Role of inducible defenses in the stability of a tritrophic system
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2008-06Metadata
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Ramos Jiliberto, Rodrigo
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Role of inducible defenses in the stability of a tritrophic system
Abstract
Inducible defenses are a form of phenotypic plasticity that potentially modify direct
interactions between various members of an ecological community, generating traitmediated
indirect effects. In this work, the hypothesis that inducible defenses increase
the stability of tritrophic chains is tested, through the numerical analysis of a continuoustime
model that discriminate between defenses affecting attack rate of predators, and
defenses affecting predator handling time. In addition, discrimination between feeding
costs of defenses affecting attack rate, and metabolic costs affecting feeding requirement
for zero growth are considered. System stability was examined by computing dominant
Lyapunov exponents, and through continuation routines of bifurcation points. Background
parameter values were taken from two published studies. Our results show that a
tritrophic system will generally be stabilized by the incorporation of inducible defenses
and by their associated costs, but a number of new outcomes were obtained. Different
long-term behavior is predicted if either one or two prey populations exhibit defenses. In
the latter case, the defense of the basal prey dominates the dynamics. Handling time
based inducible defenses exert a stronger stabilizing effect than attack rate based ones, but
also impose a higher extinction risk for top predators. Inducible defenses in particular and
trait-mediated indirect effects in general can be important sources of stability in natural
systems.
Patrocinador
This work was supported by grants FONDECYT 1040821/2004
and CONICYT-PBCT ACT 34/2006.
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ECOLOGICAL COMPLEXITY, Volume: 5, Issue: 2, Pages: 183-192, 2008
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