The impact of ageing on male reproductive success in Drosophila melanogaster

Ruhmann, Hanna; Koppik, Mareike; Wolfner, Mariana F.; Fricke, Claudia

doi:10.1016/j.exger.2017.12.013

Cited by 35 publications

(48 citation statements)

References 80 publications

(123 reference statements)

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“…As in other animals, sex differences in aging, lifespan, 14,88 reproductive traits, [108][109][110][111][112] and transgenerational effects have been reported in D. melanogaster. 111,113,114 Like other animals, rapid reproduction in early life reduces longevity in D. melanogaster, as resources invested in reproduction can come at the cost of organismal longevity.…”

Section: Reproduction and Transgenerational Agingmentioning

confidence: 75%

Social behavior and aging: A fly model

Brenman-Suttner

Yost

Frame

et al. 2019

Genes Brain and Behavior

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The field of behavioral genetics has recently begun to explore the effect of age on social behaviors. Such studies are particularly important, as certain neuropsychiatric disorders with abnormal social interactions, like autism and schizophrenia, have been linked to older parents. Appropriate social interaction can also have a positive impact on longevity, and is associated with successful aging in humans. Currently, there are few genetic models for understanding the effect of aging on social behavior and its potential transgenerational inheritance. The fly is emerging as a powerful model for identifying the basic molecular mechanisms underlying neurological and neuropsychiatric disorders. In this review, we discuss these recent advancements, with a focus on how studies in Drosophila melanogaster have provided insight into the effect of aging on aspects of social behavior, including across generations.

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Section: Reproduction and Transgenerational Agingmentioning

confidence: 75%

Social behavior and aging: A fly model

Brenman-Suttner

Yost

Frame

et al. 2019

Genes Brain and Behavior

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“…More recent studies have further investigated how female and male age can decrease offspring viability by focusing on underlying pre‐ and postmeiotic aging processes (Firman, Young, Rowe, Duong, & Gasparini, ; Pizzari et al, ; Tan, Pizzari, & Wigby, ). In short, the effects of age on reproductive success have been relatively well explored, yet most available studies have overlooked how socio‐sexual factors such as density or sex ratio might modulate reproductive senescence across the sexes (Brengdahl, Kimber, Maguire‐Baxter, Malacrinò, & Friberg, ; Carazo, Molina‐Vila, & Font, ; Fricke, Green, Mills, & Chapman, ; Ruhmann, Koppik, Wolfner, & Fricke, ; Tan et al, ; Zhao, Xuan, Li, & Xi, ).…”

Section: Introductionmentioning

confidence: 99%

Sex ratio at mating does not modulate age fitness effects in Drosophila melanogaster

Sultanova

Carazo

2019

Ecology and Evolution

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Understanding the effects of male and female age on reproductive success is vital to explain the evolution of life history traits and sex‐specific aging. A general prediction is that pre‐/postmeiotic aging processes will lead to a decline in the pre‐ and postcopulatory abilities of both males and females. However, in as much the sexes have different strategies to optimize their fitness, the decline of reproductive success late in life can be modulated by social context, such as sex ratio, in a sex‐specific manner. In this study, we used Drosophila melanogaster to investigate whether sex ratio at mating modulates age effects on male and female reproductive success. As expected, male and female age caused a decrease in reproductive success across male‐biased and female‐biased social contexts but, contrary to previous findings, social context did not modulate age‐related fitness decline in either of the two sexes. We discuss these results in the light of how sex ratio might modulate pre‐/postcopulatory abilities and the opportunity for inter‐ and intrasexual competition in D. melanogaster, and generally suggest that social context effects on these processes are likely to be species specific.

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“…Similarly, the absence of an age-related response to dSO in females is not surprising for although the highest daily egg output occurs during the first week (Tatar, Promislow, Khazaeli, & Curtsinger, 1996), moving away from potential danger could extend her future opportunities to oviposit. In contrast, as mating opportunities for males decline with age (see Ruhmann, Koppik, Wolfner, & Fricke, 2018) older males would have less to lose than younger ones with respect to future reproduction.…”

Section: Discussionmentioning

confidence: 99%

IsDrosophila melanogasterStress Odorant (dSO) really an alarm pheromone?

Yost

Liang

Stewart

et al. 2019

Preprint

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Social interactions are crucial for the reproduction and survival of many organisms, including those using visual, auditory and olfactory cues to signal the presence of danger. Drosophila melanogaster emits an olfactory alarm signal, termed the Drosophila stress odorant (dSO) in response to mechanical agitation or electric shock, and conspecifics avoid areas previously occupied by stressed individuals. However, the contextual, genetic and neural underpinnings of the emission of, and response to dSO, have received little attention. Using a binary choice assay, we determined that neither age and sex of emitters, nor the time of the day, affected the emission or avoidance of dSO. However, both sex and mating status affected the response to dSO. We also demonstrated that dSO was not species specific so it should not be considered a pheromone but a general alarm signal for Drosophila. However, the response levels to both intra and inter-specific cues differed between species and possible reasons for these differences are discussed. HIGHLIGHTS• Emission of dSO, a highly volatile chemical blend emitted by stressed flies, is not context specific • Response to dSO is context specific, affected by factors such as age and mating status.• As flies respond to volatiles for stressed heterospecifics, dSO should not be considered an alarm pheromone, but as an alarm cue.

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The impact of ageing on male reproductive success in Drosophila melanogaster

Cited by 35 publications

References 80 publications

Social behavior and aging: A fly model

Social behavior and aging: A fly model

Sex ratio at mating does not modulate age fitness effects in Drosophila melanogaster

IsDrosophila melanogasterStress Odorant (dSO) really an alarm pheromone?

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