Meghan A. Duffy American biologist
Duffy, Meghan
VIAF ID: 102151594503905352505 (Personal)
Permalink: http://viaf.org/viaf/102151594503905352505
Preferred Forms
- 100 1 _ ‡a Duffy, Meghan
- 100 0 _ ‡a Meghan A. Duffy ‡c American biologist
4xx's: Alternate Name Forms (8)
Works
Title | Sources |
---|---|
Allocation, not male resistance, increases male frequency during epidemics: A case study in facultatively sexual hosts | |
Biotic challenges for extremophiles : reproductive interference and parasite specialization in Artemia | |
Bringing ecology blogging into the scientific fold: measuring reach and impact of science community blogs. | |
Call for new AAAS harassment policy | |
A colorful killer: Daphnia infected with the bacterium Spirobacillus cienkowskii exhibit unexpected color variation | |
Comparing the Indirect Effects between Exploiters in Predator-Prey and Host-Pathogen Systems | |
The Context-Dependent Effects of Host Competence, Competition, and Pathogen Transmission Mode on Disease Prevalence | |
Context-Dependent Host-Symbiont Interactions: Shifts along the Parasitism-Mutualism Continuum | |
Daphnia predation on the amphibian chytrid fungus and its impacts on disease risk in tadpoles | |
Differential infection of exotic and native freshwater amphipods by a parasitic water mold in the St. Lawrence River | |
Disease in freshwater zooplankton: what have we learned and where are we going? | |
Dose relationships can exacerbate, mute, or reverse the impact of heterospecific host density on infection prevalence | |
Eating yourself sick: transmission of disease as a function of foraging ecology | |
Ecological consequences of intraspecific variation in lakeDaphnia | |
Ecological context influences epidemic size and parasite-driven evolution | |
Ecological feedbacks and the evolution of resistance | |
The ecology and phylogeny of oomycete infections in Asplanchna rotifers | |
Ecology, Virulence, and Phylogeny of Blastulidium paedophthorum, a Widespread Brood Parasite of Daphnia spp. | |
Epidemiology. It helps to be well connected. | |
Epidemiology of a Daphnia-multiparasite system and its implications for the red queen. | |
Formative Work and Community Engagement Approaches for Implementing an HIV Intervention in Botswana Schools. | |
Friendly competition: evidence for a dilution effect among competitors in a planktonic host-parasite system. | |
Gender diversity of editorial boards and gender differences in the peer review process at six journals of ecology and evolution | |
Habitat, predators, and hosts regulate disease in Daphnia through direct and indirect pathways | |
Human drivers of ecological and evolutionary dynamics in emerging and disappearing infectious disease systems | |
Infectivity is influenced by parasite spore age and exposure to freezing: do shallow waters provide Daphnia a refuge from some parasites? | |
Interesting open questions in disease ecology and evolution | |
A lack of evidence for six times more anxiety and depression in US graduate students than in the general population | |
Last And Corresponding Authorship Practices In Ecology | |
Linking host traits, interactions with competitors and disease: Mechanistic foundations for disease dilution | |
Local adaptation of a parasite to solar radiation impacts disease transmission potential, spore yield, and host fecundity | |
Mechanisms by which predators mediate host–parasite interactions in aquatic systems | |
Parasite consumption and host interference can inhibit disease spread in dense populations | |
Parasite-mediated disruptive selection in a natural Daphnia population | |
Parasite transmission in a natural multihost-multiparasite community. | |
Parasites destabilize host populations by shifting stage-structured interactions | |
Phylogenetic characterization and prevalence of "Spirobacillus cienkowskii," a red-pigmented, spiral-shaped bacterial pathogen of freshwater Daphnia species | |
Plasticity, not genetic variation, drives infection success of a fungal parasite. | |
Poor resource quality lowers transmission potential by changing foraging behaviour | |
Population Density, Not Host Competence, Drives Patterns of Disease in an Invaded Community | |
Potassium stimulates fungal epidemics in Daphnia by increasing host and parasite reproduction | |
Preaching to the choir or composing new verses? Toward a writerly climate literacy in introductory undergraduate biology | |
Predators and patterns of within-host growth can mediate both among-host competition and evolution of transmission potential of parasites | |
Priority effects within coinfected hosts can drive unexpected population‐scale patterns of parasite prevalence | |
Quality matters: resource quality for hosts and the timing of epidemics | |
Rapid evolution as a possible constraint on emerging infectious diseases | |
Rapid evolution rescues hosts from competition and disease but-despite a dilution effect-increases the density of infected hosts. | |
Rapid evolution, seasonality, and the termination of parasite epidemics | |
Resources, key traits and the size of fungal epidemics in Daphnia populations | |
Salinization decreases population densities of the freshwater crustacean, Daphnia dentifera | |
Selective Predation and Productivity Jointly Drive Complex Behavior in Host‐Parasite Systems | |
Selective predation and rapid evolution can jointly dampen effects of virulent parasites on Daphnia populations. | |
Selective predation, parasitism, and trophic cascades in a bluegill–Daphnia–parasite system | |
Shedding light on environmentally transmitted parasites: lighter conditions within lakes restrict epidemic size | |
Small But Fierce: Planktonic Predator‐Prey‐Parasite Interactions | |
Solar radiation decreases parasitism in Daphnia | |
Spatial heterogeneity of daphniid parasitism within lakes | |
Staying alive: The post-consumption fate of parasite spores and its implications for disease dynamics | |
Stoichiometric relationships in vernal pond plankton communities | |
Storage length and temperature influence infectivity and spore yield of two common Daphnia parasites | |
Students as ecologists: Strategies for successful mentorship of undergraduate researchers | |
Temperature Drives Epidemics in a Zooplankton-Fungus Disease System: A Trait-Driven Approach Points to Transmission via Host Foraging. | |
Temporal, spatial, and between-host comparisons of patterns of parasitism in lake zooplankton | |
Testing the ecological relevance of Daphnia species designations | |
Toxins or medicines? Phytoplankton diets mediate host and parasite fitness in a freshwater system | |
Trait-mediated indirect effects, predators, and disease: test of a size-based model | |
Transgenerational plasticity in a zooplankton in response to elevated temperature and parasitism | |
Unhealthy herds and the predator–spreader: Understanding when predation increases disease incidence and prevalence | |
Unhealthy herds: indirect effects of predators enhance two drivers of disease spread | |
Variation in costs of parasite resistance among natural host populations. | |
Variation in Resource Acquisition and Use among Host Clones Creates Key Epidemiological Trade‐Offs | |
The visual ecology of selective predation: Are unhealthy hosts less stealthy hosts? | |
Warmer does not have to mean sicker: temperature and predators can jointly drive timing of epidemics. | |
Why Are Daphnia in Some Lakes Sicker? Disease Ecology, Habitat Structure, and the Plankton | |
Within-host priority effects and epidemic timing determine outbreak severity in co-infected populations | |
Within-Host Priority Effects Systematically Alter Pathogen Coexistence |