Female mating failures in insects

Rhainds, Marc

doi:10.1111/j.1570-7458.2010.01032.x

Cited by 138 publications

(174 citation statements)

References 195 publications

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“…A female can remain unmated if she is not able to find a mate e.g. due to low population density (Godfray 1990;Rhainds 2010;Morse 2013). If a female does mate but the mating does not result in fertilization (possible reasons reviewed by Godfray 1990), she may become effectively unmated as remating can be obstructed (reviewed by Godfray 1990;Ode et al 1997).…”

Section: Model and Resultsmentioning

confidence: 99%

Unmatedness Promotes the Evolution of Helping More in Diplodiploids than in Haplodiploids

Rautiala

Helanterä

Puurtinen

2014

The American Naturalist

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Section: Model and Resultsmentioning

confidence: 99%

Unmatedness Promotes the Evolution of Helping More in Diplodiploids than in Haplodiploids

Rautiala

Helanterä

Puurtinen

2014

The American Naturalist

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“…According to a popular theory, females emerging when and where males are abundant tend to have higher mating success. Instead, early male emergence increases males' mating opportunities (Rhainds 2010). Apart from protandry, it is generally accepted that male gall midges in most studied species have shorter life span than females (Gagne 1994;Rajamani et al Fig.…”

Section: Discussionmentioning

confidence: 99%

An equal sex ratio followed by differential sex mortality causes overestimation of females in gall midges: no evidence for sex ratio regulation

Tabadkani

Ashouri

Qolizadeh

2012

Naturwissenschaften

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Monogeny, the production of unisexual broods by individual females, has been recognized for nearly 80 years. The genetic nature of gall midges' sex determination predicts an equal numbers of male-producing and female-producing females in the populations such that the overall sex ratio is expected to be nearly 1:1. However, observations of some strictly monogenous populations with biased sex ratio, mainly toward females, have raised the question of whether gall midges are able to adjust their offspring sex ratio in response to changes in environmental conditions, and some authors have even considered sex ratio regulation as a strong force in the course of the evolution of monogeny. In this paper, first, by studying the sex ratio variations of the predatory gall midge, Aphidoletes aphidimyza within a generation, we showed that adult males emerge up to 1 day earlier and have shorter life span than females (less than 4 days and up to 6 days, respectively). Although, the sex ratio of A. aphidimyza at the time of emergence was nearly 1:1 (52.41% males), a simple population simulation indicated that the differential mortality of sexes can lead to a female-biased sex ratio estimation (57.88% females) under random sampling in the natural environments. Our results imply that the primary sex ratio of monogenous gall midges is nearly 1:1 and that the arrhenogenic/thelygenic gall midges are not able to alter the number of their male/female progenies in response to changes in environmental conditions.

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“…In such cases, an intermediate rather than maximal signaling effort can still be selected for, if high signaling effort is costly. Such costs can be difficult to detect precisely because females are not typically expected to evolve highly costly mate acquisition traits (Kokko and Wong 2007), but it is noteworthy that (1) costs can shape mating systems even if they are small or (2) sometimes sperm limitation can make females evolve costly mate acquisition traits (for insect data, see Charlat et al 2007;Calabrese et al 2008;Rhainds 2010; for data from spatially varying situations, see Contarini et al 2009;Rhainds 2012). Accordingly, we now assume that multiple male arrivals are not costly (we modify the above model to have k ≥ 1) and include direct costs of pheromone production.…”

Section: Balancing Mate Arrival Rate With Increasing Costs Of Callingmentioning

confidence: 99%

“…This can lead to delayed breeding (Mori and Evenden 2012), suboptimal sex ratios of progeny (Boivin 2012;Harpur et al 2012), or complete failure to reproduce. Given that female mating failures are well documented (Calabrese et al 2008;Rhainds 2010), there are circumstances under which females should actively search for mates.…”

Section: Introductionmentioning

confidence: 99%

The Mothematics of Female Pheromone Signaling: Strategies for Aging Virgins

Umbers¹,

Symonds

Kokko

2015

The American Naturalist

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Although females rarely experience strong mate limitation, delays or lifelong problems of mate acquisition are detrimental to female fitness. In systems where males search for females via pheromone plumes, it is often difficult to assess whether female signaling is costly. Direct costs include the energetics of pheromone production and attention from unwanted eavesdroppers, such as parasites, parasitoids, and predators. Suboptimal outcomes are also possible from too many or too few mating events or near-simultaneous arrival of males who make unwanted mating attempts (even if successfully thwarted). We show that, in theory, even small costs can lead to a scenario where young females signal less intensely (lower pheromone concentration and/or shorter time spent signaling) and increase signaling effort only as they age and gather evidence (while still virgin) on whether sperm limitation threatens their reproductive success. Our synthesis of the empirical data available on Lepidoptera supports this prediction for one frequently reported component of signalingtime spent calling (often reported as the time of onset of calling at night)-but not for another, pheromone titer. This difference is explicable under the plausible but currently untested assumption that signaling earlier than other females each night is a more reliable way of increasing the probability of acquiring at least one mate than producing a more concentrated pheromone plume. Submitted February 24, 2014; Accepted October 3, 2014; Electronically published February 2, 2015 Online enhancement: appendix.abstract: Although females rarely experience strong mate limitation, delays or lifelong problems of mate acquisition are detrimental to female fitness. In systems where males search for females via pheromone plumes, it is often difficult to assess whether female signaling is costly. Direct costs include the energetics of pheromone production and attention from unwanted eavesdroppers, such as parasites, parasitoids, and predators. Suboptimal outcomes are also possible from too many or too few mating events or near-simultaneous arrival of males who make unwanted mating attempts (even if successfully thwarted). We show that, in theory, even small costs can lead to a scenario where young females signal less intensely (lower pheromone concentration and/or shorter time spent signaling) and increase signaling effort only as they age and gather evidence (while still virgin) on whether sperm limitation threatens their reproductive success. Our synthesis of the empirical data available on Lepidoptera supports this prediction for one frequently reported component of signaling-time spent calling (often reported as the time of onset of calling at night)-but not for another, pheromone titer. This difference is explicable under the plausible but currently untested assumption that signaling earlier than other females each night is a more reliable way of increasing the probability of acquiring at least one mate than producing a more concentrated pheromone plume.

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Female mating failures in insects

Cited by 138 publications

References 195 publications

Unmatedness Promotes the Evolution of Helping More in Diplodiploids than in Haplodiploids

Unmatedness Promotes the Evolution of Helping More in Diplodiploids than in Haplodiploids

An equal sex ratio followed by differential sex mortality causes overestimation of females in gall midges: no evidence for sex ratio regulation

The Mothematics of Female Pheromone Signaling: Strategies for Aging Virgins

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