Comparison of Use and Chemical Composition of Propolis Collected by U.S. Honey Bees

2007 Annual Report for GNC06-072

Project Type: Graduate Student
Funds awarded in 2006: $10,000.00
Projected End Date: 12/31/2009
Grant Recipient: University of Minnesota
Region: North Central
State: Minnesota
Graduate Student:
Faculty Advisor:
Marla Spivak
University of Minnesota

Comparison of Use and Chemical Composition of Propolis Collected by U.S. Honey Bees

Summary

The long-term goal of this research is to investigate the basic biology of resin collection by honey bees. Bees collect resin from trees and shrubs and use it as propolis to seal openings in the nest. This is the first study to document relative propolis use among different lines of bees in the U.S. and the first recent study in the U.S. to identify the plant sources of the resins. It has yielded important baseline information to begin selecting bees for increased propolis use, and basic natural history information on seasonal availability and chemical composition of resins in Minnesota.

Objectives/Performance Targets

Objectives/Expected Outcomes

Objective 1. Document variability in the amount of resin collection by colonies of four different European-derived honey bee subspecies in the U.S.

Objective 2. Characterize the plant source/plant type and analyze the chemical profiles of resins collected by honey bees in MN apiaries.

In the short-term, the results will provide direct feedback to the beekeepers supplying the bees for this research. Additionally, informing beekeepers about the plant sources that honey bees use for resin may help them choose apiary locations for increasing the amount of propolis collected by their colonies. The long-term goal of this research is to determine the various biological and behavioral components of resin collection by honey bees. Using two sites in Minnesota, this is the first study to document relative propolis use among different lines and races of honey bees in the U.S., and the first recent study in the U.S. to identify the plant sources from which honey bees collect resins. The experiments outlined here will yield important baseline information for future studies including selection of bees for increased propolis use, basic natural history information on seasonal availability, and chemical composition of resins. The results from this study will be a strong start in investigating this neglected area of honey bee research and will help beekeepers access a secondary income source.

Accomplishments/Milestones

Objective 1:
In year 1, 69 colonies were established between two apiaries in Southern MN and monitored every two weeks for level of resin collection. 20 colonies were obtained from a local beekeeper (Honl) who has developed a line of bees from varying racial origin. 20 were Italian honey bees from a CA beekeeper. Another 12 colonies were Italian honey bees from a MN beekeeping operation. The final 17 were Russian honey bees from LA. Two measures of resin collection were used. The first, general measure was total weight of material deposited on a resin trap placed on top of a hive. Then to account for the bees use of wax and resin on the trap, the number of squares filled in on the trap using either resin or wax were also counted.

There were no significant differences between the average resin collected based on location, nor were there overall differences in resin collection across different honey bee lines. However, there was a trend for the Honl colonies collecting more resin than bees from the other lines. Colonies were also separated into high- and low-collecting colonies in order to breed high and low lines for this trait. Colonies selected for high resin collection had traps with significantly more resin deposited on the traps (77.8 ± 58.9 squares resin) than those selected for low resin collection (16.3 ± 19.3), but both types deposited equal amounts of wax on the propolis traps. Trap weight and number of squares of propolis were also correlated, indicating that trap weight alone is a sufficient measure of propolis collection.

To complete this objective, more analysis will be conducted and a few more samples will be analyzed. In addition, another year of data collection will be completed with some of these original colonies that survive winter, new colonies, and colonies that have been re-queened using queens bred for high and low propolis collection.

Objective 2:
Gas chromatography–mass spectrometry (GC-MS) with electron impact ionization is a common technique to identify the main volatile and semi-volatile components of propolis. I have sampled propolis from 12 of the colonies (3 from each race) in each apiary using GC-MS analysis to determine the chemical profiles of the resins. The samples are currently being analyzed at the University of Minnesota’s Center for Mass Spectrometry and Proteomics. This procedure will not directly identify the species of plant used by each colony but it will allow for the identification of the type of plant source used and determine if there is a difference among colonies with respect to plant type used. Preliminary analyses have been conducted to confirm that these methods will work to determine the general chemical composition of the propolis samples to identify general plant sources and if there is any seasonal variation in source use.

This analysis will be completed at the Center for Mass Spectrometry and Proteomics and more samples will be analyzed. It may also be necessary to further analyze samples using HPLC to more accurately identify specific plant sources.

Impacts and Contributions/Outcomes

The current study has yielded important baseline information for future studies involving selecting bees for increased propolis use, and basic natural history information on seasonal availability and chemical composition of resins for two sites in Minnesota. For over a century, beekeepers, particularly in the U.S., have selected lines of bees that deposit less propolis because of its sticky nature. However increasing evidence concerning the medicinal properties of propolis to both humans and bees warrants a reinvestigation into the properties and potential value of propolis collected by honey bees in the U.S. The results will help beekeepers exploit an opportunity for secondary income by selling propolis.

This information has been presented at numerous outlets. M. Simone has presented talks at an MN Hobby Beekeepers Association monthly meeting, MN Honey Producers Association annual summer meeting, the American Beekeeping Federation 2007 annual meeting (Austin, TX), and the 2007 Entomological Society of America annual meeting (San Diego, CA). M. Spivak has presented on this topic to over 25 different professional and public meetings of beekeepers, scientists and the general public across the US and in several other countries (including Australia). The Spivak lab has also tought a number of beekeeping short-courses and maintains a web-based course. Through all of these efforts we have created and maintained interest in propolis as both a potential product for sale and as a possible benefit to the health of honey bees.

Collaborators:

Marla Spivak

spiva001@umn.edu
Professor
University of Minnesota, Dept of Entomology
219 Hodson Hall
1980 Folwell Ave
St. Paul, MN 55108
Office Phone: 6126244798
Website: http://www.extension.umn.edu/honeybees/index.html