2020
DOI: 10.1111/oik.06948
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The ecology of fear and inverted biomass pyramids

Abstract: In inverted biomass pyramids (IBPs) prey are outnumbered by their predators when measured by biomass. We investigate how prey should behave in the face of danger from higher predator biomass, and how anti‐predator behavior (in the form of vigilance) can, in turn, affect the predator–prey system. In this study, we incorporate anti‐predator behaviors into a Lotka–Volterra predator–prey model in the form of fixed and facultative vigilance. Facultative vigilance models behavior as a dynamic foraging game, allowing… Show more

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Cited by 13 publications
(11 citation statements)
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“…It also means that risk may vary in a 3dimensions (Harvey and White 2017; Lester et al 2020). Finally, prey on pristine coral reefs must cope with high biomass of erce predators, which is not typical of terrestrial predator-prey systems (Malone et al 2020).…”
Section: Fear On Coral Reefsmentioning
confidence: 99%
“…It also means that risk may vary in a 3dimensions (Harvey and White 2017; Lester et al 2020). Finally, prey on pristine coral reefs must cope with high biomass of erce predators, which is not typical of terrestrial predator-prey systems (Malone et al 2020).…”
Section: Fear On Coral Reefsmentioning
confidence: 99%
“…The distribution of resources and predators (top‐down and bottom‐up drivers) are key factors influencing how herbivores distribute themselves in the landscape (Anderson et al ., 2010; Jarman, 1974) through a ‘landscape of fear’ (Laundré et al ., 2010). Herbivores need to balance their acquisition of resources against predation risk and energy expenditure (Fortin et al ., 2004; Venter et al ., 2019) and the landscape of fear gauges how species infer risk from environmental features and predation (Malone et al ., 2020). On the PAP, forage and associated vegetation type, distribution of water, vegetation cover and density (Smit, 2011), pressure from humans (Marean et al ., 2014) and animal physical and behavioural characteristics (Searle et al ., 2010) all would have played a role in influencing the distribution of herbivores.…”
Section: Introductionmentioning
confidence: 99%
“…Increasing the temporal scale of non-consumptive studies to accommodate reproduction provides insight into how non-consumptive effects may influence population cycles [7][8][9]. Studies of sufficient duration to include prey reproduction reveal carryover of non-consumptive effects on subsequent generations of prey [10][11][12].…”
Section: Introductionmentioning
confidence: 99%
“…The common expectation based on consumption is that a decline in prey abundance will lead to an increase in predator abundance as predators eat prey and convert prey biomass into predator biomass through reproduction [16][17][18][19]. However, non-consumptive suppression of prey, which decouples prey suppression from predator reproduction, can provide alternative explanations for common predator-prey patterns documented in nature [7][8][9].…”
Section: Introductionmentioning
confidence: 99%