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1. The Evolution of Locally Adaptive Chromosome Inversions in Mimulus guttatus

   https://doi.org/10.1111/mec.17708  

   Kollar, Leslie M; Stanley, Lauren E; Kenchanmane_Raju, Sunil K; Lowry, David B; Niederhuth, Chad E (March 2025, Molecular Ecology)

   ABSTRACT Chromosomal inversion polymorphisms are ubiquitous across the diversity of diploid organisms and play a significant role in the evolution of adaptations in those species. Inversions are thought to operate as supergenes by trapping adaptive alleles at multiple linked loci through the suppression of recombination. While there is now considerable support for the supergene mechanism of inversion evolution, the extent to which inversions trap pre‐existing adaptive genetic variation versus accumulate new adaptive variants over time remains unclear. In this study, we report new insights into the evolution of a locally adaptive chromosomal inversion polymorphism (inv_chr8A), which contributes to the adaptive divergence between coastal perennial and inland annual ecotypes of the yellow monkeyflower,Mimulus guttatus. This research was enabled by the sequencing, assembly and annotation of new annual and perennial genomes ofM. guttatususing Oxford Nanopore long‐read sequencing technology. In addition to the adaptive inv_chr8A inversion, we identified three other large inversion polymorphisms, including a previously unknown large inversion (inv_chr8B) nested within inv_chr8A. Through population genomic analyses, we determined that the nested inv_chr8B inversion is significantly older than the larger chromosomal inversion in which it resides. We also evaluated the potential role of key candidate genes underlying the phenotypic effects of inv_chr8A. These genes are involved in gibberellin biosynthesis and anthocyanin regulation. Although little evidence was found to suggest that inversion breakpoint mutations drive adaptive phenotypic effects, our findings do support the supergene mechanism of adaptation and suggest it may sometimes involve nested inversions that evolve at different times. 

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2. Sensitivity to Photoperiod Is a Complex Trait in Camelina sativa

   https://doi.org/10.1002/pld3.70071  

   Ramirez‐Corona, Bryan A; Seagren, Erin; Sherman, Carissa; Imaizumi, Takato; Queitsch, Christine; Cuperus, Josh (April 2025, Plant Direct)

   ABSTRACT Day neutrality, or insensitivity to photoperiod (day length), is an important domestication trait in many crop species. Although the oilseed cropC. sativahas been cultivated since the Neolithic era, day‐neutral accessions have yet to be described. We sought to leverage genetic diversity in existing germplasms to identifyC. sativaaccessions with low photoperiod sensitivity for future engineering of this trait. To do so, we quantified variation in hypocotyl length across 161C. sativaaccessions of 4‐day‐old seedlings grown in long‐day and short‐day conditions as a high‐throughput approximation of variation in the photoperiod response. Soil‐grown adult plants from selected accessions also showed variation in the response to day length in several traits; however, the responses in seedling and adult traits were not correlated, suggesting complex mechanistic underpinnings. Although RNA‐seq experiments of the reference accession Licalla identified several differentially regulatedArabidopsissyntelogs involved in photoperiod response and development, includingCOL2,FT,LHY, andWOX4,expression of these genes in the accessions did not correlate with differences in their photoperiod sensitivity. Taken together, we show that all tested accessions show some degree of photoperiod response and that this trait is likely complex, involving several and separable seedling and adult traits. 

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3. Herbarium Specimens Provide Evidence for the Early Introduction of Erysiphe quercicola Into the United States and Document New Hosts

   https://doi.org/10.1111/efp.70072  

   Bradshaw, Michael; Paul, Andrew; Rennie, Elizabeth; Gilbert, Gregory S; Robeson, Senna; Donnelly, Ryan; Crouch, Uma; Mitchell, James; Braun, Uwe (April 2026, Forest Pathology)

   ABSTRACT The powdery mildew fungusErysiphe quercicola(Erysiphaceae) has a complex taxonomic history that has long complicated assessments of its geographic distribution and host associations. Although knowledge of the global host range of this species has expanded substantially over the past two decades, sequencing‐confirmed records from North America remain scarce, and despite its recognition as an introduced pathogen, the timing of introduction and the geographic extent and host range ofE. quercicolain the United States are poorly understood. In this study, herbarium specimens ofE. quercicolafrom North America, spanning both historical and contemporary collections, were examined using molecular phylogenetic approaches. Specimens collected from multipleQuercusspecies across several regions of the United States, as well as from related hosts within theFagaceae, were evaluated. Sequence data confirm the presence ofE. quercicolain North America onQuercusspecies based on herbarium specimens collected as early as 1944, as well as on mango (Mangifera indica;Anacardiaceae) in Florida from material collected in 1935. These records raise the possibility of historical introduction pathways associated with cultivated hosts, potentially from the horticulturally important mango tree (M. indica); however, additional multilocus phylogenetic analyses and host range inoculation experiments will be required to determine whether powdery mildew populations infecting mango andQuercusin North America represent the same lineage. Additional sequencing‐confirmed records document the species on multiple native oak species representing different sections ofQuercusincludingQ. bicolor,Q. gambelii,Q. garryana,Q. geminata,Q. kelloggii,Quercus × jolonensisandQ. macrocarpaas well as onNotholithocarpus densiflorus. Together, these findings clarify the long‐term presence ofE. quercicolain the United States, expand knowledge of its North American host range, and demonstrate the value of herbaria for reconstructing the invasion history of forest pathogens. 

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4. Trans‐Specific Polymorphisms Between Cryptic Daphnia Species Affect Fitness and Behavior

   https://doi.org/10.1111/mec.17632  

   Murray, Connor S; Karram, Madison; Bass, David J; Doceti, Madison; Becker, Dörthe; Nunez, Joaquin_C B; Ratan, Aakrosh; Bergland, Alan O (February 2025, Molecular Ecology)

   ABSTRACT Shared polymorphisms, loci with identical alleles across species, are of unique interest in evolutionary biology as they may represent cases of selection maintaining ancient genetic variation post‐speciation, or contemporary selection promoting convergent evolution. In this study, we investigate the abundance of shared polymorphism between two members of theDaphnia pulexspecies complex. We test whether the presence of shared mutations is consistent with the action of balancing selection or alternative hypotheses such as hybridization, incomplete lineage sorting or convergent evolution. We analyzed over 2,000 genomes from six taxa in theD. pulexspecies group and examined the prevalence and distribution of shared alleles between the focal species pair, North American and EuropeanD. pulex. We show that North American and EuropeanD. pulexdiverged over 10 million years ago, yet retained tens of thousands of shared polymorphisms. We suggest that the number of shared polymorphisms between North American and EuropeanD. pulexcannot be fully explained by hybridization or incomplete lineage sorting alone. We show that most shared polymorphisms could be the product of convergent evolution, that a limited number appear to be old trans‐specific polymorphisms, and that balancing selection is affecting convergent and ancient mutations alike. Finally, we provide evidence that a blue wavelength opsin gene with trans‐specific polymorphisms has functional effects on behavior and fitness in the wild. 

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5. The Genome of Lolium multiflorum Reveals the Genetic Architecture of Paraquat Resistance

   https://doi.org/10.1111/mec.17775  

   Brunharo, Caio A; Short, Aidan W; Bobadilla, Lucas K; Streisfeld, Matthew A (May 2025, Molecular Ecology)

   ABSTRACT Herbicide resistance in agricultural weeds has become one of the greatest challenges for sustainable crop production. The repeated evolution of herbicide resistance provides an excellent opportunity to study the genetic and physiological basis of the resistance phenotype and the evolutionary responses to human‐mediated selection pressures.Lolium multiflorumis a ubiquitous weed that has evolved herbicide resistance repeatedly around the world in various cropping systems. We assembled and annotated a chromosome‐scale genome forL. multiflorumand elucidated the genetic architecture of paraquat resistance by performing quantitative trait locus analysis, genome‐wide association studies, genetic divergence analysis and transcriptome analyses from paraquat‐resistant and ‐susceptibleL. multiflorumplants. We identified two regions on chromosome 5 that were associated with paraquat resistance. These regions both showed evidence for positive selection among the resistant populations we sampled, but the effects of this selection on the genome differed, implying a complex evolutionary history. In addition, these regions contained candidate genes that encoded cellular transport functions, including a novel multidrug and toxin extrusion (MATE) protein and a cation transporter previously shown to interact with polyamines. Given thatL. multiflorumis a weed and a cultivated crop species, the genomic resources generated will prove valuable to a wide spectrum of the plant science community. Our work contributes to a growing body of knowledge on the underlying evolutionary and ecological dynamics of rapid adaptation to strong anthropogenic selection pressure that could help initiate efforts to improve weed management practices in the long term for a more sustainable agriculture. 

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