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1. Genomic islands of speciation harbor genes underlying coloration differences in a pair of Neotropical seedeaters

   https://doi.org/10.1093/evolut/qpae051  

   Nguyen, Tram_N; Repenning, Márcio; Suertegaray_Fontana, Carla; Campagna, Leonardo; Ramirez, ed., Santiago; Connallon, ed., Tim (March 2024, Evolution)

   Abstract Incomplete speciation can be leveraged to associate phenotypes with genotypes, thus providing insights into the traits relevant to the reproductive isolation of diverging taxa. We investigate the genetic underpinnings of the phenotypic differences between Sporophila plumbea and Sporophila beltoni. Sporophila beltoni has only recently been described based, most notably, based on differences in bill coloration (yellow vs. black in S. plumbea). Both species are indistinguishable through mtDNA or reduced-representation genomic data, and even whole-genome sequencing revealed low genetic differentiation. Demographic reconstructions attribute this genetic homogeneity to gene flow, despite divergence in the order of millions of generations. We found a narrow hybrid zone in southern Brazil where genetically, yet not phenotypically, admixed individuals appear to be prevalent. Despite the overall low genetic differentiation, we identified 3 narrow peaks along the genome with highly differentiated SNPs. These regions harbor 6 genes, one of which is involved in pigmentation (EDN3) and is a candidate for controlling bill color. Within the outlier peaks, we found signatures of resistance to gene flow, as expected for islands of speciation. Our study shows how genes related to coloration traits are likely involved in generating prezygotic isolation and establishing species boundaries early in speciation. 

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2. Synthesis and Scope of the Role of Postmating Prezygotic Isolation in Speciation

   https://doi.org/10.1101/cshperspect.a041429  

   Garlovsky, Martin D.; Whittington, Emma; Albrecht, Tomas; Arenas-Castro, Henry; Castillo, Dean M.; Keais, Graeme L.; Larson, Erica L.; Moyle, Leonie C.; Plakke, Melissa; Reifová, Radka; et al (December 2023, Cold Spring Harbor Perspectives in Biology)

   How barriers to gene flow arise and are maintained are key questions in evolutionary biology. Speciation research has mainly focussed on barriers that occur either before mating or after zygote formation. In comparison, postmating prezygotic (PMPZ) isolation – a barrier that acts after gamete release but before zygote formation – is less frequently investigated but may hold a unique role in generating biodiversity. Here we discuss the distinctive features of PMPZ isolation, including the primary drivers and molecular mechanisms underpinning PMPZ isolation. We then present the first comprehensive survey of PMPZ isolation research, revealing that it is a widespread form of prezygotic isolation across eukaryotes. The survey also exposes obstacles in studying PMPZ isolation, in part attributable to the challenges involved in directly measuring PMPZ isolation and uncovering its causal mechanisms. Finally, we identify outstanding knowledge gaps and provide recommendations for improving future research on PMPZ isolation. This will allow us to better understand the nature of this often-neglected reproductive barrier and its contribution to speciation. 

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3. Sexual selection promotes reproductive isolation in barn swallows

   https://doi.org/10.1126/science.adj8766  

   Schield, Drew R; Carter, Javan K; Scordato, Elizabeth_S C; Levin, Iris I; Wilkins, Matthew R; Mueller, Sarah A; Gompert, Zachariah; Nosil, Patrik; Wolf, Jochen_B W; Safran, Rebecca J (December 2024, Science)

   Despite the well-known effects of sexual selection on phenotypes, links between this evolutionary process and reproductive isolation, genomic divergence, and speciation have been difficult to establish. We unravel the genetic basis of sexually selected plumage traits to investigate their effects on reproductive isolation in barn swallows. The genetic architecture of sexual traits is characterized by 12 loci on two autosomes and the Z chromosome. Sexual trait loci exhibit signatures of divergent selection in geographic isolation and barriers to gene flow in secondary contact. Linkage disequilibrium between these genes has been maintained by selection in hybrid zones beyond what would be expected under admixture alone. Our findings reveal that selection on coupled sexual trait loci promotes reproductive isolation, providing key empirical evidence for the role of sexual selection in speciation. 

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4. Genomic Adaptations to Salinity Resist Gene Flow in the Evolution of Floridian Watersnakes

   https://doi.org/10.1093/molbev/msaa266  

   Rautsaw, Rhett M; Schramer, Tristan D; Acuña, Rachel; Arick, Lindsay N; DiMeo, Mark; Mercier, Kathryn P; Schrum, Michael; Mason, Andrew J; Margres, Mark J; Strickland, Jason L; et al (October 2020, Molecular Biology and Evolution)

   null (Ed.)

   Abstract The migration-selection balance often governs the evolution of lineages, and speciation with gene flow is now considered common across the tree of life. Ecological speciation is a process that can facilitate divergence despite gene flow due to strong selective pressures caused by ecological differences; however, the exact traits under selection are often unknown. The transition from freshwater to saltwater habitats provides strong selection targeting traits with osmoregulatory function. Several lineages of North American watersnakes (Nerodia spp.) are known to occur in saltwater habitat and represent a useful system for studying speciation by providing an opportunity to investigate gene flow and evaluate how species boundaries are maintained or degraded. We use double digest restriction-site associated DNA sequencing to characterize the migration-selection balance and test for evidence of ecological divergence within the Nerodia fasciata-clarkii complex in Florida. We find evidence of high intraspecific gene flow with a pattern of isolation-by-distance underlying subspecific lineages. However, we identify genetic structure indicative of reduced gene flow between inland and coastal lineages suggesting divergence due to isolation-by-environment. This pattern is consistent with observed environmental differences where the amount of admixture decreases with increased salinity. Furthermore, we identify significantly enriched terms related to osmoregulatory function among a set of candidate loci, including several genes that have been previously implicated in adaptation to salinity stress. Collectively, our results demonstrate that ecological differences, likely driven by salinity, cause strong divergent selection which promotes divergence in the N. fasciata-clarkii complex despite significant gene flow. 

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5. Conflict over fertilization underlies the transient evolution of reinforcement

   https://doi.org/10.1371/journal.pbio.3001814  

   Rushworth, Catherine A.; Wardlaw, Alison M.; Ross-Ibarra, Jeffrey; Brandvain, Yaniv (October 2022, PLOS Biology)

   Jennions, Michael D. (Ed.)

   When two species meet in secondary contact, the production of low fitness hybrids may be prevented by the adaptive evolution of increased prezygotic isolation, a process known as reinforcement. Theoretical challenges to the evolution of reinforcement are generally cast as a coordination problem, i.e., “how can statistical associations between traits and preferences be maintained in the face of recombination?” However, the evolution of reinforcement also poses a potential conflict between mates. For example, the opportunity costs to hybridization may differ between the sexes or species. This is particularly likely for reinforcement based on postmating prezygotic (PMPZ) incompatibilities, as the ability to fertilize both conspecific and heterospecific eggs is beneficial to male gametes, but heterospecific mating may incur a cost for female gametes. We develop a population genetic model of interspecific conflict over reinforcement inspired by “gametophytic factors”, which act as PMPZ barriers among Zea mays subspecies. We demonstrate that this conflict results in the transient evolution of reinforcement—after females adaptively evolve to reject gametes lacking a signal common in conspecific gametes, this gamete signal adaptively introgresses into the other population. Ultimately, the male gamete signal fixes in both species, and isolation returns to pre-reinforcement levels. We interpret geographic patterns of isolation among Z . mays subspecies considering these findings and suggest when and how this conflict can be resolved. Our results suggest that sexual conflict over fertilization may pose an understudied obstacle to the evolution of reinforcement. 

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