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1. Using external morphology as a proxy for stomach size in Hemigrapsus sanguineus

   https://doi.org/10.1002/ece3.11344  

   Fletcher, Laura_S; Blakeslee, April_M_H; Crane, Laura_C; Repetto, Michele_F; Toscano, Benjamin_J; Griffen, Blaine_D (May 2024, Ecology and Evolution)

   Abstract Stomach morphology can provide insights into an organism's diet. Gut size or length is typically inversely related to diet quality in most taxa, and has been used to assess diet quality in a variety of systems. However, it requires animal sacrifice and time‐consuming dissections. Measures of external morphology associated with diet may be a simpler, more cost‐effective solution. At the species level, external measures of the progastric region of the carapace in brachyuran crabs can predict stomach size and diet quality, with some suggestion that this approach may also work to examine individual diet preferences and specialization at the individual level; if so, the size of the progastric region could be used to predict trends in diet quality and consumption for individuals, which would streamline diet studies in crabs. Here, we tested whether external progastric region size predicts internal stomach size across latitude and time of year for individuals of the invasive Asian shore crabHemigrapsus sanguineus. We found that the width of the progastric region increased at a faster rate with body size than stomach width. In addition, the width of the progastric region followed different trends across sites and over time compared to stomach width. Our results therefore suggest that the progastric region may not be used as a proxy for stomach size variation across individuals. 

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2. Limited genomic signatures of population collapse in the critically endangered black abalone ( Haliotis cracherodii )

   https://doi.org/10.1111/mec.17362  

   Wooldridge, Brock; Orland, Chloé; Enbody, Erik; Escalona, Merly; Mirchandani, Cade; Corbett‐Detig, Russell; Kapp, Joshua D.; Fletcher, Nathaniel; Cox‐Ammann, Karah; Raimondi, Peter; et al (April 2024, Molecular Ecology)

   Abstract The black abalone,Haliotis cracherodii, is a large, long‐lived marine mollusc that inhabits rocky intertidal habitats along the coast of California and Mexico. In 1985, populations were impacted by a bacterial disease known as withering syndrome (WS) that wiped out >90% of individuals, leading to the closure of all U.S. black abalone fisheries since 1993. Current conservation strategies include restoring diminished populations by translocating healthy individuals. However, population collapse on this scale may have dramatically lowered genetic diversity and strengthened geographic differentiation, making translocation‐based recovery contentious. Additionally, the current prevalence of WS remains unknown. To address these uncertainties, we sequenced and analysed the genomes of 133 black abalone individuals from across their present range. We observed no spatial genetic structure among black abalone, with the exception of a single chromosomal inversion that increases in frequency with latitude. Outside the inversion, genetic differentiation between sites is minimal and does not scale with either geographic distance or environmental dissimilarity. Genetic diversity appears uniformly high across the range. Demographic inference does indicate a severe population bottleneck beginning just 15 generations in the past, but this decline is short lived, with present‐day size far exceeding the pre‐bottleneck status quo. Finally, we find the bacterial agent of WS is equally present across the sampled range, but only in 10% of individuals. The lack of population genetic structure, uniform diversity and prevalence of WS bacteria indicates that translocation could be a valid and low‐risk means of population restoration for black abalone species' recovery. 

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3. Genomic characterization of Pseudomonas syringae pv. syringae from Callery pear and the efficiency of associated phages in disease protection

   https://doi.org/10.1128/spectrum.02833-23  

   Holtappels, D; Abelson, S A; Nouth, S C; Rickus, G_E J; Amare, S Z; Giller, J P; Jian, D Z; Koskella, B (March 2024, Microbiology Spectrum)

   Zeng, Quan (Ed.)

   ABSTRACT ThePseudomonas syringaespecies complex is a heterogeneous group of plant pathogenic bacteria associated with a wide distribution of plant species. Advances in genomics are revealing the complex evolutionary history of this species complex and the wide array of genetic adaptations underpinning their diverse lifestyles. Here, we genomically characterize twoP. syringaeisolates collected from diseased Callery pears (Pyrus calleryana) in Berkeley, California in 2019 and 2022. We also isolated a lytic bacteriophage, which we characterized and evaluated for biocontrol efficiency. Using a multilocus sequence analysis and core genome alignment, we classified theP. syringaeisolates as members of phylogroup 2, related to other strains previously isolated fromPyrusandPrunus. An analysis of effector proteins demonstrated an evolutionary conservation of effectoromes across isolates classified in PG2 and yet uncovered unique effector profiles for each, including the two newly identified isolates. Whole-genome sequencing of the associated phage uncovered a novel phage genus related toPseudomonas syringaepv.actinidiaephage PHB09 and theFlaumdravirusgenus. Finally, usingin plantainfection assays, we demonstrate that the phage was equally useful in symptom mitigation of immature pear fruit regardless of the Pss strain tested. Overall, this study demonstrates the diversity ofP. syringaeand their viruses associated with ornamental pear trees, posing spill-over risks to commercial pear trees and the possibility of using phages as biocontrol agents to reduce the impact of disease.IMPORTANCEGlobal change exacerbates the spread and impact of pathogens, especially in agricultural settings. There is a clear need to better monitor the spread and diversity of plant pathogens, including in potential spillover hosts, and for the development of novel and sustainable control strategies. In this study, we characterize the first described strains ofPseudomonas syringaepv.syringaeisolated from Callery pear in Berkeley, California from diseased tissues in an urban environment. We show that these strains have divergent virulence profiles from previously described strains and that they can cause disease in commercial pears. Additionally, we describe a novel bacteriophage that is associated with these strains and explore its potential to act as a biocontrol agent. Together, the data presented here demonstrate that ornamental pear trees harbor novelP. syringaepv.syringaeisolates that potentially pose a risk to local fruit production, or vice versa—but also provide us with novel associated phages, effective in disease mitigation. 

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4. A socially polymorphic Formica ant species exhibits a novel distribution of social supergene genotypes

   https://doi.org/10.1111/jeb.14038  

   Pierce, Daniel; Sun, Penglin; Purcell, Jessica; Brelsford, Alan (June 2022, Journal of Evolutionary Biology)

   Abstract Most supergenes discovered so far are young, occurring in one species or a few closely related species. An ancient supergene in the ant genusFormicapresents an unusual opportunity to compare supergene‐associated phenotypes and the factors that influence the persistence of polymorphism in different species. We investigate the genetic architecture of social organization inFormica francoeuri, an ant species native to low‐ and mid‐elevation semiarid regions of southern California, and describe an efficient technique for estimating mode of social organization using population genomic data. Using this technique, we show thatF. francoeuriexhibits polymorphism in colony social organization and that the phenotypic polymorphism is strongly associated with genotypes within theFormicasocial supergene region. The distribution of supergene haplotypes inF. francoeuridiffers from that of related speciesFormica selysiin that colonies with multiple queens contain almost exclusively workers that are heterozygous for alternative supergene haplotypes. Moreover, heterozygous workers exhibit allele‐specific expression of the polygyne‐associated haplotype at the candidate geneKnockout,which is thought to influence social organization. We also report geographic population structure and variation in worker size across a large fraction of the species range. Our results suggest that, although theFormicasupergene is conserved within the genus, the mechanisms that maintain the supergene and its associated polymorphisms differ among species. 

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5. Anatomy of a mega‐radiation: Biogeography and niche evolution in Astragalus

   https://doi.org/10.1002/ajb2.16299  

   Folk, Ryan A; Charboneau, Joseph_L M; Belitz, Michael; Singh, Tajinder; Kates, Heather R; Soltis, Douglas E; Soltis, Pamela S; Guralnick, Robert P; Siniscalchi, Carolina M (March 2024, American Journal of Botany)

   Abstract PremiseAstragalus(Fabaceae), with more than 3000 species, represents a globally successful radiation of morphologically highly similar species predominant across the northern hemisphere. It has attracted attention from systematists and biogeographers, who have asked what factors might be behind the extraordinary diversity of this important arid‐adapted clade and what sets it apart from close relatives with far less species richness. MethodsHere, for the first time using extensive phylogenetic sampling, we asked whether (1)Astragalusis uniquely characterized by bursts of radiation or whether diversification instead is uniform and no different from closely related taxa. Then we tested whether the species diversity ofAstragalusis attributable specifically to its predilection for (2) cold and arid habitats, (3) particular soils, or to (4) chromosome evolution. Finally, we tested (5) whetherAstragalusoriginated in central Asia as proposed and (6) whether niche evolutionary shifts were subsequently associated with the colonization of other continents. ResultsOur results point to the importance of heterogeneity in the diversification ofAstragalus, with upshifts associated with the earliest divergences but not strongly tied to any abiotic factor or biogeographic regionalization tested here. The only potential correlate with diversification we identified was chromosome number. Biogeographic shifts have a strong association with the abiotic environment and highlight the importance of central Asia as a biogeographic gateway. ConclusionsOur investigation shows the importance of phylogenetic and evolutionary studies of logistically challenging “mega‐radiations.” Our findings reject any simple key innovation behind high diversity and underline the often nuanced, multifactorial processes leading to species‐rich clades. 

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