scholarly journals Maternal and paternal age effects on male antler flies: a field experiment

2021 ◽  
Author(s):  
Christopher Angell ◽  
Rebecca Janacek ◽  
Howard D Rundle
Keyword(s):  
Experimental Manipulation ◽  
Age Effects ◽  
Paternal Age ◽  
Parental Age ◽  
Aging Research ◽  
Offspring Performance ◽  
Biologically Relevant ◽  
Adult Lifespan ◽  
Captive Populations ◽  
In The Wild

In many species, parental age at reproduction can influence offspring performance and lifespan, but the direction of these effects and the traits affected vary among studies. Data on parental age effects are still scarce in non-captive populations, especially insects, despite species such as fruit flies being models in laboratory-based aging research. We performed a biologically relevant experimental manipulation of maternal and paternal age at reproduction of antler flies (Protopiophila litigata) in the laboratory and tracked the adult lifespan and reproductive success of their male offspring released in the wild. Increased paternal, but not maternal, age somewhat increased sons’ adult lifespan, while parental ages did not influence sons’ mating rate or reproductive senescence. Our results indicate that while parental age effects do exist in an insect in the field, they may be beneficial in such a short-lived animal, in contrast to results from most wild vertebrates and laboratory invertebrates.

scholarly journals Telomere heritability and parental age at conception effects in a wild avian population

2020 ◽  
Author(s):  
Alexandra Sparks ◽  
Lewis G. Spurgin ◽  
Marco van der Velde ◽  
Eleanor A. Fairfield ◽  
Jan Komdeur ◽  
...  
Keyword(s):  
Animal Models ◽  
Telomere Length ◽  
Paternal Age ◽  
Parental Age ◽  
Wild Populations ◽  
Evolutionary Potential ◽  
Confounding Variables ◽  
In The Wild ◽  
Seychelles Warbler ◽  
Heritability Estimates

Individual variation in telomere length is predictive of health and mortality risk across a range of species. However, the relative influence of environmental and genetic variation on individual telomere length in wild populations remains poorly understood. In previous studies, heritability of telomere length has primarily been calculated using parent-offspring regression, but shared environments can confound such estimates. Furthermore, associations with age and parental age at conception effects are typically not accounted for but can also bias heritability estimates. To control for these confounding variables, quantitative genetic ‘animal models’ can be used. However, the few studies on wild populations using this approach have been restricted by power. Here, we investigated the heritability of telomere length and parental age at conception effects in the Seychelles warbler using 2664 telomere length measures from 1318 birds over 20 years and a multi-generational pedigree. We found a weak negative within-paternal age at conception effect (as fathers aged, their offspring had shorter telomeres) and a weak positive between-maternal age at conception effect (females that survived to older ages had offspring with longer telomeres). While parent–offspring regressions did not detect heritability, animal models provided evidence that heritability of telomere length was low in this population. Environmental and technical variation largely influenced telomere length and would have biased heritability estimates if unaccounted for. Estimating the heritability of telomere length is complex, requiring large sample sizes and accounting for confounding effects in order to improve our understanding of the evolutionary potential of telomere length in the wild.

Parental Age and Schizophrenia

1966 ◽  
Vol 112 (490) ◽  
pp. 899-905 ◽  
Author(s):  
K. L. Granville-Grossman
Keyword(s):  
Maternal Age ◽  
Age Effect ◽  
Age Effects ◽  
Paternal Age ◽  
Considerable Importance ◽  
Parental Age ◽  
Advanced Paternal Age ◽  
Older Parents ◽  
Maternal Age Effect ◽  
Environmental Causes

Reports that schizophrenics have older parents than non-schizophrenics (Barry, 1945; Goodman, 1957; Johanson, 1958; Gregory, 1959) are of considerable importance. If valid, they provide evidence for environmental causes of schizophrenia, and by analogy with other conditions where parental age effects have been noted may give some indication of the nature of these causes. There are, however, inconsistencies in these studies: thus Johanson and Gregory found a significant association between advanced paternal age and schizophrenia, but failed to confirm the maternal age effect noted by Barry and Goodman. These differences indicate the need for further investigation and this paper describes such a study.

scholarly journals Paternal but not maternal age influences early-life performance of offspring in a long-lived seabird

2016 ◽  
Vol 283 (1828) ◽  
pp. 20152318 ◽  
Author(s):  
Rémi Fay ◽  
Christophe Barbraud ◽  
Karine Delord ◽  
Henri Weimerskirch
Keyword(s):  
Maternal Age ◽  
Paternal Age ◽  
Parental Age ◽  
Fitness Component ◽  
Offspring Performance ◽  
Offspring Quality ◽  
Delayed Effects ◽  
Offspring Fitness ◽  
Demographic Traits ◽  
Iteroparous Species

Variability in demographic traits between individuals within populations has profound implications for both evolutionary processes and population dynamics. Parental effects as a source of non-genetic inheritance are important processes to consider to understand the causes of individual variation. In iteroparous species, parental age is known to influence strongly reproductive success and offspring quality, but consequences on an offspring fitness component after independence are much less studied. Based on 37 years longitudinal monitoring of a long-lived seabird, the wandering albatross, we investigate delayed effects of parental age on offspring fitness components. We provide evidence that parental age influences offspring performance beyond the age of independence. By distinguishing maternal and paternal age effects, we demonstrate that paternal age, but not maternal age, impacts negatively post-fledging offspring performance.

scholarly journals Biparental age effects in the burying beetle Nicrophorus vespilloides

2021 ◽  
Author(s):  
Hilary Cope ◽  
Edward Ivimey-Cook ◽  
Jacob Moorad
Keyword(s):  
Maternal Age ◽  
Larval Survival ◽  
Age Effects ◽  
Paternal Age ◽  
Offspring Size ◽  
Laboratory Population ◽  
Parental Age ◽  
Burying Beetle ◽  
Negative Results ◽  
Nicrophorus Vespilloides

AbstractParental age at reproduction influences offspring size and survival by affecting prenatal and postnatal conditions in a wide variety of species, including humans. However, most investigations into this manifestation of ageing focus upon maternal age effects; the effects of paternal age and interactions between maternal and paternal age are often neglected. Furthermore, even when maternal age effects are studied, pre- and postnatal effects are confounded. Using a cross-fostered experimental design, we investigated the joint effects of paternal and pre- and postnatal maternal ages on numerous offspring outcomes in a laboratory population of a species of burying beetle, Nicrophorus vespilloides. When we correct our tests for significance for multiple comparisons, we found no clear evidence for any parental effect senescence acting on egg size, larval weight, or larval survival. Nor did we find a statistical effect of paternal or egg producer age on the outcomes of foster mothers as measured by weight change experienced during caregiving. These findings are consistent with recent negative results reported in a similar study of N. vespilloides maternal age effects while also expanding these to other offspring traits and to paternal age effects. We discuss how the peculiar life history of this species may promote selection to resist the evolution of parental age effects, and how this might have influenced our ability to detect senescence.

Parental breeding age effects on descendants’ longevity interact over two generations in matrilines and patrilines

2019 ◽  
Author(s):  
Zac Wylde ◽  
Foteini Spagopoulou ◽  
Amy K Hooper ◽  
Alexei A Maklakov ◽  
Russell Bonduriansky
Keyword(s):  
Maternal Age ◽  
First Generation ◽  
Age Effects ◽  
Population Variation ◽  
Paternal Age ◽  
Interactive Effects ◽  
Competitive Environment ◽  
Larval Diet ◽  
Negative Effects ◽  
Two Generations

Individuals within populations vary enormously in mortality risk and longevity, but the causes of this variation remain poorly understood. A potentially important and phylogenetically widespread source of such variation is maternal age at breeding, which typically has negative effects on offspring longevity. Here, we show that paternal age can affect offspring longevity as strongly as maternal age does, and that breeding age effects can interact over two generations in both matrilines and patrilines. We manipulated maternal and paternal ages at breeding over two generations in the neriid fly Telostylinus angusticollis. To determine whether breeding age effects can be modulated by the environment, we also manipulated larval diet and male competitive environment in the first generation. We found separate and interactive effects of parental and grandparental ages at breeding on descendants’ mortality rate and lifespan in both matrilines and patrilines. These breeding age effects were not modulated by grandparental larval diet quality or competitive environment. Our findings suggest that variation in maternal and paternal ages at breeding could contribute substantially to intra-population variation in mortality and longevity.

scholarly journals THE ROLE OF PARENTAL AGE EFFECTS ON THE EVOLUTION OF AGING

Evolution ◽  
2002 ◽  
Vol 56 (5) ◽  
pp. 927-935 ◽  
Author(s):  
Nicholas K. Priest ◽  
Benjamin Mackowiak ◽  
Daniel E. L. Promislow
Keyword(s):  
Age Effects ◽  
Parental Age ◽  
Evolution Of Aging

scholarly journals The sources of sex differences in aging in annual fishes

2020 ◽  
Author(s):  
Martin Reichard ◽  
Radim Blažek ◽  
Jakub Žák ◽  
Petr Kačer ◽  
Oldřich Tomášek ◽  
...  
Keyword(s):  
Sex Differences ◽  
Social Environment ◽  
Social Factors ◽  
Environmental Conditions ◽  
Natural Populations ◽  
Experimental Results ◽  
Survival Difference ◽  
Captive Populations ◽  
Baseline Mortality ◽  
In The Wild

AbstractSex differences in lifespan and aging are widespread among animals, with males usually the shorter-lived sex. Despite extensive research interest, it is unclear how lifespan differences between the sexes are modulated by genetic, environmental and social factors. We combined comparative data from natural populations of annual killifishes with experimental results on replicated captive populations, showing that females consistently outlived males in the wild. This sex-specific survival difference persisted in social environment only in two most aggressive species, and ceased completely when social and physical contacts were prevented. Demographically, neither an earlier start nor faster rate of aging accounted for shorter male lifespans, but increased baseline mortality and the lack of mortality deceleration in the oldest age shortened male lifespan. The sexes did not differ in any measure of functional aging we recorded. Overall, we demonstrate that sex differences in lifespan and aging may be ameliorated by modulating social and environmental conditions.

scholarly journals Telomere length in house sparrows increases in early-life and can be paternally inherited

2021 ◽  
Author(s):  
Sophie Bennett ◽  
Antje Girndt ◽  
Alfredo Sánchez-Tójar ◽  
Terry Burke ◽  
Mirre J. P. Simons ◽  
...  
Keyword(s):  
Telomere Length ◽  
Early Life ◽  
Passer Domesticus ◽  
Age Effects ◽  
Parental Age ◽  
House Sparrows ◽  
Older Parents ◽  
Individual Level ◽  
Ageing Rate ◽  
Insight Into

Offspring of older parents in many species display decreased longevity, a faster ageing rate and lower fecundity than offspring born to younger parents. Biomarkers, such as telomeres, that tend to shorten as individual age, may provide insight into the mechanisms of parental age effects. Parental age could determine telomere length either through inheritance of shortened telomeres or through indirect effects, such as variation in parental care with parent ages, which in turn might lead to variation in offspring telomere length. There is no current consensus as to the heritability of telomere length, and the direction and extent of parental age effects however. To address this, here we experimentally investigate how parental age is associated with telomere length at two time points in early life in a captive population of house sparrows (Passer domesticus). We experimentally separated parental age from sex effects by allowing the parent birds to only mate with young, or old partners. We found that telomere length of the offspring increased between the age of 0.5 and 3 months at the group and individual level, which has been reported previously predominantly in non-avian taxa. We further show that older fathers produced daughters with a greater early-life increase in telomere length, supporting sex-specific inheritance, and or sex-specific non-genetic effects. Overall, our results highlight the need for more studies testing early-life telomere dynamics and sex-specific heritability of telomere length.

Schizophrenia Risk and Paternal Age: A Potential Role for De Novo Mutations in Schizophrenia Vulnerability Genes

CNS Spectrums ◽  
2002 ◽  
Vol 7 (1) ◽  
pp. 26-29 ◽  
Author(s):  
Dolores Malaspina ◽  
Alan Brown ◽  
Deborah Goetz ◽  
Nelly Alia-Klein ◽  
Jill Harkavy-Friedman ◽  
...  
Keyword(s):  
Human Population ◽  
Potential Role ◽  
De Novo ◽  
Paternal Age ◽  
Current Evidence ◽  
Parental Age ◽  
De Novo Mutations ◽  
New Mutations

ABSTRACTHow schizophrenia (SZ) is maintained at roughly 1% of the population despite diminished reproduction is one puzzle currently facing researchers. De novo mutations were first proposed over half a century ago as a source for new SZ genes. Current evidence linking advancing paternal age to SZ risk makes revisiting this hypothesis important. Advancing paternal age is the major source of new mutations in the human population. This article will examine potential mechanisms whereby parental age may impact new mutations, as well as review recent data supporting such a hypothesis.

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