Omnivory and stability in freshwater habitats: Does theory match reality?

Wootton, Kate L.

doi:10.1111/fwb.12908

Cited by 87 publications

(109 citation statements)

References 128 publications

(269 reference statements)

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“…In an IGP system, two predators share a food source (shared prey), thereby acting as competitors. The feeding of an IG predator may have important influence on community persistence (Stouffer & Bascompte, 2010) and stability (Neutel et al, 2007;Wootton, 2017). The feeding of an IG predator may have important influence on community persistence (Stouffer & Bascompte, 2010) and stability (Neutel et al, 2007;Wootton, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Environmental constraint of intraguild predation: Inorganic turbidity modulates omnivory in fairy shrimps

et al. 2019

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1. Omnivory is widespread in food webs, with an important stabilising effect.The strength of omnivorous trophic interactions may change considerably with changes in the local environment.2. Shallow temporary waters are often characterised by high levels of inorganic turbidity that may directly limit the food uptake of filter-feeding organisms, but there is little evidence on how it might affect omnivorous species. Anostracans are key species of temporary waters and recent evidence suggests that these organisms are omnivorous consumers of both phyto-and zooplankton.3. Using Branchinecta orientalis as a model species, our aim was to test how turbidity affects the feeding of an omnivorous anostracan. To do this, we used short-term feeding experiments and stable isotope analyses, with animals collected from soda pans in eastern Austria. In the feeding experiments, algae and zooplankton were offered as food either separately or in combination. The prey type treatments were crossed with turbidity levels in a factorial design.4. There was a pronounced decrease in the ingested algal biomass with increasing turbidity. Conversely, ingestion rates on zooplankton were less affected by turbidity. Stable isotope analyses from field material supported our experimental results by showing a positive relationship of the trophic position of anostracans and the trophic niche of the communities with turbidity. 5. Our results show that turbidity modulates the intraguild trophic relationship between anostracans and their prey by shifting the diet of anostracans from more herbivorous in transparent to more carnivorous in turbid waters. Thus, inorganic turbidity might also have a community-shaping role in plankton communities of temporary waters through altering trophic relationships. K E Y W O R D Sanostracans, phytoplankton, temporary ponds, trophic webs, zooplankton | 227 LUKIĆ et aL.

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Section: Introductionmentioning

confidence: 99%

“…Besides changes in community composition (e.g. the omnivore feeds predominantly on one trophic level) will favour coexistence and increase the stability of food webs (Wootton, 2017). In general, factors that decrease the strength of omnivorous trophic interactions (i.e.…”

Section: Introductionmentioning

confidence: 99%

Environmental constraint of intraguild predation: Inorganic turbidity modulates omnivory in fairy shrimps

et al. 2019

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“…Omnivory is ubiquitous in freshwaters, and in highly disturbed environments because consumers can shift their diet when resource availability varies (Fagan, 1997, in Wootton, 2017. Empirical studies have shown that intermediate levels of trophic omnivory increase food-web stability (Denno and Fagan, 2003;Thompson et al, 2012), and may therefore be selected for in highly disturbed environments.…”

Section: Trophic Omnivory From Predators Drives Changes In Fclmentioning

confidence: 99%

“…We suggest that because predators feed on different resources depending on the disturbance regime, maintaining the spatial heterogeneity in disturbance within a floodplain can result in overall weaker trophic interactions between predators and consumers. Additionally, by shifting their diets, omnivorous predators may enable depleted consumer populations to better recover from environmental disturbance, resulting in the same stabilising effect in time (Abrams and Fung, 2010;Singer & Bernays, 2003;Wootton, 2017). Additionally, by shifting their diets, omnivorous predators may enable depleted consumer populations to better recover from environmental disturbance, resulting in the same stabilising effect in time (Abrams and Fung, 2010;Singer & Bernays, 2003;Wootton, 2017).…”

Section: Trophic Omnivory From Predators Drives Changes In Fclmentioning

confidence: 99%

Flood disturbance affects macroinvertebrate food chain length in an alluvial river floodplain

2019

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1. Characterising food-web responses to environmental factors could greatly improve our understanding of environment-biota relationships, and especially in floodplains where trophic interactions can be particularly important during phases of hydrological disconnection. The effects of floodplain hydrology and environmental attributes on structural aspects of biotic assemblages have been extensively studied, but responses at the functional level remain largely unknown.2. Here, we characterised a central aspect of food-web architecture, the food chain length, as the maximum trophic position within 24 macroinvertebrate communities of parafluvial habitats in the Maggia river floodplain, in Switzerland. We investigated how the food chain length changed with different levels of habitat size, primary productivity and disturbance, the three factors potentially affecting food chain length in both theoretical and empirical studies.3. We found that food chain length was lower in frequently flooded habitats and immediately after a flood. We also showed that trophic omnivory, where predators fed at lower trophic levels after flooding, and in more frequently flooded habitats, may explain these changes. 4. These findings show that trophic omnivory may explain how predators resist disturbance and are maintained in highly dynamic landscapes. More importantly, given that trophic omnivory may overall weaken trophic linkages and thus increase food-web stability, this suggests that it could be a key mechanism in sustaining biodiversity in river floodplains. K E Y W O R D Sfood chain length, invertebrates, stable isotopes, disturbance, omnivory | 491 CHANUT eT Al.

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“…Food web stability, here defined as temporal constancy, is a fundamental characteristic of ecosystems (Worm & Duffy, ) that can be profoundly affected by the presence of omnivores—organisms that feed on more than one trophic level (Pimm, ; Pimm & Lawton, ). Omnivory is common in food webs across a broad range of habitats, including freshwater systems (Thompson, Dunne, & Woodward, ; Thompson, Hemberg, Starzomski, & Shurin, ; Wootton, ). Omnivores reduce the strength of consumer–resource links by shunting some of the energy up the omnivore–resource pathway and away from the consumer–resource pathway (McCann, Hastings, & Huxel, ).…”

Section: Introductionmentioning

confidence: 99%

Consequences of consumer origin and omnivory on stability in experimental food web modules

2019

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Food web stability, a fundamental characteristic of ecosystems, is influenced by the nature and strength of species interactions. Theory posits that food webs are stabilised by omnivory and disrupted by novel consumers. To test the effects of secondary consumer origin and trophic level on basal resource stability, we constructed crayfish–snail–algae modules using four congeneric species of crayfish (Faxonius spp.), two from native populations (Faxonius propinquus and Faxonius virilis) and two from non‐native populations (Faxonius limosus and Faxonius rusticus). We performed surgical manipulations of crayfish feeding structures to create omnivore food web and predator food chain modules. We compared the temporal stability of these modules using measures of the coefficient of variation of the basal resource (benthic algae). Consistent with theoretical and empirical predictions, food web modules with omnivory had the lowest coefficient of variation. However, contrary to prediction, we did not find consistently higher coefficients of variation in modules with non‐native species. Rather, across species, we found the lowest coefficient of variation in modules with one of the non‐native species (F. rusticus) and one native species (F. virilis), owing to stronger interactions between these crayfish species and their snail and algal food resources. The results suggest that omnivory is indeed stabilising and that very weak interactions or very low attack rates of the consumer on the basal resource can be unstable. Thus, we demonstrate that omnivores may have different impacts than predators when introduced into a novel ecosystem, differences that can supersede the effect of species identity.

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Omnivory and stability in freshwater habitats: Does theory match reality?

Cited by 87 publications

References 128 publications

Environmental constraint of intraguild predation: Inorganic turbidity modulates omnivory in fairy shrimps

Environmental constraint of intraguild predation: Inorganic turbidity modulates omnivory in fairy shrimps

Flood disturbance affects macroinvertebrate food chain length in an alluvial river floodplain

Consequences of consumer origin and omnivory on stability in experimental food web modules

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