Grace Kunkel scite author profile

-The US National Honey Bee Disease Survey sampled colony pests and diseases from 2009 to 2014. We verified the absence of Tropilaelaps spp., the Asian honey bee (Apis cerana ), and slow bee paralysis virus. Endemic health threats were quantified, including Varroa destructor , Nosema spp., and eight honey bee viruses. Varroa loads varied across years, with annual fall peaks; Nosema peaked January to April. Migratory beekeepers had significantly lower Varroa prevalence (84.9 vs. 97.0 %) and loads (3.65 ± 0.28 vs. 5.99 ± 0.22) than stationary operations, while Nosema was more prevalent (59.9 vs. 46.7 %) in migratory colonies. Since 2010, chronic bee paralysis virus prevalence doubled annually. We detected strong positive relationships between V. destructor and Varroa -transmitted viruses, between Nosema and Lake Sinai virus 2, and a positive relationship across several viral pathogens of bees. The results provide a disease baseline to help identify drivers of poor bee health.Apis mellifera / disease survey / pests / parasite / USA

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Pesticides in honey bee colonies: Establishing a baseline for real world exposure over seven years in the USA

Traynor

Tosi

Rennich

et al. 2021

Environmental Pollution

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Implicating ABC Transporters in Insecticide Resistance: Research Strategies and a Decision Framework

Gott

Kunkel

Zobel

et al. 2017

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Pest insects damage crops, transmit diseases, and are household nuisances. Historically, they have been controlled with insecticides, but overuse often leads to resistance to one or more of these chemicals. Insects gain resistance to insecticides through behavioral, metabolic, genetic, and physical mechanisms. One frequently overlooked strategy is through the use of ATP-binding cassette (ABC) transporters. ABC transporters, present in all domains of life, perform natural excretory functions, thus the exploitation of these transporters to excrete insecticides and contribute to resistance is highly plausible. Previous work has implicated ABC transporters in some cases of insecticide resistance. Proposed herein is a framework meant as a formal guide for more easily incorporating the analysis of ABC transporters into existing resistance monitoring using suggested simple research methods. This framework functions as a simple decision tree and its utility is demonstrated using case examples. Determining a role for ABC transporters in insecticide resistance would help to shape future resistance management plans and guide the design of new insecticides.

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In Vitro Measures of MDR-Transporter Function and Whole-Hive Exposure Dynamics Using Fluorescent Dyes

Kunkel¹

2014

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Grace Kunkel

Multiyear survey targeting disease incidence in US honey bees

Pesticides in honey bee colonies: Establishing a baseline for real world exposure over seven years in the USA

Implicating ABC Transporters in Insecticide Resistance: Research Strategies and a Decision Framework

In Vitro Measures of MDR-Transporter Function and Whole-Hive Exposure Dynamics Using Fluorescent Dyes

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