…”
Section: Evidence Of Eco‐evolutionary Feedbacks Across Terrestrial Anmentioning
confidence: 99%
“…Eco‐evolutionary feedbacks in aquatic ecosystems have been studied primarily through the perspectives of trophic interactions and nutrient recycling (Matthews, Narwani et al, ; Post & Palkovacs, ; Schoener, ). The presence of eco‐evo feedbacks in aquatic microcosms is now incontrovertible with evidence for eco‐evo effects outside of laboratory experiments for a wide variety of aquatic taxa, including zooplankton (Matthews, Hausch, Winter, Suttle, & Shurin, ; Miner, Meester, Pfrender, Lampert, & Hairston, ), aquatic macroinvertebrates (Ousterhout, Graham, Hasik, Serrano, & Siepielski, ), amphibians (Reinhardt, Steinfartz, Paetzold, & Weitere, ; Urban, ) and fishes (Auer et al, ; Carlson, Quinn, & Hendry, ; Fryxell & Palkovacs, ; Tuckett, Simon, & Kinnison, ). Here, we detail evidence for feedbacks in three fish study systems—alewife, guppies and threespine stickleback in the context of Figure .…”
Section: Evidence Of Eco‐evolutionary Feedbacks Across Terrestrial Anmentioning
confidence: 99%
“…We focused on predator‐prey interactions between centrarchid fish and larvae of the orange bluet ( Enallagma signatum ), a common damselfly found in our Northwestern Arkansas study region. Enallagma are mid‐trophic level ambush predators found in many lakes, where the larvae inhabit macrophytes, feed on smaller invertebrates, and are fed upon by themselves and larger predators, especially fish (McPeek 1990; McPeek 1998; McPeek & Brown 2000; Ousterhout et al 2018). Fish predation has repeatedly been shown to select for reduced activity levels in damselflies (Strobbe et al 2011; Swaegers et al 2017; Ousterhout et al 2018).…”
Section: Methodsmentioning
confidence: 99%
“…Enallagma are mid‐trophic level ambush predators found in many lakes, where the larvae inhabit macrophytes, feed on smaller invertebrates, and are fed upon by themselves and larger predators, especially fish (McPeek 1990; McPeek 1998; McPeek & Brown 2000; Ousterhout et al 2018). Fish predation has repeatedly been shown to select for reduced activity levels in damselflies (Strobbe et al 2011; Swaegers et al 2017; Ousterhout et al 2018). Selection operates in this stereotypical way because damselflies attract fish when swimming (Baker et al 1999) and cannot swim away fast enough to evade fish (McPeek 2000; Stoks & De Block 2000); therefore reducing activity helps damselflies avoid detection (Strobbe et al 2011).…”
Section: Methodsmentioning
confidence: 99%
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“…Species are embedded within communities and the strengths of predator-prey interactions depend on direct interactions between the predator and its prey but also on indirect interactions mediated through one or more species (Schmitz, Krivan, & Ovadia, 2004;Sentis, Gémard, Jaugeon, & Boukal, 2017;Werner & Peacor, 2003). While food-web studies traditionally focus on trophic interactions in single predator-prey systems, multiple studies have highlighted the importance of indirect density-and trait-mediated effects for the strengths of species interactions in ecological communities (Davenport & Chalcraft, 2013;McCoy, Stier, & Osenberg, 2012;Okuyama & Bolker, 2007;Ousterhout, Graham, Hasik, Serrano, & Siepielski, 2018;Werner & Peacor, 2003). For instance, prey are typically less active and feed less in the presence of a predator or its cues (Hawlena & Schmitz, 2010b;Stoks & McPeek, 2003;Trussell, Ewanchuk, & Bertness, 2003), which may indirectly alter species interaction strengths between the prey and their resources.…”
Section: Introductionmentioning
confidence: 99%