Daniel P. Benesh scite author profile

For organisms with a complex life cycle, a large larval size is generally beneficial, but it may come at the expense of prolonged development. Individuals that grow fast may avoid this tradeoff and switch habitats at both a larger size and younger age. A fast growth rate itself can be costly, however, as it requires greater resource intake. For parasites, fast larval growth is assumed to increase the likelihood of host death before transmission to the next host occurs. Using the tapeworm Schistocephalus solidus in its copepod first intermediate host, I investigated potential constraints in the parasite’s larval life history. Fast-growing parasites developed infectivity earlier, indicating there is no functional tradeoff between size and developmental time. There was significant growth variation among full-sib worm families, but fast-growing sibships were not characterized by lower host survival or more predation-risky host behavior. Parental investment also had little effect on larval growth rates. The commonly assumed constraints on larval growth and development were not observed in this system, so it remains unclear what prevents worms from exploiting their intermediate hosts more aggressively.Electronic supplementary materialThe online version of this article (doi:10.1007/s00442-009-1507-6) contains supplementary material, which is available to authorized users.

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Multidimensionality and intra-individual variation in host manipulation by an acanthocephalan

Benesh

Valtonen

Seppälä

2008

Parasitology

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S U M M A R YTrophically-transmitted parasites frequently alter multiple aspects of their host's phenotype. Correlations between modified characteristics may suggest how different traits are mechanistically related, but these potential relationships remain unexplored. We recorded 5 traits from individual isopods infected with an acanthocephalan (Acanthocephalus lucii): hiding, activity, substrate colour preference, body (pereon) coloration, and abdominal (pleon) coloration. Infected isopods hid less and had darker abdominal coloration than uninfected isopods. However, in 3 different experiments measuring hiding behaviour (time-scales of observation : 1 h, 8 h, 8 weeks), these two modified traits were not correlated, suggesting they may arise via independent mechanisms. For the shorter experiments (1 h and 8 h), confidence in this null correlation was undermined by low experimental repeatability, i.e. individuals did not behave similarly in repeated trials of the experiment. However, in the 8-week experiment, hiding behaviour was relatively consistent within individuals, so the null correlation at this scale indicates, less equivocally, that hiding and coloration are unrelated. Furthermore, the difference between the hiding behaviour of infected and uninfected isopods varied over 8 weeks, suggesting that the effect of A. lucii infection on host behaviour changes over time. We emphasize the importance of carefully designed protocols for investigating multidimensionality in host manipulation.

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Suppression of predation on the intermediate host by two trophically-transmitted parasites when uninfective

2012

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Trophically-transmitted parasites generally need to undergo a period of development in the intermediate host before reaching infectivity. During this vulnerable period, manipulation of the host to reduce susceptibility to predation would be advantageous for parasites, because it increases the probability of surviving until infectivity and thus the probability of transmission. We tested this 'predation suppression' hypothesis in 2 parasite species that use copepods as first hosts: the tapeworm Schistocephalus solidus and the nematode Camallanus lacustris. In a series of prey choice experiments, we found that copepods harbouring uninfective, still-developing worm larvae were less frequently consumed by stickleback predators than uninfected copepods. The levels of predation suppression were similar in the two parasite species, suggestive of convergent evolution. Additionally, copepods harbouring 2 worms of a given species were not more susceptible to predation than those with 1 worm, suggesting that excessive larval parasite growth does not increase host susceptibility to predation. Our results support the idea that parasites can suppress intermediate host susceptibility to predation while uninfective, but we also note that the available studies suggest that this effect is weaker than the frequently observed enhancement of host predation by infective helminth larvae.

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Experimental parasite community ecology: intraspecific variation in a large tapeworm affects community assembly

Benesh

Kalbe

2016

Journal of Animal Ecology

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Non-random species associations occur in naturally sampled parasite communities. The processes resulting in predictable community structure (e.g. particular host behaviours, cross-immunity, interspecific competition) could be affected by traits that vary within a parasite species, like growth or antigenicity. We experimentally infected three-spined sticklebacks with a large tapeworm (Schistocephalus solidus) that impacts the energy needs, foraging behaviour and immune reactions of its host. The tapeworms came from two populations, characterized by high or low growth in sticklebacks. Our goal was to evaluate how this parasite, and variation in its growth, affects the acquisition of other parasites. Fish infected with S. solidus were placed into cages in a lake to expose them to the natural parasite community. We also performed a laboratory experiment in which infected fish were exposed to a fixed dose of a common trematode parasite. In the field experiment, infection with S. solidus affected the abundance of four parasite species, relative to controls. For two of the four species, changes occurred only in fish harbouring the high-growth S. solidus; one species increased in abundance and the other decreased. These changes did not appear to be directly linked to S. solidus growth though. The parasite exhibiting elevated abundance was the same trematode used in the laboratory infection. In that experiment, we found a similar infection pattern, suggesting that S. solidus affects the physiological susceptibility of fish to this trematode. Associations between S. solidus and other parasites occur and vary in direction. However, some of these associations were contingent on the S. solidus population, suggesting that intraspecific variability can affect the assembly of parasite communities.

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Daniel P. Benesh

What are the evolutionary constraints on larval growth in a trophically transmitted parasite?

Multidimensionality and intra-individual variation in host manipulation by an acanthocephalan

Suppression of predation on the intermediate host by two trophically-transmitted parasites when uninfective

Experimental parasite community ecology: intraspecific variation in a large tapeworm affects community assembly

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