Mate-finding allee effect in spruce budworm population dynamics

Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics. Mate‐finding failure, a common mechanism contributing to demographic Allee effects, is usually difficult to demonstrate because of the arduou...

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Published inEntomologia experimentalis et applicata Vol. 146; no. 1; pp. 112 - 122
Main Authors Régnière, Jacques, Delisle, Johanne, Pureswaran, Deepa S., Trudel, Richard
Format Journal Article
LanguageEnglish
Published Amsterdam Blackwell Publishing Ltd 01.01.2013
Wiley Subscription Services, Inc
Subjects
Animal populations
Animal reproduction
Birds
Choristoneura fumiferana
Competition
demographic Allee effect
eastern spruce budworm
Lepidoptera
mating success
moth migration
pheromone gland content
Population density
predation pressure
Tortricidae
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Abstract Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics. Mate‐finding failure, a common mechanism contributing to demographic Allee effects, is usually difficult to demonstrate because of the arduous nature of sampling individuals at very low densities. In a rising outbreak of the eastern spruce budworm, Choristoneura fumiferana (Clemens) (Lepidoptera: Tortricidae), we used caged and tethered virgin females in traps to measure mating success over population densities ranging from deep endemic to outbreak conditions. We found that mating success increased with increasing population density, and that at endemic population densities, females experienced difficulties attracting males and mating, demonstrating for the first time a mate‐finding Allee effect in the spruce budworm. The relationship between population density and mating success is nonlinear. As population density increased, the proportion of mated females eventually reached a plateau and mating success was not 100% even at the highest moth densities, probably due to female reluctance to mate and perhaps interference competition by males for access to females. Both laboratory‐reared and wild females were equally effective in synthesizing pheromone, attracting males, and mating. Our results strongly suggest that a mate‐finding Allee effect is involved in maintaining low‐density spruce budworm populations below an Allee threshold where they fail to grow. Factors such as changes in predation pressure and immigration could help populations overcome this Allee threshold.
AbstractList Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics. Mate-finding failure, a common mechanism contributing to demographic Allee effects, is usually difficult to demonstrate because of the arduous nature of sampling individuals at very low densities. In a rising outbreak of the eastern spruce budworm, Choristoneura fumiferana (Clemens) (Lepidoptera: Tortricidae), we used caged and tethered virgin females in traps to measure mating success over population densities ranging from deep endemic to outbreak conditions. We found that mating success increased with increasing population density, and that at endemic population densities, females experienced difficulties attracting males and mating, demonstrating for the first time a mate-finding Allee effect in the spruce budworm. The relationship between population density and mating success is nonlinear. As population density increased, the proportion of mated females eventually reached a plateau and mating success was not 100% even at the highest moth densities, probably due to female reluctance to mate and perhaps interference competition by males for access to females. Both laboratory-reared and wild females were equally effective in synthesizing pheromone, attracting males, and mating. Our results strongly suggest that a mate-finding Allee effect is involved in maintaining low-density spruce budworm populations below an Allee threshold where they fail to grow. Factors such as changes in predation pressure and immigration could help populations overcome this Allee threshold.
Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics. Mate-finding failure, a common mechanism contributing to demographic Allee effects, is usually difficult to demonstrate because of the arduous nature of sampling individuals at very low densities. In a rising outbreak of the eastern spruce budworm, Choristoneura fumiferana (Clemens) (Lepidoptera: Tortricidae), we used caged and tethered virgin females in traps to measure mating success over population densities ranging from deep endemic to outbreak conditions. We found that mating success increased with increasing population density, and that at endemic population densities, females experienced difficulties attracting males and mating, demonstrating for the first time a mate-finding Allee effect in the spruce budworm. The relationship between population density and mating success is nonlinear. As population density increased, the proportion of mated females eventually reached a plateau and mating success was not 100% even at the highest moth densities, probably due to female reluctance to mate and perhaps interference competition by males for access to females. Both laboratory-reared and wild females were equally effective in synthesizing pheromone, attracting males, and mating. Our results strongly suggest that a mate-finding Allee effect is involved in maintaining low-density spruce budworm populations below an Allee threshold where they fail to grow. Factors such as changes in predation pressure and immigration could help populations overcome this Allee threshold. [PUBLICATION ABSTRACT]
Abstract Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics. Mate‐finding failure, a common mechanism contributing to demographic A llee effects, is usually difficult to demonstrate because of the arduous nature of sampling individuals at very low densities. In a rising outbreak of the eastern spruce budworm, C horistoneura fumiferana ( C lemens) ( L epidoptera: T ortricidae), we used caged and tethered virgin females in traps to measure mating success over population densities ranging from deep endemic to outbreak conditions. We found that mating success increased with increasing population density, and that at endemic population densities, females experienced difficulties attracting males and mating, demonstrating for the first time a mate‐finding A llee effect in the spruce budworm. The relationship between population density and mating success is nonlinear. As population density increased, the proportion of mated females eventually reached a plateau and mating success was not 100% even at the highest moth densities, probably due to female reluctance to mate and perhaps interference competition by males for access to females. Both laboratory‐reared and wild females were equally effective in synthesizing pheromone, attracting males, and mating. Our results strongly suggest that a mate‐finding A llee effect is involved in maintaining low‐density spruce budworm populations below an A llee threshold where they fail to grow. Factors such as changes in predation pressure and immigration could help populations overcome this A llee threshold.
Author Trudel, Richard
Delisle, Johanne
Régnière, Jacques
Pureswaran, Deepa S.
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Snippet Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population dynamics....
Abstract Allee effects can cause populations to decline due to decreasing population growth rates with decreasing density and play a major role in population...
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crossref
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StartPage 112
SubjectTerms Animal populations
Animal reproduction
Birds
Choristoneura fumiferana
Competition
demographic Allee effect
eastern spruce budworm
Lepidoptera
mating success
moth migration
pheromone gland content
Population density
predation pressure
Tortricidae
Title Mate-finding allee effect in spruce budworm population dynamics
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https://onlinelibrary.wiley.com/doi/abs/10.1111%2Feea.12019
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https://search.proquest.com/docview/1257776515
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