Rajat Bhargava scite author profile

In many species, intense male‐male competition for the opportunity to sire offspring has led to the evolution of selfish reproductive traits that are harmful to the females they mate with. In the fruit fly, Drosophila melanogaster, males modulate their reproductive behavior based on the perceived intensity of competition in their premating environment. Specifically, males housed with other males subsequently transfer a larger ejaculate during a longer mating compared to males housed alone. Although the potential fitness benefits to males from such plasticity are clear, its effects on females are mostly unknown. Hence, we tested the long‐term consequences to females from mating with males with distinct social experiences. First, we verified that competitive experience influences male mating behavior and found that males housed with rivals subsequently have shorter mating latencies and longer mating durations. Then, we exposed females every other day for 20 days to males that were either housed alone or with rivals, and subsequently measured their fitness. We found that females mated to males housed with rivals produce more offspring early in life but fewer offspring later in life and have shorter lifespans but similar intrinsic population growth rates. These results indicate that plasticity in male mating behavior can influence female life histories by altering females’ relative allocation to early versus late investment in reproduction and survival.

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Author response for "Female mating experience and genetic background independently influence male mating success in fruit flies"

Filice¹,

Bhargava²,

Dukas³

2020

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Imports nlme, Matrix (>= 1.0) Suggests mvtnorm, kinship2 LinkingTo bdsmatrix LazyData Yes LazyLoad Yes Description Fit Cox proportional hazards models containing both fixed and random effects. The random effects can have a general form, of which familial interactions (a``kinship'' matrix) is a particular special case. Note that the simplest case of a mixed effects Cox model, i.e. a single random per-group intercept, is also called a``frailty'' model. The approach is based on Ripatti and Palmgren, Biometrics 2002. License LGPL-2 NeedsCompilation yes Author Terry M. Therneau [aut, cre]

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Female mating experience and genetic background independently influence male mating success in fruit flies

Filice

Bhargava

Dukas

2020

J of Evolutionary Biology

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When the reproductive interests of males and females conflict, males can evolve traits that are harmful to females, and females can coevolve traits to resist this harm. In the fruit fly, Drosophila melanogaster, there is genetic variation in female resistance traits, which can affect the pre‐ and post‐mating success of males that try to mate with them. However, it is not clear to what extent the expression of these phenotypes can be modified by environmental factors such as sociosexual experience. Here, we tested how the genetic background of a female and her previous mating experience interact to affect the mating success of focal males. In the experience phase, we placed females from 28 distinct genetic backgrounds individually either with a single male (low conflict) or with three males (high conflict) for 48 hr. In the subsequent test phase, we measured the mating and post‐mating fertilization success of focal males paired individually with each female. We found that focal males paired with females from the high‐conflict treatment were less successful at mating, took longer to mate when they were successful, and had a lower proportion of paternity share. Furthermore, we identified significant female genetic variation associated with male mating success. These results indicate that female experience, along with intrinsic genetic factors, can independently influence different fitness components of her subsequent mates and has implications for our understanding of plastic female mating strategies and the evolution of sexually antagonistic traits in males and females.

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Rajat Bhargava

Plasticity in male mating behavior modulates female life history in fruit flies

Author response for "Female mating experience and genetic background independently influence male mating success in fruit flies"

Female mating experience and genetic background independently influence male mating success in fruit flies

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