Your search keyword '"Kulhanek, Kelly"' showing total 5 results

1. Accelerated Varroa destructor population growth in honey bee (Apis mellifera) colonies is associated with visitation from non-natal bees.

Author

Kulhanek K, Garavito A, and vanEngelsdorp D

Subjects

Animals, Colony Collapse, Host-Parasite Interactions, Maryland, Seasons, Beekeeping methods, Bees parasitology, Varroidae growth & development

Abstract

A leading cause of managed honey bee colony mortality in the US, Varroa destructor populations typically exceed damaging levels in the fall. One explanation for rapid population increases is migration of mite carrying bees between colonies. Here, the degree to which bees from high and low mite donor colonies move between apiaries, and the effect visitation has on Varroa populations was monitored. More bees from low mite colonies (n = 37) were detected in receiver apiaries than bees from high mite colonies (n = 10, p < 0.001). Receiver colony Varroa population growth was associated with visitation by non-natal bees (p = 0.03), but not high mite bees alone (p = 0.19). Finally, colonies lacking robbing screens experienced faster Varroa population growth than screened neighbors (p = 0.01). Results indicate visiting non-natal bees may vector mites to receiver colonies. These results do not support the current two leading theories regarding mite immigration - the "mite bomb" theory (bees from high mite colonies emigrating to collapsing colonies), or the "robbing" theory (natal robbing bees return home with mites from collapsing colonies). Potential host-parasite effects to bee behavior, as well as important management implications both for Varroa treatment regimens and breeding Varroa resistant bees are discussed.

Published

2021

2. Survey-derived best management practices for backyard beekeepers improve colony health and reduce mortality.

Author

Kulhanek K, Steinhauer N, Wilkes J, Wilson M, Spivak M, Sagili RR, Tarpy DR, McDermott E, Garavito A, Rennich K, and vanEngelsdorp D

Subjects

Animals, Conservation of Natural Resources, Risk Factors, Seasons, Beekeeping methods, Bees parasitology, Mortality, Surveys and Questionnaires

Abstract

Honey bee colony losses in the US have exceeded acceptable levels for at least a decade, leaving beekeepers in need of management practices to improve colony health and survival. Here, an empirical Best Management Practice (BMP) regimen was tested, comprised of the top four management practices associated with reduced colony mortality in backyard beekeeping operations according to Bee Informed Partnership Loss and Management survey results. Seven study locations were established across the US, and each location consisted of ten colonies treated according to empirical BMPs and ten according to average beekeeping practice. After 3 years, colonies treated according to empirical BMPs experienced reduced Varroa infestation, viral infection, and mortality compared to colonies managed with Average practices. In addition, BMP colonies produced more new colonies via splits. The colonies under Average practices were given chemical Varroa treatments only once per year, and thus spent more months above economic threshold of 3.0 mites/100 bees. Increased time spent above the economic threshold was significantly correlated to both increased viral infection and colony mortality. This study demonstrates the cumulative effects of management and colony health stressors over months and years, especially the dire importance of regular Varroa monitoring and management., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

3. Best Management Practices Increase Profitability of Small-Scale US Beekeeping Operations.

Author

Tubene, Stephan, Kulhanek, Kelly, Rennich, Karen, and vanEngelsdorp, Dennis

Subjects

BEEKEEPING, BEEKEEPERS, BEST practices, PROFITABILITY, APIARIES, BUDGET management, LABOR costs

Abstract

Little is known about the economics of small-scale beekeeping, due in part because many of these beekeepers are motivated by personal enjoyment and not profit. These beekeepers, however, represent more than 90% of US beekeeping population, so economic analysis of this majority group is warranted. Understanding how management practices impact colony profitability in small apiaries can inform beekeeper management decisions. Best management practices (BMPs) can increase colony productivity and survival, but often require additional labor and materials compared to less intensive beekeeping practices. Here, we investigate the impact of BMPs on the profitability of small-scale beekeeping. We found that BMPs required higher costs in labor and materials, but that they also produced higher revenue from honey and nucleus colony production. As a result, after three years, BMP apiaries were 8 times more profitable than less intensively managed apiaries. The increased profitability in BMP apiaries is largely attributed to improved colony health and survival due to more active Varroa management and reduced Varroa and viral loads. These results can inform small scale beekeeper budgeting and management, and also support extension efforts to increase BMP adoption. [ABSTRACT FROM AUTHOR]

Published

2023

4. Characterizing effectiveness of and obstacles to best beekeeping management practices

Author

Kulhanek, Kelly

Subjects

Honey bee, Varroa, Entomology, Beekeeping, Management

Abstract

Honey bees (Apis mellifera, L.) provide critical pollination services to many US crops, but decades of high colony loss rates have strained beekeepers’ ability to provide sufficient colonies for crop production. In a national survey of colony losses for the 2015-2016 season, beekeepers reported losses averaging at 37.4%, and that the parasitic mite Varroa destructor was a leading cause of mortality. Survey results were used to create empirical best management practices (BMPs) to reduce colony loss rates. Best practices were the top four practices which correlated to significant reductions in winter colony loss. This set of BMPs was tested on 140 colonies in 7 locations across the US, compared to average beekeeping practices. At the end of 3 years, apiaries managed according to BMPs exhibited reduced Varroa loads, which resulted in reduced fall viral loads and reduced winter mortality. However, colony loss rates still exceeded rates that beekeepers have deemed acceptable. A prominent factor affecting colony health and mortality in the BMP study was Varroa. After identifying Varroa treatment as a preventative measure, the effects of Varroa management were evaluated in non-experimental apiaries. Citizen scientist beekeepers participating in the Sentinel Apiary Program provided Varroa samples and Varroa management information. Out of 192 Varroa treatments applied to 155 apiaries over 2 years, only 45 treatments resulted in reduced Varroa loads. Common hypotheses of factors affecting Varroa population growth failed to explain the rapid increases in Varroa loads experienced by beekeepers in critical fall months. Finally, a more novel explanation for rapid increases in Varroa load was explored: horizontal transmission of mites between apiaries. Colonies that were visited by non-natal bees experienced larger increases in Varroa loads than unvisited colonies, but not as a result of visitation to or from high mite colonies. High mite colonies in the landscape represent a threat to nearby colonies, and cooperative Varroa management is likely to mediate colony losses resulting from Varroa. This dissertation supports the critical need for proactive, cooperative Varroa management to improve colony health and reduce mortality.

Published

2020

5. Best Management Practices Increase Profitability of Small-Scale US Beekeeping Operations

Author

Tubene, Stephan, Kulhanek, Kelly, Rennich, Karen, and vanEngelsdorp, Dennis

Published

2022