Non-consumptive effects of a top-predator decrease the strength of the trophic cascade in a four-level terrestrial food web

Elvire Bestion; Julien Cucherousset; Aimeric Teyssier; Julien Cote

doi:10.1111/oik.02196

Evidence for Ecosystem-Level Trophic Cascade Effects Involving Gulf Menhaden (Brevoortia patronus) Triggered by the Deepwater Horizon Blowout

Journal of Marine Science and Engineering ◽

10.3390/jmse9020190 ◽

2021 ◽

Vol 9 (2) ◽

pp. 190

Author(s):

Jeffrey Short ◽

Christine Voss ◽

Maria Vozzo ◽

Vincent Guillory ◽

Harold Geiger ◽

...

Keyword(s):

Food Web ◽

Mississippi River ◽

Trophic Cascade ◽

Oil Spills ◽

Net Primary Production ◽

Spatial Scales ◽

Dominant Role ◽

Deepwater Horizon ◽

Predator Species ◽

Brevoortia Patronus

Unprecedented recruitment of Gulf menhaden (Brevoortia patronus) followed the 2010 Deepwater Horizon blowout (DWH). The foregone consumption of Gulf menhaden, after their many predator species were killed by oiling, increased competition among menhaden for food, resulting in poor physiological conditions and low lipid content during 2011 and 2012. Menhaden sampled for length and weight measurements, beginning in 2011, exhibited the poorest condition around Barataria Bay, west of the Mississippi River, where recruitment of the 2010 year class was highest. Trophodynamic comparisons indicate that ~20% of net primary production flowed through Gulf menhaden prior to the DWH, increasing to ~38% in 2011 and ~27% in 2012, confirming the dominant role of Gulf menhaden in their food web. Hyperabundant Gulf menhaden likely suppressed populations of their zooplankton prey, suggesting a trophic cascade triggered by increased menhaden recruitment. Additionally, low-lipid menhaden likely became “junk food” for predators, further propagating adverse effects. We posit that food web analyses based on inappropriate spatial scales for dominant species, or solely on biomass, provide insufficient indication of the ecosystem consequences of oiling injury. Including such cascading and associated indirect effects in damage assessment models will enhance the ability to anticipate and estimate ecosystem damage from, and provide recovery guidance for, major oil spills.

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A fish-mediated trophic cascade on freshwater calanoid copepod abundance is concealed by food web fatty acid availability, functional traits and population sex ratio

Journal of Plankton Research ◽

10.1093/plankt/fby002 ◽

2018 ◽

Vol 40 (2) ◽

pp. 197-208

Author(s):

Jorge Octavio Negrín Dastis ◽

Matthew C Yates ◽

Dylan John Fraser ◽

Alison Margaret Derry

Keyword(s):

Fatty Acid ◽

Sex Ratio ◽

Food Web ◽

Functional Traits ◽

Trophic Cascade ◽

Calanoid Copepod ◽

Copepod Abundance

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Top–down influence of resident and overwintering Bald Eagles (Haliaeetus leucocephalus) in a model marine ecosystem

Canadian Journal of Zoology ◽

10.1139/z2012-059 ◽

2012 ◽

Vol 90 (7) ◽

pp. 903-914 ◽

Cited By ~ 5

Author(s):

C.J. Harvey ◽

T.P. Good ◽

S.F. Pearson

Keyword(s):

Food Web ◽

Trophic Cascade ◽

Haliaeetus Leucocephalus ◽

Food Web Structure ◽

Bald Eagles ◽

Marine Food Web ◽

Web Structure ◽

High Consumption ◽

Consumption Rates ◽

Marine Food

Conservation of predators presents challenges when predators affect prey populations that provide ecosystem services. Near Puget Sound, resident and overwintering populations of Bald Eagle ( Haliaeetus leucocephalus (L., 1766)) have expanded in recent decades. We modeled the potential impact of Bald Eagles on marine food-web structure. Bald Eagles caused trophic cascade dynamics through mid-level predators (seabirds) to lower trophic levels (fishes, benthic invertebrates), particularly when seabirds were more abundant in eagle diets. Resident Bald Eagles affected food-web structure more than overwintering eagles, despite the latters’ greater abundance. Predator avoidance behavior by nearshore diving birds and herbivorous birds exacerbated trophic cascade effects, but only in a narrow range of species. Variability in the number of overwintering Bald Eagles, which come to the area to feed on salmon carcasses (primarily chum salmon, Oncorhynchus keta (Walbaum in Artedi, 1792)), had little effect on the food web. Our results indicate that Bald Eagles are important to marine food-web structure, owing to their high consumption rates and the high consumption rates of their seabird prey, but uncertainty about eagle diets limits our full understanding of their impact. In systems where Bald Eagles affect large seabird breeding colonies, their role in food-web structure is likely greater.

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Fading out of the trophic cascade at the base of the microbial food web caused by changes in the grazing community in mesocosm experiments

Oceanological and Hydrobiological Studies ◽

10.2478/s13545-012-0001-7 ◽

2012 ◽

Vol 41 (1) ◽

pp. 1-11 ◽

Cited By ~ 2

Author(s):

Iwona Jasser ◽

Iwona Kostrzewska-Szlakowska

Keyword(s):

Food Web ◽

Trophic Cascade ◽

Phytoplankton Community ◽

Trophic Levels ◽

Microbial Food Web ◽

Lake District ◽

Mesocosm Experiments ◽

Experimental Mesocosms ◽

Biomass Influence ◽

Biomass Increase

AbstractBiomanipulation of consumer populations can have strong top-down impacts on the composition and biomass of lower trophic levels. In this paper, we assess how changes in crustaceans’ biomass influence classical grazing and the microbial food web in an oligo-mesohumic, low-pH lake (Mazurian Lake District, Poland). Removal of mesozooplankton from the experimental mesocosms created a gradient of crustacean biomass resulting in the biomass increase of rotifers, phytoplankton and protozooplankton, while autotrophic eukaryotic picoplankton (eu-APP) and bacteria were not affected. The strongest modifications concerned the rotifer biomass and phytoplankton community structure. Our results imply that the trophic cascade generated in the experiment did not extend to bacteria and eu-APP.

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Isotopic niche plasticity in a marine top predator as indicator of a large marine ecosystem food web status

Ecological Indicators ◽

10.1016/j.ecolind.2021.107687 ◽

2021 ◽

Vol 126 ◽

pp. 107687

Author(s):

Javier E. Ciancio ◽

Pablo Yorio ◽

Claudio Buratti ◽

Gustavo Álvarez Colombo ◽

Esteban Frere

Keyword(s):

Food Web ◽

Marine Ecosystem ◽

Isotopic Niche ◽

Top Predator ◽

Large Marine Ecosystem

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Beyond the fish-Daphnia paradigm: testing the potential for Neoplea striola (Hemiptera: Pleidae) to cause a trophic cascade in subtropical ponds

10.1101/2021.04.14.439893 ◽

2021 ◽

Author(s):

Chase J. Rakowski ◽

Mathew A. Leibold

Keyword(s):

Food Web ◽

Trophic Cascade ◽

Trophic Cascades ◽

Zooplankton Community ◽

Trophic Levels ◽

Food Web Interactions ◽

Top Predators ◽

Invertebrate Predators ◽

Consumption Rates ◽

Central Texas

AbstractTrophic cascades, or indirect effects of predators on non-adjacent lower trophic levels, are thought to pervade diverse ecosystems, though they tend to be stronger in aquatic ecosystems. Most research on freshwater trophic cascades focused on temperate lakes where Daphnia tend to dominate the zooplankton community, and these studies identified that Daphnia plays a key role in facilitating trophic cascades by linking fish to algae with strong food web interactions. However, Daphnia are rare or absent in most tropical and subtropical lowland freshwaters, and many invertebrate predators have received little attention in food web research despite being common and widespread. Therefore, we aimed to test whether trophic cascades are possible in small warmwater ponds where small invertebrates are the top predators and Daphnia are absent. We collected naturally occurring plankton communities from small fishless water bodies in central Texas and propagated them in replicate pond mesocosms. We removed zooplankton from some mesocosms, left the plankton community intact in others, and added one of two densities of the predaceous insect Neoplea striola to others. Following an incubation period we then compared biomasses of plankton groups to assess food web effects between the trophic levels including whether Neoplea caused a trophic cascade by reducing zooplankton. The zooplankton community became dominated by copepods which prefer large phytoplankton and exhibit a fast escape response. Perhaps due to these qualities of the copepods and perhaps due to slow consumption rates by Neoplea on key grazers, no food web effects were found other than zooplankton marginally reducing large phytoplankton. More research is needed to understand the behavior and ecology of Neoplea, but trophic cascades may generally be weak or absent in subtropical and tropical lowland freshwaters where Daphnia is rare.

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Fishing triggers trophic cascade in terms of variation, not abundance in an allometric trophic network model

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2021-0146 ◽

2021 ◽

Author(s):

Silva Uusi-Heikkilä ◽

Tommi Perälä ◽

Anna Kuparinen

Keyword(s):

Food Web ◽

Trophic Cascade ◽

Trophic Cascades ◽

Ecological Resilience ◽

Food Chains ◽

Ecological Functions ◽

Food Web Dynamics ◽

Fishing Strategies ◽

Trophic Network ◽

Induced Changes

Trophic cascade studies often rely on linear food chains instead of complex food webs and are typically measured as biomass averages, not as biomass variation. We study trophic cascades propagating across a complex food web including a measure of biomass variation in addition to biomass average. We examined whether different fishing strategies induce trophic cascades and whether the cascades differ from each other. We utilized an allometric trophic network (ATN) model to mechanistically study fishing-induced changes in food-web dynamics. Different fishing strategies did not trigger traditional, reciprocal trophic cascades, as measured in biomass averages. Instead, fishing triggered a variation cascade that propagated across the food web including fish, zooplankton and phytoplankton species. In fisheries that removed a large amount of top-predatory and cannibalistic fish, the biomass oscillations started to decrease after fishing was started. In fisheries that mainly targeted large planktivorous fish, the biomass oscillations did not dampen, but slightly increased over time. Removing species with specific ecological functions might alter the food web dynamics and potentially affect the ecological resilience of aquatic ecosystems.

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No detectable trophic cascade in a high-Arctic arthropod food web

Basic and Applied Ecology ◽

10.1016/j.baae.2015.06.003 ◽

2015 ◽

Vol 16 (7) ◽

pp. 652-660 ◽

Cited By ~ 11

Author(s):

Kristiina Visakorpi ◽

Helena K. Wirta ◽

Malin Ek ◽

Niels Martin Schmidt ◽

Tomas Roslin

Keyword(s):

Food Web ◽

Trophic Cascade ◽

High Arctic

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Multiple predator species alter prey behavior, population growth, and a trophic cascade in a model estuarine food web

Ecological Monographs ◽

10.1890/11-2284.1 ◽

2013 ◽

Vol 83 (1) ◽

pp. 119-132 ◽

Cited By ~ 16

Author(s):

Pamela L. Reynolds ◽

John F. Bruno

Keyword(s):

Population Growth ◽

Food Web ◽

Trophic Cascade ◽

Predator Species ◽

Prey Behavior ◽

Multiple Predator Species

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Nitrogen addition changes the trophic cascade effects of spiders on a detrital food web

Ecosphere ◽

10.1002/ecs2.2466 ◽

2018 ◽

Vol 9 (10) ◽

pp. e02466 ◽

Cited By ~ 1

Author(s):

Shengjie Liu ◽

Jing Hu ◽

Jocelyn E. Behm ◽

Xinxing He ◽

Jianmin Gan ◽

...

Keyword(s):

Food Web ◽

Trophic Cascade ◽

Nitrogen Addition ◽

Detrital Food Web ◽

Cascade Effects

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