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1. Male‐mimicking females increase male‐male interactions, and decrease male survival and condition in a female‐polymorphic damselfly

   https://doi.org/10.1111/evo.13221  

   Gering, Eben J. ( March 2017 , Evolution)
2. How female × male and male × male interactions influence competitive fertilization in Drosophila melanogaster

   https://doi.org/10.1002/evl3.193  

   Lüpold, Stefan ; Reil, Jonathan Bradley ; Manier, Mollie K. ; Zeender, Valérian ; Belote, John M. ; Pitnick, Scott ( October 2020 , Evolution Letters)

   How males and females contribute to joint reproductive success has been a long-standing question in sexual selection. Under postcopulatory sexual selection, paternity success is predicted to derive from complex interactions among females engaging in cryptic female choice and males engaging in sperm competition. Such interactions have been identified as potential sources of genetic variation in sexually selected traits but are also expected to inhibit trait diversification. To date, studies of interactions between females and competing males have focused almost exclusively on genotypes and not phenotypic variation in sexually selected traits. Here, we characterize within- and between-sex interactions in Drosophila melanogaster using isogenic lines with heritable variation in both male and female traits known to influence competitive fertilization. We confirmed, and expanded on, previously reported genotypic interactions within and between the sexes, and showed that several reproductive events, including sperm transfer, female sperm ejection, and sperm storage, were explained by two- and three-way interactions among sex-specific phenotypes. We also documented complex interactions between the lengths of competing males’ sperm and the female seminal receptacle, which are known to have experienced rapid female-male co-diversification. Our results highlight the nonindependence of sperm competition and cryptic female choice and demonstrate that complex interactions between the sexes do not limit the ability of multivariate systems to respond to directional sexual selection.

    

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3. Group structure predicts variation in proximity relationships between male–female and male–infant pairs of mountain gorillas (Gorilla beringei beringei)

   https://doi.org/10.1007/s10329-015-0490-2  

   Rosenbaum, S. ; Maldonado-Chaparro, A. A. ; Stoinski, T. S. ( January 2016 , Primates)
4. Testing the greater male variability phenomenon: male mountain chickadees exhibit larger variation in reversal learning performance compared with females

   https://doi.org/10.1098/rspb.2020.0895  

   Branch, Carrie L. ; Sonnenberg, Benjamin R. ; Pitera, Angela M. ; Benedict, Lauren M. ; Kozlovsky, Dovid Y. ; Bridge, Eli S. ; Pravosudov, Vladimir V. ( July 2020 , Proceedings of the Royal Society B: Biological Sciences)

   null (Ed.)

   The greater male variability phenomenon predicts that males exhibit larger ranges of variation in cognitive performance compared with females; however, support for this pattern has come exclusively from studies of humans and lacks mechanistic explanation. Furthermore, the vast majority of the literature assessing sex differences in cognition is based on studies of humans and a few other mammals. In order to elucidate the underpinnings of cognitive variation and the potential for fitness consequences, we must investigate sex differences in cognition in non-mammalian systems as well. Here, we assess the performance of male and female food-caching birds on a spatial learning and memory task and a reversal spatial task to address whether there are sex differences in mean cognitive performance or in the range of variation in performance. For both tasks, male and female mean performance was similar across four years of testing; however, males did exhibit a wider range of variation in performance on the reversal spatial task compared with females. The implications for mate choice and sexual selection of cognitive abilities are discussed and future directions are suggested to aid in the understanding of sex-related cognitive variation. 

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5. Mitonuclear Mismatch is Associated With Increased Male Frequency, Outcrossing, and Male Sperm Size in Experimentally-Evolved C. elegans

   https://doi.org/10.3389/fgene.2022.742272  

   Bever, Brent W. ; Dietz, Zachary P. ; Sullins, Jennifer A. ; Montoya, Ariana M. ; Bergthorsson, Ulfar ; Katju, Vaishali ; Estes, Suzanne ( March 2022 , Frontiers in Genetics)

   We provide a partial test of the mitonuclear sex hypothesis with the first controlled study of how male frequencies and rates of outcrossing evolve in response to mitonuclear mismatch by allowing replicate lineages of C. elegans nematodes containing either mitochondrial or nuclear mutations of electron transport chain (ETC) genes to evolve under three sexual systems: facultatively outcrossing (wildtype), obligately selfing, and obligately outcrossing. Among facultatively outcrossing lines, we found evolution of increased male frequency in at least one replicate line of all four ETC mutant backgrounds tested—nuclear isp-1 , mitochondrial cox-1 and ctb-1 , and an isp-1 IV; ctb-1M mitonuclear double mutant—and confirmed for a single line set ( cox-1 ) that increased male frequency also resulted in successful outcrossing. We previously found the same result for lines evolved from another nuclear ETC mutant, gas-1 . For several lines in the current experiment, however, male frequency declined to wildtype levels (near 0%) in later generations. Male frequency did not change in lines evolved from a wildtype control strain. Additional phenotypic assays of lines evolved from the mitochondrial cox-1 mutant indicated that evolution of high male frequency was accompanied by evolution of increased male sperm size and mating success with tester females, but that it did not translate into increased mating success with coevolved hermaphrodites. Rather, hermaphrodites’ self-crossed reproductive fitness increased, consistent with sexually antagonistic coevolution. In accordance with evolutionary theory, males and sexual outcrossing may be most beneficial to populations evolving from a state of low ancestral fitness ( gas-1 , as previously reported) and less beneficial or deleterious to those evolving from a state of higher ancestral fitness ( cox-1 ). In support of this idea, the obligately outcrossing fog-2 V; cox-1 M lines exhibited no fitness evolution compared to their ancestor, while facultatively outcrossing lines showed slight upward evolution of fitness, and all but one of the obligately selfing xol-1 X; cox-1 M lines evolved substantially increased fitness—even beyond wildtype levels. This work provides a foundation to directly test the effect of reproductive mode on the evolutionary dynamics of mitonuclear genomes, as well as whether compensatory mutations (nuclear or mitochondrial) can rescue populations from mitochondrial dysfunction. 

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