Cascading food‐web effects of piscivore introductions in shallow lakes

Potthoff, Anthony J.; Herwig, Brian R.; Hanson, Mark A.; Zimmer, Kyle D.; Butler, Malcolm G.; Reed, Jeffrey R.; Parsons, Bradford G.; Ward, Matthew C.

doi:10.1111/j.1365-2664.2008.01493.x

Cited by 51 publications

(44 citation statements)

References 48 publications

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“…1). Fishes can indirectly and adversely affect invertebrates by excreting nutrients, whereas largebodied species of benthivorous fishes (e.g., common carp, Cyprinus carpio Linnaeus) can uproot plants and increase turbidity while foraging (Anteau and Afton 2008;Potthoff et al 2008; Fig. 1).…”

Section: Environmental Features and Their Potential Effects On Invertmentioning

confidence: 98%

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Macroinvertebrate Assemblages in Iowa Prairie Pothole Wetlands and Relation to Environmental Features

Hentges

Stewart

2010

Wetlands

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Macroinvertebrate assemblage characteristics and other biophysical features were measured in the open-water zone of 17 semipermanent/permanent prairie pothole wetlands in Iowa. Relations among variables were used to identify likely determinants of invertebrate abundance and diversity, and useful indicators of wetland condition (i.e., health). Abundant invertebrates included physid and planorbid snails, oligochaetes, leeches, caenid mayflies, corixid bugs, chironomid midges, and amphipods. Abundant taxa were distributed across multiple functional feeding and habit groups. Invertebrate densities and taxonomic diversity were positively associated with plant/ coarse particulate organic matter (plant/CPOM) abundance, and negatively related to turbidity, water-column concentrations of nitrogen and phosphorus, and presence of largebodied fishes. Results supported hypotheses that plant/ CPOM was an important invertebrate resource, and that plant/CPOM abundance was reduced in turbid, hypereutrophic wetlands. Fish likely reduced invertebrate abundance and diversity through predation and/or cascading effects on plants, turbidity, and nutrients. Wetlands with high invertebrate abundance and diversity, abundant plant/ CPOM, low turbidity and nutrient concentrations, presence of tiger salamanders (Ambystoma tigrinum), and absence of large-bodied fishes appeared to be in the best condition.These features should be routinely measured to effectively assess condition of Iowa prairie pothole wetlands. Additionally, eliminating non-native fish populations may be critical to improving condition of these wetlands.

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Section: Environmental Features and Their Potential Effects On Invertmentioning

confidence: 98%

“…1). Benthic light levels and plant/CPOM abundance are reduced by suspended sediment particles and phytoplankton that are stimulated by high nutrient concentrations (Anteau and Afton 2008;Potthoff et al 2008;Fig. 1).…”

Section: Environmental Features and Their Potential Effects On Invertmentioning

confidence: 99%

Macroinvertebrate Assemblages in Iowa Prairie Pothole Wetlands and Relation to Environmental Features

Hentges

Stewart

2010

Wetlands

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“…The concentration of birds increases their vulnerability to disease and tends to domesticate the birds and reduce their wariness of people (Ma et al 2009). In addition, the task of managing food for waterbirds is complex because of cascading food-web effects and because different waterbird groups have diverse foraging requirement (Potthoff et al 2008).…”

Section: Implications For Management Of Wetlandsmentioning

confidence: 99%

Managing Wetland Habitats for Waterbirds: An International Perspective

et al. 2009

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The loss and degradation of wetlands worldwide has adversely affected waterbirds, which depend on wetland habitats. Many studies have indicated that effectively managed wetlands can provide alternative or complementary habitats for waterbirds and mitigate the adverse effects of wetland loss and degradation. We review the studies on the habitat variables affecting use of wetlands by waterbirds, and we suggest how wetlands can be managed to provide waterbird habitat. These habitat variables include water depth, water level fluctuation, vegetation, salinity, topography, food type, food accessibility, wetland size, and wetland connectivity. Overall, the practice of wetland management requires integrated knowledge related to the entire wetland ecosystem, and ecosystem-based approach is needed to improve the habitat quality of managed wetlands with considering multiple spatial scales, temporal variability, and trade-off among diverse habitat requirements of different waterbirds. Several priorities for future research and management are also suggested in this paper.

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“…In some lakes, massive disturbances of predator communities 67 after winter fish kills or by fish stocking or removal have induced correlated, often short-term, 68 changes in prey communities (Benndorf et al 1984;Mittelbach et al 1995;Potthoff et al 2008). In 69 regional studies, the effect of predation by piscivores on prey fish densities has been compared 70 across several lakes (Nowlin et al 2006;Mehner 2010;Friederichs et al 2011).…”

Section: Introduction 54mentioning

confidence: 99%

Effects of fish predation on density and size spectra of prey fish communities in lakes

Mehner

Keeling

Emmrich

et al. 2016

Can. J. Fish. Aquat. Sci.

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Brucet, Sandra. 2016. Effects of fish predation on density and size spectra of prey fish communities in lakes [in special issue: Size-based approaches in aquatic ecology and fisheries science: a symposium in honour of Rob Peters]. Canadian Journal of Fisheries and Aquatic Sciences, 73 (4). 506-518. 10.1139/cjfas-2015-0034 Contact CEH NORA team at noraceh@ceh.ac.ukThe NERC and CEH trademarks and logos ('the Trademarks') are registered trademarks of NERC in the UK and other countries, and may not be used without the prior written consent of the Trademark owner. Planktivorous and benthivorous fish have been documented to influence the density and size 32 structure of their prey communities in lakes. We hypothesized that piscivorous fish modify their prey 33 fish communities in the same way and sought to find evidence for such predation effects from a 34 comparison across 356 lakes located in nine European ecoregions. We categorized individual fish as 35 being either piscivore, non-piscivore or prey of piscivores, depending on species and individual size. 36We calculated piscivore, non-piscivore and piscivore prey densities, respectively, and fit linear 37 abundance size spectra (SS) on lake-specific piscivore, non-piscivore and piscivore prey size 38 distributions. Multiple linear regressions were calculated to quantify the effect of piscivore density 39 and SS slopes on non-piscivore and piscivore prey densities and SS slopes, by accounting for 40 potentially confounding factors arising from lake morphometry, productivity and local air 41 temperature. Piscivore density correlated positively with piscivore prey density, but was 42 uncorrelated to density of non-piscivores. Across a subset of 76 lakes for which SS slopes of 43 piscivores were statistically significant, SS slopes of piscivores were uncorrelated with SS slopes of 44 either non-piscivores or piscivore prey. However, densities of piscivores, non-piscivores or piscivore 45 prey were a significant negative predictor of SS slopes of the respective groups. Our analyses suggest 46 that direct predation effects by piscivorous fish on density and size structure of prey fish 47 communities are weak in European lakes, likely caused by low predator-prey size ratios and the 48 resulting size refuges for prey fish. In contrast, competition may substantially contribute to between-49 lake variability in fish density and size. 50 51

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Cascading food‐web effects of piscivore introductions in shallow lakes

Cited by 51 publications

References 48 publications

Macroinvertebrate Assemblages in Iowa Prairie Pothole Wetlands and Relation to Environmental Features

Macroinvertebrate Assemblages in Iowa Prairie Pothole Wetlands and Relation to Environmental Features

Managing Wetland Habitats for Waterbirds: An International Perspective

Effects of fish predation on density and size spectra of prey fish communities in lakes

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