Cannibalism and Infectious Disease: Friends or Foes?

Allen, Benjamin G. Van; Dillemuth, Forrest P.; Flick, Andrew J.; Faldyn, Matthew J.; Clark, David R.; Rudolf, Volker H. W.; Elderd, Bret D.

doi:10.1086/692734

Cited by 33 publications

(39 citation statements)

References 96 publications

(206 reference statements)

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“…Its occurrence in populations is thought to be the result of the trade‐off between the costs (including risk of injury, reduction of inclusive fitness, or risk of parasite infection) and benefits (including energetic gains, reduction in competitors for food or mates, or potentially the reduction of parasite infection risk) of the behavior (reviewed in Van Allen et al. ). Ecologically, cannibalism can have important size‐dependent impacts on the demography of populations (Claessen et al.…”

mentioning

confidence: 99%

The underappreciated extent of cannibalism and ophiophagy in African cobras

Maritz

Alexander

Maritz

2018

Ecology

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mentioning

confidence: 99%

The underappreciated extent of cannibalism and ophiophagy in African cobras

Maritz

Alexander

Maritz

2018

Ecology

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“…Despite long‐standing interest about how scavengers might reduce infectious disease transmission (e.g. vultures; Beasley et al, , Bellan, Turnbull, Beyer, & Getz, , Fischer et al, ), and many studies on individual disease systems (Houston & Cooper, ; Hugh‐Jones & DeVos, ; Ogada, Torchin, Kinnaird, & Ezenwa, ), there is no consensus on whether scavengers generally reduce infections from carcasses or spread pathogens throughout the environment and thus increase transmission (Van Allen et al, ; Beasley et al, ). This is in large measure because of the observational nature of the previous studies and focus on the potential for transmission (but see Bellan et al, ).…”

Section: Discussionmentioning

confidence: 99%

Do scavengers prevent or promote disease transmission? The effect of invertebrate scavenging on Ranavirus transmission

2019

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Host–parasite interactions are shaped by the broader web of community interactions, from interspecific competition to predator–prey dynamics. Heterospecific scavengers might also affect parasite transmission from infectious carcasses, which can be an important source of infections for some wildlife diseases. A robust scavenger community can quickly remove carcasses and tissue and thus prevent secondary transmission by necrophagy or contact with infectious carcasses. Alternatively, by spreading infectious particles and tissues throughout the environment, scavengers may increase rates of casual contact with pathogens and thus overall transmission. However, there has been little empirical consideration of the contrasting roles that scavengers might play in infectious disease dynamics. We carried out a series of studies to determine the efficiency with which scavenging invertebrates remove carcasses of Long‐toed Salamander (Ambystoma macrodactylum) larvae and their role in the transmission of frog virus 3 (Genus: Ranavirus, Family: Iridoviridae) from carcasses. We then estimated the functional response of one efficient invertebrate scavenger (Family: Dytiscidae) to increasing carcass densities in field conditions in order to determine the capacity of scavenging invertebrates to consume large amounts of carcass tissue, as may be present at high prevalence sites. We found that removal of infectious carcasses by scavengers strongly reduced transmission to naïve larvae. Scavengers were as effective at reducing transmission from a carcass as a physical barrier preventing contact with the carcass. There was little evidence that scavenging released sufficient infectious tissues into the water column to rival direct contact as a route of infection. Moreover, while scavenging rates saturated at increasing carcass densities, consistent with a type II functional response, there were sufficient densities of dytiscid larvae, not to mention other scavenging invertebrates, in a surveyed pond to theoretically prevent transmission from carcasses. Our results suggest that at least in systems in which conspecific necrophagy is common, the scavenger community can play an important role in reducing transmission. A plain language summary is available for this article.

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“…S2). These results, in conjunction with previous work (Duong and McCauley, ; Van Allen et al ., ), suggest that, similar to predators, potentially cannibalistic conspecifics may have indirect beneficial effects on their potential prey by decreasing their risk of future pathogen infections (Moret and Siva‐Jothy, ) via immune enhancement. Alternatively, individuals exposed to potential cannibals that induce an immune priming response could be disadvantaged if the priming is costly and reduces the resources available for other life history challenges (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, the volume of water in which the experiments were conducted was five times greater in the density experiment compared with the cannibalism experiments, which likely diluted any conspecific chemical cues. Our results indicate that dragonfly larvae are consistently exhibiting DDP in one aspect of their immune response, however, whether DDP in this system is a response to density‐dependent cannibalism/wounding risk (Van Buskirk, ), increased pathogen risk (Wilson and Reeson, ) or both (Van Allen et al ., ) remains unclear.…”

Section: Discussionmentioning

confidence: 99%

Exposure to potentially cannibalistic conspecifics induces an increased immune response

Murray

Tah

Koprivnikar

et al. 2019

Ecological Entomology

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1. Within‐population infectious disease dynamics depend on multiple factors, including the ability of hosts to mount an effective immune response. These immune responses can be highly plastic, responding to pathogen risk, as well as the ecological context in which pathogens are encountered. 2. High conspecific density can stimulate immune activity, and recent research suggests that predators can cause indirect protective effects in their prey through the induction of increased immune responses. Comparatively little work, however, has investigated whether exposure to potentially cannibalistic conspecifics, representing both increased density and predatory pressures, will have similar effects on immune expression. 3. Using dragonfly larvae, the present study investigated whether exposure to potentially cannibalistic conspecifics altered the melanisation of simulated parasites. 4. Increased levels of melanisation were found in larvae regardless of whether that conspecific had recently engaged in cannibalism or not. Melanisation also increased as conspecific density increased, even if the conspecifics present were small, and therefore unlikely to pose a cannibalism threat. 5. The findings obtained in the present study indicate that conspecific presence is sufficient to affect immune responses in these insects even though they are relatively solitary compared with the phase‐polyphenic taxa typically associated with density‐dependent prophylaxis. Because melanisation is also important for wound healing, we suggest that the increased melanin response observed with increased conspecific density might act to induce heightened immunity when faced with potentially increased risk of infection, and also facilitate wound healing under threat of predation/cannibalism.

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Cannibalism and Infectious Disease: Friends or Foes?

Cited by 33 publications

References 96 publications

The underappreciated extent of cannibalism and ophiophagy in African cobras

The underappreciated extent of cannibalism and ophiophagy in African cobras

Do scavengers prevent or promote disease transmission? The effect of invertebrate scavenging on Ranavirus transmission

Exposure to potentially cannibalistic conspecifics induces an increased immune response

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