Dean Biggins, PhD (Former Employee)
Science and Products
Filter Total Items: 124
Ecology and management of plague in diverse communities of rodents and fleas Ecology and management of plague in diverse communities of rodents and fleas
Plague originated in Asia as a flea-borne zoonosis of mammalian hosts. Today, the disease is distributed nearly worldwide. In western United States of America, plague is maintained, transmitted, and amplified in diverse communities of rodents and fleas. We examined flea diversity on three species of prairie dogs (Cynomys spp., PDs) and six species of sympatric small rodents in Montana...
Authors
David A. Eads, Dean E. Biggins, Kenneth L. Gage
Managing plague on prairie dog colonies: Insecticides as ectoparasiticides Managing plague on prairie dog colonies: Insecticides as ectoparasiticides
Human health practitioners and wildlife biologists use insecticides to manage plague by suppressing fleas (Siphonaptera), but insecticides can also kill other ectoparasites. We investigated effects of deltamethrin and fipronil on ectoparasites from black-tailed prairie dogs (Cynomys ludovicianus, BTPDs). In late July, 2018, we treated three sites with 0.05% deltamethrin dust and 5 sites...
Authors
David A. Eads, Alexis Yashin, Lauren Nobel, Michele Vasquez, Miranda Huang, Travis M. Livieri, Phillip Dobesh, Eddie Childers, Dean E. Biggins
Flea parasitism and host survival in a plague-relevant system: Theoretical and conservation implications Flea parasitism and host survival in a plague-relevant system: Theoretical and conservation implications
Plague is a bacterial zoonosis of mammalian hosts and flea vectors. The disease is capable of ravaging rodent populations and transforming ecosystems. Because plague mortality is likely to be predicted by flea parasitism, it is critical to understand vector dynamics. It has been hypothesized that paltry precipitation and reduced vegetative production predispose herbivorous rodents to
Authors
David A. Eads, Rachel C. Abbott, Dean E. Biggins, Tonie E. Rocke
Flea sharing among sympatric rodent hosts: implications for potential plague effects on a threatened sciurid Flea sharing among sympatric rodent hosts: implications for potential plague effects on a threatened sciurid
For vector-borne diseases, the abundance and competency of different vector species and their host preferences will impact the transfer of pathogens among hosts. Sylvatic plague is a lethal disease caused by the primarily flea-borne bacterium Yersinia pestis. Sylvatic plague was introduced into the western United States in the early 1900s and impacts many species of rodents. Plague may...
Authors
Amanda R. Goldberg, Courtney J. Conway, Dean E. Biggins
Evaluation of five pulicides to suppress fleas on black-tailed prairie dogs: Encouraging long-term results with systemic 0.005% fipronil Evaluation of five pulicides to suppress fleas on black-tailed prairie dogs: Encouraging long-term results with systemic 0.005% fipronil
Plague, a flea-borne disease, hampers efforts to restore populations of black-footed ferrets (Mustela nigripes), which occupy colonies of prairie dogs (Cynomys spp.) in North America. Plague is managed by infusing prairie dog burrows with DeltaDust® 0.05% deltamethrin, a pulicide that kills fleas. Experiments are needed to identify pulicides that can be used in rotation with DeltaDust...
Authors
David Austin Eads, Dean E. Biggins, Kristina Broerman, Jonathan Bowser, Travis Livieri, Eddie Childers, Phillip Dobesh, Randall Griebel
Plague management of prairie dog colonies: Degree and duration of deltamethrin flea control Plague management of prairie dog colonies: Degree and duration of deltamethrin flea control
Plague is a flea-borne disease of mammalian hosts. On the grasslands of western North America, plague stifles populations of Cynomys spp. prairie dogs (PDs). To manage plague, PD burrows are treated with 0.05% deltamethrin dust that can suppress flea numbers and plague transmission. Here, we evaluate the degree and duration of deltamethrin flea control with three PD species at six sites...
Authors
David Austin Eads, Dean E. Biggins
Science and Products
Filter Total Items: 124
Ecology and management of plague in diverse communities of rodents and fleas Ecology and management of plague in diverse communities of rodents and fleas
Plague originated in Asia as a flea-borne zoonosis of mammalian hosts. Today, the disease is distributed nearly worldwide. In western United States of America, plague is maintained, transmitted, and amplified in diverse communities of rodents and fleas. We examined flea diversity on three species of prairie dogs (Cynomys spp., PDs) and six species of sympatric small rodents in Montana...
Authors
David A. Eads, Dean E. Biggins, Kenneth L. Gage
Managing plague on prairie dog colonies: Insecticides as ectoparasiticides Managing plague on prairie dog colonies: Insecticides as ectoparasiticides
Human health practitioners and wildlife biologists use insecticides to manage plague by suppressing fleas (Siphonaptera), but insecticides can also kill other ectoparasites. We investigated effects of deltamethrin and fipronil on ectoparasites from black-tailed prairie dogs (Cynomys ludovicianus, BTPDs). In late July, 2018, we treated three sites with 0.05% deltamethrin dust and 5 sites...
Authors
David A. Eads, Alexis Yashin, Lauren Nobel, Michele Vasquez, Miranda Huang, Travis M. Livieri, Phillip Dobesh, Eddie Childers, Dean E. Biggins
Flea parasitism and host survival in a plague-relevant system: Theoretical and conservation implications Flea parasitism and host survival in a plague-relevant system: Theoretical and conservation implications
Plague is a bacterial zoonosis of mammalian hosts and flea vectors. The disease is capable of ravaging rodent populations and transforming ecosystems. Because plague mortality is likely to be predicted by flea parasitism, it is critical to understand vector dynamics. It has been hypothesized that paltry precipitation and reduced vegetative production predispose herbivorous rodents to
Authors
David A. Eads, Rachel C. Abbott, Dean E. Biggins, Tonie E. Rocke
Flea sharing among sympatric rodent hosts: implications for potential plague effects on a threatened sciurid Flea sharing among sympatric rodent hosts: implications for potential plague effects on a threatened sciurid
For vector-borne diseases, the abundance and competency of different vector species and their host preferences will impact the transfer of pathogens among hosts. Sylvatic plague is a lethal disease caused by the primarily flea-borne bacterium Yersinia pestis. Sylvatic plague was introduced into the western United States in the early 1900s and impacts many species of rodents. Plague may...
Authors
Amanda R. Goldberg, Courtney J. Conway, Dean E. Biggins
Evaluation of five pulicides to suppress fleas on black-tailed prairie dogs: Encouraging long-term results with systemic 0.005% fipronil Evaluation of five pulicides to suppress fleas on black-tailed prairie dogs: Encouraging long-term results with systemic 0.005% fipronil
Plague, a flea-borne disease, hampers efforts to restore populations of black-footed ferrets (Mustela nigripes), which occupy colonies of prairie dogs (Cynomys spp.) in North America. Plague is managed by infusing prairie dog burrows with DeltaDust® 0.05% deltamethrin, a pulicide that kills fleas. Experiments are needed to identify pulicides that can be used in rotation with DeltaDust...
Authors
David Austin Eads, Dean E. Biggins, Kristina Broerman, Jonathan Bowser, Travis Livieri, Eddie Childers, Phillip Dobesh, Randall Griebel
Plague management of prairie dog colonies: Degree and duration of deltamethrin flea control Plague management of prairie dog colonies: Degree and duration of deltamethrin flea control
Plague is a flea-borne disease of mammalian hosts. On the grasslands of western North America, plague stifles populations of Cynomys spp. prairie dogs (PDs). To manage plague, PD burrows are treated with 0.05% deltamethrin dust that can suppress flea numbers and plague transmission. Here, we evaluate the degree and duration of deltamethrin flea control with three PD species at six sites...
Authors
David Austin Eads, Dean E. Biggins
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government