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Articles 1 - 5 of 5
Full-Text Articles in Life Sciences
Accuracy Of Climate-Based Forecasts Of Pathogen Spread, Annakate M. Schatz, Andrew M. Kramer, John M. Drake
Accuracy Of Climate-Based Forecasts Of Pathogen Spread, Annakate M. Schatz, Andrew M. Kramer, John M. Drake
Integrative Biology Faculty and Staff Publications
Species distribution models (SDMs) are a tool for predicting the eventual geographical range of an emerging pathogen. Most SDMs, however, rely on an assumption of equilibrium with the environment, which an emerging pathogen, by definition, has not reached. To determine if some SDM approaches work better than others for modelling the spread of emerging, non-equilibrium pathogens, we studied time-sensitive predictive performance of SDMs for Batrachochytrium dendrobatidis, a devastating infectious fungus of amphibians, using multiple methods trained on time-incremented subsets of the available data. We split our data into timeline-based training and testing sets, and evaluated models on each set …
Genetic And Epigenetic Variation In Spartina Alterniflora Following The Deepwater Horizon Oil Spill, Marta Robertson, Aaron Schrey, Ashley Shayter, Christina J. Moss, Christina Richards
Genetic And Epigenetic Variation In Spartina Alterniflora Following The Deepwater Horizon Oil Spill, Marta Robertson, Aaron Schrey, Ashley Shayter, Christina J. Moss, Christina Richards
Integrative Biology Faculty and Staff Publications
Catastrophic events offer unique opportunities to study rapid population response to stress in natural settings. In concert with genetic variation, epigenetic mechanisms may allow populations to persist through severe environmental challenges. In 2010, the Deepwater Horizon oil spill devastated large portions of the coastline along the Gulf of Mexico. However, the foundational salt marsh grass, Spartina alterniflora, showed high resilience to this strong environmental disturbance. Following the spill, we simultaneously examined the genetic and epigenetic structure of recovering populations of S. alterniflora to oil exposure. We quantified genetic and DNA methylation variation using amplified fragment length polymorphism and methylation …
Suitability Of Laurentian Great Lakes For Invasive Species Based On Global Species Distribution Models And Local Habitat, Andrew M. Kramer, Gust Annis, Marion E. Wittmann, William L. Chadderton, Edward S. Rutherford, David M. Lodge, Lacey Mason, Dmitry Beletsky, Catherine Riseng, John M. Drake
Suitability Of Laurentian Great Lakes For Invasive Species Based On Global Species Distribution Models And Local Habitat, Andrew M. Kramer, Gust Annis, Marion E. Wittmann, William L. Chadderton, Edward S. Rutherford, David M. Lodge, Lacey Mason, Dmitry Beletsky, Catherine Riseng, John M. Drake
Integrative Biology Faculty and Staff Publications
Efficient management and prevention of species invasions requires accurate prediction of where species of concern can arrive and persist. Species distribution models provide one way to identify potentially suitable habitat by developing the relationship between climate variables and species occurrence data. However, these models when applied to freshwater invasions are complicated by two factors. The first is that the range expansions that typically occur as part of the invasion process violate standard species distribution model assumptions of data stationarity. Second, predicting potential range of freshwater aquatic species is complicated by the reliance on terrestrial climate measurements to develop occurrence relationships …
Changing Measurements Or Changing Movements? Sampling Scale And Movement Model Identifiability Across Generations Of Biologging Technology, Leah R. Johnson, Philipp H. Boersch-Supan, Richard A. Phillips, Sadie J. Ryan
Changing Measurements Or Changing Movements? Sampling Scale And Movement Model Identifiability Across Generations Of Biologging Technology, Leah R. Johnson, Philipp H. Boersch-Supan, Richard A. Phillips, Sadie J. Ryan
Integrative Biology Faculty and Staff Publications
Animal movement patterns contribute to our understanding of variation in breeding success and survival of individuals, and the implications for population dynamics. Over time, sensor technology for measuring movement patterns has improved. Although older technologies may be rendered obsolete, the existing data are still valuable, especially if new and old data can be compared to test whether a behavior has changed over time. We used simulated data to assess the ability to quantify and correctly identify patterns of seabird flight lengths under observational regimes used in successive generations of wet/dry logging technology. Care must be taken when comparing data collected …
Microbe Biogeography Tracks Water Masses In A Dynamic Oceanic Frontal System, Anni Djurhuus, Philipp H. Boersch-Supan, Svein-Ole Mikalse, Alex D. Rogers
Microbe Biogeography Tracks Water Masses In A Dynamic Oceanic Frontal System, Anni Djurhuus, Philipp H. Boersch-Supan, Svein-Ole Mikalse, Alex D. Rogers
Integrative Biology Faculty and Staff Publications
Dispersal limitation, not just environmental selection, plays an important role in microbial biogeography. The distance–decay relationship is thought to be weak in habitats where dispersal is high, such as in the pelagic environment, where ocean currents facilitate microbial dispersal. Most studies of microbial community composition to date have observed little geographical heterogeneity on a regional scale (100 km). We present a study of microbial communities across a dynamic frontal zone in the southwest Indian Ocean and investigate the spatial structure of the microbes with respect to the different water masses separated by these fronts. We collected 153 samples of free-living …