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Effect of scavenging on predation in a food web
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  • Jarad Pope Mellard,
  • Sandra Hamel,
  • John-Andre HendenOrcid,
  • Rolf Ims,
  • Filippo Marolla,
  • Audun Stien,
  • Torkild Tveraa,
  • Nigel Yoccoz
Jarad Pope Mellard
UiT The Arctic University of Norway
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Sandra Hamel
Université Laval
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John-Andre Henden
UiT Arctic University of Norway, UiT – The Arctic University of Norway
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Rolf Ims
University of Tromso
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Filippo Marolla
UiT The Arctic University of Norway
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Audun Stien
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Torkild Tveraa
Norwegian Institute for Nature Research (NINA)
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Nigel Yoccoz
UiT Arctic University of Norway
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Peer review status:UNDER REVIEW

28 Jun 2020Submitted to Ecology and Evolution
29 Jun 2020Assigned to Editor
29 Jun 2020Submission Checks Completed
03 Jul 2020Reviewer(s) Assigned


Scavenging can have important consequences for food web dynamics, for example, it may support additional consumer species and affect predation on live prey. Still, few food web models include scavenging. We develop a dynamic model that includes predators, scavengers, live prey, and a carrion pool to show ramifications of scavenging for predation in simple food webs. We explicitly model carrion biomass and scavenging behavior and investigate the effect of scavenging for predation under different assumptions. Our modeling suggests that the presence of scavengers can both increase and decrease predator kill rates and overall predation in model food webs and the impact varies (in magnitude and direction) with context. In particular, we explore the impact of the amount of dynamics allowed in the predator, scavenger, and prey populations as well as the direction and magnitude of interference competition between predators and scavengers. We provide a road map to the different outcomes and link these theoretical outcomes to evidence from different empirical studies.