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1. Reproduction Within a Hierarchical Society from a Female’s Perspective

   https://doi.org/10.1093/icb/icaa068  

   Holekamp, Kay E; Strauss, Eli D (July 2020, Integrative and Comparative Biology)

   Abstract The reproductive biology of many female mammals is affected by their social environment and their interactions with conspecifics. In mammalian societies structured by linear dominance hierarchies, such as that of the spotted hyena (Crocuta crocuta), a female’s social rank can have profound effects on both her reproductive success and her longevity. In this species, social rank determines priority of access to food, which is the resource limiting reproduction. Due largely to rank-related variation in access to food, reproduction from the perspective of a female spotted hyena can only be understood in the context of her position in the social hierarchy. In this review, we examine the effects of rank on the various phases of reproduction, from mating to weaning. Summed over many individual reproductive lifespans, the effect of rank at these different reproductive phases leads to dramatic rank-related variation in fitness among females and their lineages. Finally, we ask why females reproduce socially despite these apparent costs of group living to low-ranking females. Gregariousness enhances the fitness of females regardless of their positions in the social hierarchy, and females attempting to survive and reproduce without clanmates lose all their offspring. The positive effects of gregariousness appear to result from having female allies, both kin and non-kin, who cooperate to advertise and defend a shared territory, acquire, and defend food resources, maintain the status quo, and occasionally also to rise in social rank. 

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2. Warmer temperature accelerates the aging-dependent decrease in female ovary size, delays male accessory gland development, and accelerates aging-dependent changes in reproductive gene expression in Anopheles gambiae mosquitoes

   https://doi.org/10.3390/insects16090921  

   Martin, Lindsay E; Estévez-Lao, Tania Y; Grant, Megan I; Shastri, Norbu Y; Hillyer, Julián F (September 2025, Insects)

   In most mosquito species, reproduction requires mating between the female and the male, followed by the female blood-feeding, completing oogenesis, and laying eggs. Warmer environmental temperature and aging both reduce mosquito fecundity and fertility, and warmer temperature accelerates the aging-dependent decline in reproduction such that reproductive impairment manifests earlier in life. To shed light on how this warming-based acceleration of reproductive senescence occurs, we investigated how temperature (27 °C, 30 °C, and 32 °C) and aging interactively shape female and male reproductive tissue size in the African malaria mosquito, Anopheles gambiae. In blood-fed females, we discovered that warmer temperature accelerates the aging-dependent decrease in the size of the ovaries but not the spermatheca. In males, we discovered that warmer temperature lessens and delays the aging-dependent increase in the size of the male accessory glands but not the testes. Next, we measured the expression of reproductive genes in females and males. In female reproductive tissues, warmer temperature accelerates the aging-dependent decrease in the expression of vitellogenin and the aging-dependent increase in the expression of MISO and HPX15. In male reproductive tissues, warmer temperature accelerates an aging-dependent decrease in the expression of Plugin, TGase3, phLP, and CYP315A1. Altogether, these data shed light on how physical and transcriptional changes underpin the warming-based acceleration of an aging-dependent decline in mosquito fecundity and fertility. 

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3. Influence of age and individual identity in the use of breeding colony habitat by male Weddell seals in Erebus Bay, Antarctica

   https://doi.org/10.1111/mms.12812  

   Brusa, Jamie L.; Rotella, Jay J.; Garrott, Robert A. (January 2021, Marine Mammal Science)

   null (Ed.)

   Male–male contest behavior can contribute to spatial distributions of male pinnipeds during breeding seasons. To maximize breeding opportunities, the most competitive males would be expected to be surrounded by the highest numbers of reproductive‐age females. As information regarding fine‐scale spatial ecology of Weddell seals is lacking, we performed an exploratory study using kernel density analyses to evaluate age‐specific habitat use of male Weddell seals in Erebus Bay, Antarctica. Additionally, we investigated the relationship between age and number of surrounding reproductive‐age females using a competing set of regression models in a Bayesian framework that considered different functional forms of age while incorporating individual heterogeneity. As male adult Weddell seals aged, to at least 20 years, they were more likely to be found in areas associated with the greatest densities of reproductive‐age females, but individual heterogeneity also influenced the number of reproductive‐age female neighbors. The youngest males tended to haul out in offshore areas associated with better hunting, and older males tended to settle in more nearshore areas associated with more pup production. Our findings from this preliminary investigation indicate that male Weddell seal spatial behavior during the breeding season varies with age and individual and might be related to reproductive activity. 

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4. Sex bias in mortality risk changes over the lifespan of bottlenose dolphins

   https://doi.org/10.1098/rspb.2023.0675  

   McEntee, Molly H.; Foroughirad, Vivienne; Krzyszczyk, Ewa; Mann, Janet (July 2023, Proceedings of the Royal Society B: Biological Sciences)

   Research on sex biases in longevity in mammals often assumes that male investment in competition results in a female survival advantage that is constant throughout life. We use 35 years of longitudinal data on 1003 wild bottlenose dolphins ( Tursiops aduncus ) to examine age-specific mortality, demonstrating a time-varying effect of sex on mortality hazard over the five-decade lifespan of a social mammal. Males are at higher risk of mortality than females during the juvenile period, but the gap between male and female mortality hazard closes in the mid-teens, coincident with the onset of female reproduction. Female mortality hazard is non-significantly higher than male mortality hazard in adulthood, resulting in a moderate male bias in the oldest age class. Bottlenose dolphins have an intensely male-competitive mating system, and juvenile male mortality has been linked to social competition. Contrary to predictions from sexual selection theory, however, male–male competition does not result in sustained male-biased mortality. As female dolphins experience high costs of sexual coercion in addition to long and energetically expensive periods of gestation and lactation, this suggests that substantial female investment in reproduction can elevate female mortality risk and impact sex biases in lifespan. 

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5. Sex‐specific breeding phenologies in the North American deer mouse ( Peromyscus maniculatus )

   https://doi.org/10.1002/ecs2.4327  

   McLean, Bryan S.; Barve, Narayani; Guralnick, Robert P. (December 2022, Ecosphere)

   Abstract Effects of global climate change on population persistence are often mediated by life‐history traits of individuals, especially the timing of somatic growth, reproductive development, and reproduction itself. These traits can vary among age groups and between the sexes, a result of differential life‐history tactics and levels of lifetime reproductive investment. Unfortunately, the trait data necessary for revealing sex‐specific breeding behaviors and use of breeding cues over reasonably large geographic areas remain sparse for most taxa. In this study, we assembled and analyzed a new reproductive trait base for the North American deer mouse ( Peromyscus maniculatus ) from digitized natural history specimens and field censuses. We used the data to reconstruct sex‐specific breeding phenologies and their drivers within and among North American ecoregions. Male and female phenologies varied across the geographic range of this species, with discordance in timing and intensity being highest in regions of lower seasonality (and longer breeding seasons). Reliance on environmental variables as breeding cues also appeared to vary in a sex‐specific manner, being most similar for photoperiod and least similar for temperature (positive male response and negative female response); in addition, model validation indicated that phenological models generalized better for males than for females. Finally, our individual‐level trait data also show that male reproductive investment (quantified as relative testis size) varies across the vastly different abiotic and social (i.e., female breeding) contexts studied here. By harmonizing across a broad set of digital data resources, we demonstrate the potential to uncover drivers of phenological variation within species and inform global change predictions at multiple scales of biological organization. 

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