Elevated Temperatures and Drought Favor Invasive Grasses over Native Species

Projected global-scale anthropogenic alterations to native ecosystems include intense and prolonged droughts, increases in atmospheric temperatures, and invasion by non-native species. Understanding how native and non-native grasses tolerate drought and elevated temperatures is essential for projecting native species competitive success. We assessed the effects of elevated temperature and drought on the performance of different growth stages (seed, seedling, and mature plant) of invasive grasses, relative to native species. Further, we determined responses of warm- and cool-season functional groups. The invasive warm�season cespitose grass, Bothriochloa ischaemum) was paired with functionally similar native Schizachyrium scoparium. The invasive cool-season grass, Bromus inermis, was paired with functionally similar native Pascopyrum smithii. We assessed each growth stage at ambient [warm-season (24� C); cool-season (17� C)] and elevated [warm-season (29� C); cool-season (22� C)] temperatures. Seeds were maintained under three water-availability treatments (100%; 83.5%; or 65% field capacity). Seedlings of each species were maintained under for 14 weeks at well-watered (100% field capacity) and extreme drought (65% field capacity). Mature individuals of each species were maintained for 14 weeks at well-watered (100% field capacity) and extreme drought (65% field capacity), as well as two intermediate soil moisture levels (85% and 75% field capacity). Generally, invasive species from each functional group surpassed the corresponding native in germination, biomass production, and re-growth at all climatic conditions. Because associations with AM and saprophytic fungi may aid in host water acquisition and thermal tolerance, we hypothesized these fungal groups would be relatively more abundant when plants were exposed to adverse conditions. However, few differences were apparent between soil microbial communities (i.e. total microbial biomass, or relative abundance of AM or saprophytic fungi) of either native or invasive grass species in response to adverse environmental conditions. Our results indicate invasive perennial grasses are competitively superior to functionally similar native species at all life stages, under ambient and extreme temperature and drought. As more intense and frequent droughts, coupled with elevated temperatures, are projected for grasslands worldwide, our data suggest invasive grasses will out-compete native species at potentially greater magnitudes than currently observed.Natural Resources and Ecology Managemen

Ecological and evolutionary insights into Asclepias: From soil symbionts to disturbances

Milkweeds (Asclepias) are a diverse genus of plants in the family Apocynaceae, with an estimated 130 species found in North America. Milkweed research has increased dramatically over the past two decades, due in part to its importance as the primary food source of monarch (Danaus plexippus) larvae. Reductions in milkweed availability in grasslands of central North America are contributing to D. plexippus population declines. While research assessing the biology of milkweeds has gained recent attention, the interactions of milkweeds, associated soil symbionts, and ecosystem disturbances on milkweed abundance remain unknown. I conducted two interrelated studies to assess the role of phylogenetic relatedness in plant-soil-microbial interactions of various milkweed species, and two additional studies assess the effects of disturbances on individual plants and on long-term abundances in tallgrass prairies. My data highlight the role of phylogenetic distance in influencing PSFs between sympatric congeners. Relative mycorrhizal responsiveness (rMR) of selected milkweeds varied greatly between species, ranging from 27 to 97%. While there was remarkable variation in the degree of responsiveness within the genus, twenty-four of thirty-five species produced significantly greater (p </= 0.05) biomass following inoculation with arbuscular mycorrhizal (AM) fungi, compared to soil without AM fungi. Results also suggest that, due to longer shared evolutionary histories, it is likely that closely related species share a greater overlap of mutualist partners, compared to species with earlier divergence. My research also found productivity, plant defenses, and floral resources of tallgrass prairie forbs that are important for pollinating insects can be significantly reduced by drought, although responses to drought were species-specific. However, abundances of AM fungi associated with milkweeds were relatively unaffected by drought. My research shows long-term abundances of Asclepias viridis, the most abundant milkweed species in the region, are reduced by fire, grazing, and woody cover, while less common species were relatively unaffected. Generally, milkweeds are unaffected by drought at various temporal scales. Milkweeds are an important component of native plant communities, feeding not only monarch larvae, but also providing nectar for countless pollinator species. My research is a testament to the unseen interconnectedness within ecosystems, from soil symbionts to disturbances

Role of plant relatedness in plant–soil feedback dynamics of sympatric Asclepias species

Plants affect associated biotic and abiotic edaphic factors, with reciprocal feedbacks from soil characteristics affecting plants. These two-way interactions between plants and soils are collectively known as plant–soil feedbacks (PSFs). The role of phylogenetic relatedness and evolutionary histories have recently emerged as a potential driver of PSFs, although the strength and direction of feedbacks among sympatric congeners are not well-understood. We examined plant–soil feedback responses of Asclepias syriaca, a common clonal milkweed species, with several sympatric congeners across a gradient of increasing phylogenetic distances (A. tuberosa, A. viridis, A. sullivantii, and A. verticillata, respectively). Plant–soil feedbacks were measured through productivity and colonization by arbuscular mycorrhizal (AM) fungi. Asclepias syriaca produced less biomass in soils conditioned by the most phylogenetically distant species (A. verticillata), relative to conspecific-conditioned soils. Similarly, arbuscular mycorrhizal (AM) fungal colonization of A. syriaca roots was reduced when grown in soils conditioned by A. verticillata, compared with colonization in plants grown in soil conditioned by any of the other three Asclepias species, indicating mycorrhizal associations are a potential mechanism of observed positive PSFs. This display of differences between the most phylogenetically distant, but not close or intermediate, paring(s) suggests a potential phylogenetic threshold, although other exogenous factors cannot be ruled out. Overall, these results highlight the potential role of phylogenetic distance in influencing positive PSFs through mutualists. The role of phylogenetic relatedness and evolutionary histories have recently emerged as a potential driver of plant–soil feedbacks (PSFs), although the strength and direction of feedbacks among sympatric congeners are not well-understood. Congeneric, sympatric milkweeds typically generated positive PSFs in terms of productivity and AM fungal colonization, suggesting the low likelihood of coexistence among tested pairs, with a strength of feedback increasing as the phylogenetic distance increases

Climate Affects Plant-Soil Feedback of Native and Invasive Grasses: Negative Feedbacks in Stable but Not in Variable Environments

This work is licensed under a Creative Commons Attribution 4.0 International License.The plant-soil feedback framework allows researchers to target the interaction of plants and root-associated microbes and to determine its interplay on plant-plant interactions. Plant-soil feedbacks in terrestrial ecology are well-documented, but the strength and direction of feedbacks as influenced by abiotic environmental factors, such as temperature and soil moisture, has not been fully explored. In our study, we examined plant-soil feedback responses of both cool- and warm-season native and non-native grasses to elevated temperatures (ambient and +5°C) and soil moisture (100 and 75% field capacity). In a previous experiment, grasses were grown under temperature and soil moisture conditions similar to our current study. The resultant trained soil communities served as the inoculum sources for our current experiment. We found that consistent training and experimental temperatures resulted in negative PSF, where plants produced greater biomass in soils conditioned by heterospecifics. However, the direction of PSF was reversed when training and experimental conditions were mismatched. That is, when training and experimental temperatures mirrored one another, negative PSF occurred, suggesting coexistence between the two species is likely under these conditions. However, when only training or testing temperatures were elevated, positive PSF were detected, favoring the non-native species. These alterations in plant-soil feedbacks were relatively consistent across pairings of warm- and cool-season grasses. Overall, our results indicate inconsistent year-to-year environmental conditions, such as extreme temperatures, may undermine the stabilizing forces of negative PSF and favor of non-native grasses

Identifying environmental risk factors for inflammatory bowel diseases: a Mendelian randomization study

Several studies have examined environmental factors and inflammatory bowel diseases (IBD) using traditional approaches; however, provided results are still conflicting. Our aim was to determine whether lifestyle and nutrient exposures, related to IBD in observational meta-analyses, influence IBD risk using a Mendelian randomization (MR) approach. A two-sample MR approach was applied on summary-level genome-wide association results. Genetic variants strongly associated with measures of tobacco smoking, obesity and fat distribution, physical activity, and blood levels of vitamins and fatty acids were evaluated on genetic data from international IBD consortia including a total of 25,042 IBD cases (12,194 cases of Crohn's disease (CD) and 12,366 cases of ulcerative colitis (UC)) and 34,915 controls. Our results indicated that, among lifestyle exposures, being a smoker was positively associated with CD (OR 1.13, P=0.02), but it was not associated with UC risk (OR 0.99, P=0.88). Body-mass index (BMI) and body fat percentage were positively associated with CD (OR 1.11, P=0.02, per standard deviation (SD) of 4.6 kg/m(2); and OR 1.50, P=3x10(-10), per SD of 6.6%; respectively); while for UC, BMI was inversely associated (OR 0.85, P=5x10(-5); per SD) and body fat percentage showed a OR of 1.11 (P=0.11; per SD). Additionally, among nutrient exposures, omega-3 fatty acids levels were inversely associated with CD (OR 0.67, P=2x10(-6)). Our MR results did not support a protective effect for being a smoker on UC risk; however, they are compatible with a risk effect for higher body fat proportion and a protective role for higher levels of omega-3 fatty acids on CD etiology

Genetic Population Structure Analysis in New Hampshire Reveals Eastern European Ancestry

Genetic structure due to ancestry has been well documented among many divergent human populations. However, the ability to associate ancestry with genetic substructure without using supervised clustering has not been explored in more presumably homogeneous and admixed US populations. The goal of this study was to determine if genetic structure could be detected in a United States population from a single state where the individuals have mixed European ancestry. Using Bayesian clustering with a set of 960 single nucleotide polymorphisms (SNPs) we found evidence of population stratification in 864 individuals from New Hampshire that can be used to differentiate the population into six distinct genetic subgroups. We then correlated self-reported ancestry of the individuals with the Bayesian clustering results. Finnish and Russian/Polish/ Lithuanian ancestries were most notably found to be associated with genetic substructure. The ancestral results were further explained and substantiated using New Hampshire census data from 1870 to 1930 when the largest waves of European immigrants came to the area. We also discerned distinct patterns of linkage disequilibrium (LD) between the genetic groups in the growth hormone receptor gene (GHR). To our knowledge, this is the first time such an investigation has uncovered a strong link between genetic structure and ancestry in what would otherwise be considered a homogenous US population

Lung Cancer in a U.S. Population with Low to Moderate Arsenic Exposure

BackgroundLittle is known about the carcinogenic potential of arsenic in areas with low to moderate concentrations of arsenic (&lt; 100 microg/L) in drinking water.ObjectivesWe examined associations between arsenic and lung cancer.MethodsA population-based case-control study of primary incident lung cancer was conducted in 10 counties in two U.S. states, New Hampshire and Vermont. The study included 223 lung cancer cases and 238 controls, each of whom provided toenail clippings for arsenic exposure measurement by inductively coupled-plasma mass spectrometry. We estimated odds ratios (ORs) of the association between arsenic exposure and lung cancer using unconditional logistic regression with adjustment for potential confounders (age, sex, race/ethnicity, smoking pack-years, education, body mass index, fish servings per week, and toenail selenium level).ResultsArsenic exposure was associated with small-cell and squamous-cell carcinoma of the lung [OR = 2.75; 95% confidence interval (CI), 1.00-7.57] for toenail arsenic concentration &gt; or = 0.114 microg/g, versus &lt; 0.05 microg/g. A history of lung disease (bronchitis, chronic obstructive pulmonary disease, or fibrosis) was positively associated with lung cancer (OR = 2.86; 95% CI, 1.39-5.91). We also observed an elevated risk of lung cancer among participants with a history of lung disease and toenail arsenic &gt; or = 0.05 microg/g (OR = 4.78; 95% CI, 1.87-12.2) than among individuals with low toenail arsenic and no history of lung disease.ConclusionAlthough this study supports the possibility of an increased risk of specific lung cancer histologic types at lower levels of arsenic exposure, we recommend large-scale population-based studies

Pancreatitis-diabetes-pancreatic cancer: summary of an NIDDK-NCI workshop

A workshop sponsored by the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) and the National Cancer Institute (NCI) on "Pancreatitis-Diabetes-Pancreatic Cancer" focused on the risk factors of chronic pancreatitis (CP) and diabetes mellitus (DM) on the development of pancreatic ductal adenocarcinoma (PDAC). Sessions were held on (a) an overview of the problem of PDAC; (b) CP as a risk factor of PDAC; (c) DM as a risk factor of PDAC; (d) pancreatogenic, or type 3c, DM; (e) genomic associations of CP, DM, and PDAC; (f) surveillance of high-risk populations and early detection of PDAC; and (g) effects of DM treatment on PDAC. Recent data and current understandings of the mechanisms of CP- and DM-associated factors on PDAC development were discussed, and a detailed review of the possible risks of DM treatment on the development of PDAC was provided by representatives from academia, industry, and the Food and Drug Administration. The current status of possible biomarkers of PDAC and surveillance strategies for high-risk populations were discussed, and the gaps in knowledge and opportunities for further research were elucidated. A broad spectrum of expertise of the speakers and the discussants provided an unusually productive workshop, the highlights of which are summarized in the accompanying article

Arbuscular Mycorrhizal Fungi Taxa Show Variable Patterns of Micro-Scale Dispersal in Prairie Restorations

Human land use disturbance is a major contributor to the loss of natural plant communities, and this is particularly true in areas used for agriculture, such as the Midwestern tallgrass prairies of the United States. Previous work has shown that arbuscular mycorrhizal fungi (AMF) additions can increase native plant survival and success in plant community restorations, but the dispersal of AMF in these systems is poorly understood. In this study, we examined the dispersal of AMF taxa inoculated into four tallgrass prairie restorations. At each site, we inoculated native plant species with greenhouse-cultured native AMF taxa or whole soil collected from a nearby unplowed prairie. We monitored AMF dispersal, AMF biomass, plant growth, and plant community composition, at different distances from inoculation. In two sites, we assessed the role of plant hosts in dispersal, by placing known AMF hosts in a “bridge” and “island” pattern on either side of the inoculation points. We found that AMF taxa differ in their dispersal ability, with some taxa spreading to 2-m in the first year and others remaining closer to the inoculation point. We also found evidence that AMF spread altered non-inoculated neighboring plant growth and community composition in certain sites. These results represent the most comprehensive attempt to date to evaluate AMF spread

Environmental And Occupational Exposures And Amyotrophic Lateral Sclerosis In New England

Background: Recent data provide support for the concept that potentially modifiable exposures are responsible for sporadic amyotrophic lateral sclerosis (ALS). Objective: To evaluate environmental and occupational exposures as risk factors for sporadic ALS. Methods: We performed a case control study of ALS among residents of New England, USA. The analysis compared questionnaire responses from 295 patients with a confirmed ALS diagnosis to those of 225 controls without neurodegenerative illness. Results: Self-reported job-or hobby-related exposure to one or more chemicals, such as pesticides, solvents, or heavy metals, increased the risk of ALS (adjusted OR 2.51; 95% CI 1.64-3.89). Industries with a higher toxicant exposure potential (construction, manufacturing, mechanical, military, or painting) were associated with an elevated occupational risk (adjusted OR 3.95; 95% CI 2.04-8.30). We also identified increases in the risk of ALS associated with frequent participation in water sports, particularly waterskiing (adjusted OR 3.89; 95% C11.97-8.44). Occupation and waterskiing both retained independent statistical significance in a composite model containing age, gender, and smoking status. Conclusions: Our study contributes to a growing body of literature implicating occupational-and hobby-related toxicant exposures in ALS etiology. These epidemiologic study results also provide motivation for future evaluation of water-body-related risk factors. (C) 2017 S. Karger AG, Base