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1. Skin Defenses and Host-Environment Microbiome Interactions in Spotted Salamanders

   https://doi.org/10.1093/icb/icaf098  

   Urrutia-Carter, Julian; Madison, Joseph_D; Frederick, John_Adam; Muletz Wolz, Carly_R (June 2025, Integrative And Comparative Biology)

   Synopsis Emerging infectious diseases have been of particular interest as a major threat to global biodiversity. In amphibians, two fungal sister taxa, Batrachochytrium dendrobatidis (Bd) and Batrachochytrium salamandrivorans (Bsal), along with the viral pathogen ranavirus, have affected global populations. Factors such as host traits, abiotic and biotic environmental conditions, and pathogen prevalence contribute to species-specific disease susceptibility. The eastern United States is home to the Appalachian Mountain system, known as a “hotspot” for salamander biodiversity. Bd and ranavirus are present throughout the Appalachians, and a Bsal emergence could be imminent. Throughout the Appalachians are the spotted salamanders, Ambystoma maculatum, a mostly terrestrial salamander that participates in mass breeding migration to ponds and vernal pools in the late spring. Previous experimental studies have shown that spotted salamanders appear to be resistant to Bd and Bsal infection, but the mechanisms behind Bd defense remain unknown. Spotted salamanders emerging from their overwintering habitats were hypothesized to have potent anti-Bd function expressed in their mucus and in their skin microbiomes, as a countermeasure to annual Bd re-emergence. We used non-invasive sampling at two pools during the spotted salamander annual breeding event to (I) determine pathogen prevalence, (II) quantify the antifungal potential of salamander skin mucus, and (III) characterize the diversity and composition of the salamander skin microbiome and contrast it to that of the corresponding environmental microbiome. We did not detect any Bd, Bsal, or ranavirus in the salamanders. The salamander mucus did not inhibit Bd growth in vitro, and anti-Bd bacteria were at low relative abundance in the microbiome. The salamander microbiome sourced a proportion of bacteria from the environment and appeared to select rare taxa from their respective pools; however, their functional relevance in pathogen defense is unclear. Our results suggest that the spotted salamander mucosal secretions and skin microbiome are not the mechanisms of defense against Bd. Rather, elements not captured by the mucosome (e.g., immune cell gene expression) may confer resistance. This study contributes to the understanding of salamander intraspecies variation in disease susceptibility. 

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2. An assemblage-level comparison of genetic diversity and population genetic structure between island and mainland ant populations

   https://doi.org/10.1093/evolut/qpae103  

   Naughton, Ida; Tsutsui, Neil_D; Ward, Philip_S; Holway, David_A; Huang, ed., Jen-Pan; Wolf, ed., Jason (July 2024, Evolution)

   Abstract Island biotas provide unparalleled opportunities to examine evolutionary processes. Founder effects and bottlenecks, e.g., typically decrease genetic diversity in island populations, while selection for reduced dispersal can increase population structure. Given that support for these generalities mostly comes from single-species analyses, assemblage-level comparisons are needed to clarify how (i) colonization affects the gene pools of interacting insular organisms, and (ii) patterns of genetic differentiation vary within assemblages of organisms. Here, we use genome-wide sequence data from ultraconserved elements (UCEs) to compare the genetic diversity and population structure of mainland and island populations of nine ant species in coastal southern California. As expected, island populations (from Santa Cruz Island) had lower expected heterozygosity and Watterson’s theta compared to mainland populations (from the Lompoc Valley). Island populations, however, exhibited smaller genetic distances among samples, indicating less population subdivision. Within the focal assemblage, pairwise Fst values revealed pronounced interspecific variation in mainland-island differentiation, which increases with gyne body size. Our results reveal population differences across an assemblage of interacting species and illuminate general patterns of insularization in ants. Compared to single-species studies, our analysis of nine conspecific population pairs from the same island-mainland system offers a powerful approach to studying fundamental evolutionary processes. 

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3. Hydrologic Connectivity and Flow Generation from California Vernal Pool, Swale, and Headwater Stream Complexes to Downstream Waters

   https://doi.org/10.1007/s13157-023-01678-3  

   Stepchinski, Leanne M.; Rains, Mark C.; Lee, Lyndon C.; Lis, Richard A.; Nutter, Wade L.; Rains, Kai C.; Stewart, Scott R. (April 2023, Wetlands)

   Abstract Many headwater wetlands are integrated into flowpath networks and can serve as sources of streamflow for downgradient waters. We demonstrate this with five years of data in vernal pool, swale, and headwater stream complexes in the Central Valley, California. Long-term United States Geological Survey data suggest that the mean flow duration from the smallest watersheds in this region, including those with vernal pool, swale, and headwater stream complexes, is ~ 85 days per year. Our data concur, indicating that the annual days of flow per year from our vernal pool, swale, and headwater stream complexes ranges from ~ 20–200, but is ~ 85 when annual precipitation is 100% of normal. Peak stages are evident first in vernal pools which then propagate sequentially downstream through swales, headwater streams, and to the Sacramento River at celerities of ~ 1-1.5 m/s, consistent with expected flood wave velocities. Geospatial analyses show that these vernal pool, swale, and headwater stream features cover > 4% of the study area. Our results suggest these systems can be significant sources of streamflow, and therefore play an important role in maintaining the chemical, physical, and biological integrity of downstream waters, which has important implications for the definition of waters of the United States subject to regulation under the Clean Water Act. 

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4. The effects of climate and demographic history in shaping genomic variation across populations of the Desert Horned Lizard ( Phrynosoma platyrhinos )

   https://doi.org/10.1111/mec.16070  

   Farleigh, Keaka; Vladimirova, Sarah A.; Blair, Christopher; Bracken, Jason T.; Koochekian, Nazila; Schield, Drew R.; Card, Daren C.; Finger, Nicholas; Henault, Jonathan; Leaché, Adam D.; et al (July 2021, Molecular Ecology)

   Abstract Species often experience spatial environmental heterogeneity across their range, and populations may exhibit signatures of adaptation to local environmental characteristics. Other population genetic processes, such as migration and genetic drift, can impede the effects of local adaptation. Genetic drift in particular can have a pronounced effect on population genetic structure during large‐scale geographic expansions, where a series of founder effects leads to decreases in genetic variation in the direction of the expansion. Here, we explore the genetic diversity of a desert lizard that occupies a wide range of environmental conditions and that has experienced post‐glacial expansion northwards along two colonization routes. Based on our analyses of a large SNP data set, we find evidence that both climate and demographic history have shaped the genetic structure of populations. Pronounced genetic differentiation was evident between populations occupying cold versus hot deserts, and we detected numerous loci with significant associations with climate. The genetic signal of founder effects, however, is still present in the genomes of the recently expanded populations, which comprise subsets of genetic variation found in the southern populations. 

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5. Rapid genetic adaptation to a novel ecosystem despite a large founder event

   https://doi.org/10.1111/mec.17121  

   Sparks, Morgan M.; Schraidt, Claire E.; Yin, Xiaoshen; Seeb, Lisa W.; Christie, Mark R. (September 2023, Molecular Ecology)

   Abstract Introduced and invasive species make excellent natural experiments for investigating rapid evolution. Here, we describe the effects of genetic drift and rapid genetic adaptation in pink salmon (Oncorhynchus gorbuscha) that were accidentally introduced to the Great Lakes via a single introduction event 31 generations ago. Using whole‐genome resequencing for 134 fish spanning five sample groups across the native and introduced range, we estimate that the source population's effective population size was 146,886 at the time of introduction, whereas the founding population's effective population size was just 72—a 2040‐fold decrease. As expected with a severe founder event, we show reductions in genome‐wide measures of genetic diversity, specifically a 37.7% reduction in the number of SNPs and an 8.2% reduction in observed heterozygosity. Despite this decline in genetic diversity, we provide evidence for putative selection at 47 loci across multiple chromosomes in the introduced populations, including missense variants in genes associated with circadian rhythm, immunological response and maturation, which match expected or known phenotypic changes in the Great Lakes. For one of these genes, we use a species‐specific agent‐based model to rule out genetic drift and conclude our results support a strong response to selection occurring in a period gene (per2) that plays a predominant role in determining an organism's daily clock, matching large day length differences experienced by introduced salmon during important phenological periods. Together, these results inform how populations might evolve rapidly to new environments, even with a small pool of standing genetic variation. 

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