Broadening the ecology of fear: non-lethal effects arise from diverse responses to predation and parasitism
| Autor: | Ryan F. Hechinger, Elizabeth M. P. Madin, Volker H. W. Rudolf, Kevin D. Lafferty, Andy Fenton, Euan G. Ritchie, Anthony I. Dell, David R. Daversa, Jason R. Rohr |
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| Rok vydání: | 2021 |
| Předmět: |
Food Chain
Ecology (disciplines) Population Dynamics trait-mediated effects Parasitism Biology natural enemies sublethal effects Medical and Health Sciences General Biochemistry Genetics and Molecular Biology Predation risk effects Animals Humans Parasites Natural enemies Review Articles General Environmental Science General Immunology and Microbiology Community Agricultural and Veterinary Sciences Ecology Risk effect General Medicine Fear Biological Sciences Infectious Diseases Predatory Behavior food webs General Agricultural and Biological Sciences community ecology |
| Zdroj: | Proceedings. Biological sciences, vol 288, iss 1945 PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES Proc Biol Sci |
| Popis: | Research on the ‘ecology of fear’ posits that defensive prey responses to avoid predation can cause non-lethal effects across ecological scales. Parasites also elicit defensive responses in hosts with associated non-lethal effects, which raises the longstanding, yet unresolved question of how non-lethal effects of parasites compare with those of predators. We developed a framework for systematically answering this question for all types of predator–prey and host–parasite systems. Our framework reveals likely differences in non-lethal effects not only between predators and parasites, but also between different types of predators and parasites. Trait responses should be strongest towards predators, parasitoids and parasitic castrators, but more numerous and perhaps more frequent for parasites than for predators. In a case study of larval amphibians, whose trait responses to both predators and parasites have been relatively well studied, existing data indicate that individuals generally respond more strongly and proactively to short-term predation risks than to parasitism. Apart from studies using amphibians, there have been few direct comparisons of responses to predation and parasitism, and none have incorporated responses to micropredators, parasitoids or parasitic castrators, or examined their long-term consequences. Addressing these and other data gaps highlighted by our framework can advance the field towards understanding how non-lethal effects impact prey/host population dynamics and shape food webs that contain multiple predator and parasite species. |
| Databáze: | OpenAIRE |
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