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Rapid extirpation of a North American frog coincides with an increase in fungal pathogen prevalence: Historical analysis and implications for reintroduction. Biology and Evolution. DOI: 10.1002/ece3.3468. 2017.
Examining anuran declines in southern California's western transverse ranges: did disease play a role? Bulletin of the Southern California Academy of Sciences. 113:117–118.. 2014.
Extreme drought, host density, sex, and bullfrogs inﬂuence fungal pathogen infection in a declining lotic amphibian. Ecosphere. 8(3). 2017.
DNA extraction method affects the detection of a fungal pathogen in formalin-fixed specimens using qPCR. PloS one. 10:e0135389.. 2015.
Effect of temperature on host response to Batrachochytrium dendrobatidis infection in the mountain yellow-legged frog (Rana muscosa). Journal of Wildlife Diseases. 44:716–720.. 2008.
A high speed multiple function unit as a building block for parallel architectures. Proc. IEEE. Int. Conf. Computer Design: VLSI in Computers. :640–644.. 1987.
Modelling the relative efficacy of culling and sterilisation for controlling populations. Wildlife Research. 24:129–141.. 1997.
Quantifying variation in the strengths of species interactions. Ecology. 80:2206–2224.. 1999.
Does Host Self-Regulation Increase the Likelihood of Insect-Pathogen Population Cycles? The American Naturalist. 153:228–235.. 1999.
Testing intraguild predation theory in a field system: does numerical dominance shift along a gradient of productivity? Ecology Letters. 6:929–935.. 2003.
PREDATORS, PARASITOIDS, AND PATHOGENS: A CROSS-CUTTING EXAMINATION OF INTRAGUILD PREDATION THEORY. Ecology. 88:2681–2688.. 2007.
Effect of microenvironment on development of a gall midge. Environmental entomology. 36:441–450.. 2007.
Mechanisms underlying host persistence following amphibian disease emergence determine appropriate management strategies. Ecology Letters. 24(1). 2021.
WHY SHORT-TERM EXPERIMENTS MAY NOT ALLOW LONG-TERM PREDICTIONS ABOUT INTRAGUILD PREDATION. Ecological Applications. 15:1111–1117.. 2005.
Delayed feedback and multiple attractors in a host–parasitoid system. Journal of Mathematical Biology. 38:317–345.. 1999.
Dynamical effects of host-feeding in parasitoids. Journal of Animal Ecology. :403–416.. 1995.
Autoparasitism, interference, and parasitoid-pest population dynamics. Theoretical Population Biology. 60:33–57.. 2001.
Interactions between the egg and larval parasitoids of a gall-forming midge and their impact on the host. Ecological Entomology. 26:109–116.. 2001.
Recent developments in theory for biological control of insect pests by parasitoids. Theoretical approaches to biological control. :22–42.. 1999.
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.. 1995.
The effect of dispersal on the population dynamics of a gall-forming midge and its parasitoids. Journal of Animal Ecology. 69:96–105.. 2000.
The window of vulnerability and its effect on relative parasitoid abundance. Ecological Entomology. 21:128–140.. 1996.