Publications
Found 210 results
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Investigating the population-level effects of chytridiomycosis: an emerging infectious disease of amphibians. Ecology. 86:3149–3159.
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2005. .
2020. Large-scale recovery of an endangered amphibian despite ongoing exposure to multiple stressors. Proceedings of the National Academy of Sciences of the United States of America. 113(42):94.
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2016. Life-history trade-offs influence disease in changing climates: strategies of an amphibian pathogen. Ecology. 89:1627–1639.
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2008. Lyme disease risk in southern California: abiotic and environmental drivers of Ixodes pacificus (Acari: Ixodidae) density and infection prevalence with Borrelia burgdorferi. Parasites & Vectors. 10(1):DOI10.1186/s13071-016-1938-y.
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2017. Lyme disease risk in southern California: abiotic and environmental drivers of Ixodes pacificus (Acari: Ixodidae) density and infection prevalence with Borrelia burgdorferi. Parasites & Vectors. 10(1):DOI10.1186/s13071-016-1938-y.
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2017. Macroalgae size refuge from herbivory promotes alternative stable states on coral reefs.. PLoS One. 13(9):e0202273.
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2018. Mechanisms underlying host persistence following amphibian disease emergence determine appropriate management strategies. Ecology Letters. 24(1)
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2021. Mechanisms underlying host persistence following amphibian disease emergence determine appropriate management strategies. Ecology Letters. 24(1)
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2021. Microparasite group report: persistence of microparasites in natural populations. Ecology of infectious diseases in natural populations (eds BT Grenfell & AP Dobson). Publications of the Newton Institute. :123–143.
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1995. Microparasite group report: persistence of microparasites in natural populations. Ecology of infectious diseases in natural populations (eds BT Grenfell & AP Dobson). Publications of the Newton Institute. :123–143.
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1995. Microparasite group report: persistence of microparasites in natural populations. Ecology of infectious diseases in natural populations (eds BT Grenfell & AP Dobson). Publications of the Newton Institute. :123–143.
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1995. Microparasite group report: persistence of microparasites in natural populations. Ecology of infectious diseases in natural populations (eds BT Grenfell & AP Dobson). Publications of the Newton Institute. :123–143.
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1995. Microparasite group report: persistence of microparasites in natural populations. Ecology of infectious diseases in natural populations (eds BT Grenfell & AP Dobson). Publications of the Newton Institute. :123–143.
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1995. Mitigating amphibian disease: strategies to maintain wild populations and control chytridiomycosis. Frontiers in Zoology. 8:1.
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2011. Mitigating amphibian disease: strategies to maintain wild populations and control chytridiomycosis. Frontiers in Zoology. 8:1.
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2011. A model of insect—pathogen dynamics in which a pathogenic bacterium can also reproduce saprophytically. Proceedings of the Royal Society of London B: Biological Sciences. 266:233–240.
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1999. A model of insect—pathogen dynamics in which a pathogenic bacterium can also reproduce saprophytically. Proceedings of the Royal Society of London B: Biological Sciences. 266:233–240.
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1999. A model of Nucleopolyhedrovirus (NPV) population genetics applied to co–occlusion and the spread of the few Polyhedra (FP) phenotype. Proceedings of the Royal Society of London B: Biological Sciences. 264:315–322.
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1997. Modeling Virus Coinfection to Inform Management of Maize Lethal Necrosis in Kenya. Phytopathology. 107(10):1095-1108.
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2017. Modeling Virus Coinfection to Inform Management of Maize Lethal Necrosis in Kenya. Phytopathology. 107(10):1095-1108.
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2017. Modelling the relative efficacy of culling and sterilisation for controlling populations. Wildlife Research. 24:129–141.
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1997. Modelling the relative efficacy of culling and sterilisation for controlling populations. Wildlife Research. 24:129–141.
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1997. Models of intermediate complexity in insect-pathogen interactions: population dynamics of the microsporidian pathogen, Nosema pyrausta, of the European corn borer, Ostrinia nubilalis. Parasitology. 111:S71–S89.
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1995. Mountain Yellow-legged Frogs (Rana muscosa) did not Produce Detectable Antibodies in Immunization Experiments with Batrachochytrium dendrobatidis. Journal of wildlife diseases. 52:154–158.
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2016.