1a.Objectives (from AD-416):
In order to clearly determine how the microbial patterns affect individual hives and colonies it will be necessary to contiue to follow all of the test hives over several more seasons and even through winters (albeit with fewer samplings due to cold). Further, there is a definite need to establish some clear reporting systems whereby all beekeepers providing samples to this project also provide the same corroborating information to allow the project team to accurately compare one pattern to another in relation to the condition of the hive. In fact, for the near term it may be necessary to restrict much of the sampling to only those hives that can be reached by the project team in PA or associated USDA scientists. One critical aspect of this next season will be the need to identify and follow particular hives (both migratory and stationary). This would eliminate (or restrict) the ability of the project to take in a wide range of samples but it would certainly allow for the needed correlation of hive health with microbial patterns. Given the surprising difference between the microbial profiles of raw pollen and apparently more mature bee bread the project needs to establish one or more large observation hives that will allow us to track single cells of bee bread from initial packing with pollen through time to the point where the bees begin to use it to feed developing larva. It will also be important to begin a closer analysis of royal, worker and drone jellies to see if these do indeed create different nutritional situations in the various cells. Finally, the project needs to consider actual instrumentation of an active hive using newly available remote sensing systems for real time measurement of pH inside cells containing bee bread and developing larva as well as systems for real time measurement of air quality and the presence of fermentation gases within active hives over the season.
1b.Approach (from AD-416):
1. Samples of bee bread and uncured honey will be collected from colonies both exposed to (and not exposed to) pesticide applications. Comb containing stored pollen will be cut and wrapped in foil; these will be placed in a cooler until the samples are shipped to PA.
2. Work done by the researcher will be to investigate the presence of beneficial as well as pathogenic microflora by quantitative (isolation and identification) analysis of bee bread and honey. Documents SCA with USBARCo.
This is the final report for this project and is related to objective 1 of the inhouse project, "Determine the nutrients in pollen that promote worker longevity". This project relates to our research to improve nutuition for honey bee colonies. Collaboration under this agreement to study overall microbial activity in bee colonies has been completed. Denaturing Gradient Gel Electrophoresis (DGGE) was selected as the primary initial analytical method to examine the beebread microbial profiles. DGGE systems are culture-independent, allowing us to profile the various hives without any bias from growth media, and is sensitive enough to produce discreet bands from two amplified DNA products that differ by only a single GC pair. The gels are relatively easy to interpret and could ultimately be shown to individual beekeepers. This work is completed and a manuscript is in preparation.