Predator-induced plasticity in guppy (<Emphasis Type="Italic">Poecilia reticulata</Emphasis>) life history traits |
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Authors: | Anna?K?Gosline Email author" target="_blank">F?Helen?RoddEmail author |
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Institution: | (1) Department of Ecology and Evolutionary Biology, University of Toronto, Toronto, Canada, M5S 3G5 |
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Abstract: | A number of invertebrates show predator-induced plasticity in life-history and morphological traits that are considered adaptive.
Evidence is accumulating that vertebrates may also adjust their life-history traits in response to predators; however, some
of the patterns of plasticity, which appear to be an adaptive response specifically to the risk of size-selective predation,
may instead result from reduced foraging in response to predator presence. Here, we describe a study of predator-induced plasticity
in guppies (Poecilia reticulata). We have predicted that the plastic response to cues from a small, gape-limited, natural predator of guppies, the killlifish
(Rivulus hartii), would be the opposite of that caused by reduced food intake. We have found that male guppies increased their size at maturity,
both length and mass, in response to the non-lethal presence of this predator. This pattern of plasticity is the opposite
of that observed in response to reduced food intake, where male guppies reduce size at maturity. The increase in size at maturity
that we observed would likely reduce predation on adult male guppies by this native predator because it is gape-limited and
can only eat juvenile and small adult guppies. This size advantage would be important especially because male guppies grow
very little after maturity. Therefore, the pattern of plasticity that we observed is likely adaptive. In contrast, female
guppies showed no significant response in size at first parturition to the experimental manipulation; however, we did find
evidence suggesting that females may produce more, smaller offspring in response to cues from this predator. |
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Keywords: | Size at maturity Age at maturity Offspring size Offspring number Non-lethal effect |
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