Data from: Towards holistic colony feeding: Effects of vitamin supplementation on summer and winter honeybee workers, Apis mellifera
Data files
Jul 14, 2025 version files 1.03 MB
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Final-Multivitamin-2021-PlosOne.xls
1 MB
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README.md
3.47 KB
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Submission_Brown_et_al_2025_PlosOne.R
26.29 KB
Abstract
In managed western honeybee, Apis mellifera, colonies, vitamins are often neglected when it comes to supplementary feeding despite their importance for health. Moreover, the potential links of vitamin feeding to longevity, food consumption and adult dry weight are poorly understood. Finally, comparative nutritional studies of short-lived summer workers and long-lived winter workers are currently lacking. Here, in a fully-crossed design, multivitamin supplementation of vitamins A, D, E, K, C, B1, B2, B3, B5, B6, B8, B9 and B12 (N=13), titrated in three different dosages were fed to summer and winter workers in two trials. In standard laboratory hoarding cages, experimental workers were assigned one of eight treatments: Sucrose, Sucrose + Pollen, Vitamin 1, Vitamin 1 + Pollen, Vitamin 2, Vitamin 2 + Pollen, Vitamin 3, Vitamin 3 + Pollen (N=8 treatments, 26 workers/cage, N=64 cages/phase, N = 3328 total workers). Regardless of season, significant consumption polynomial trends were revealed; however, no significant differences in sucrose and pollen consumption were found. Likewise, none of the used multivitamin dosages did significantly improve any of the measured parameters. On the other hand, ad libitum access to pollen consistently increased both weight and lifespan, reinforcing pollen as critical to honeybee health. Additionally, the data clearly show that summer and winter workers bees display very similar significant patterns of dry weight and longevity. In particular, summer bees lived longer than winter ones. In light of well-known differences between summer and winter workers in the field, in particular longevity, these results are unexpected. Therefore, improved laboratory settings for honeybees seem to be required to obtain more biologically relevant data and ultimately improve managed A. mellifera health.
https://doi.org/10.5061/dryad.dncjsxm83
Description of the data and file structure
The following data are from the in-revision publication “Towards holistic colony feeding: effects of vitamin supplementation on summer and winter honeybee workers, Apis mellifera” submitted to PLOS One
The data was collected and processed by the lead author, Andrew F Brown. The data were taken at the Institute of Bee Health in Liebefeld, Switzerland, from May - December 2021.
It contains survival data (time-to-event, Kaplan Meier Survival Analysis), sucrose consumption data through time (n=24 days), pollen consumption data (n=24 days), sucrose-pollen ratio data (n=24 days), summer bee dry weight, and winter bee dry weight.
The data are in .xls format, with 10 individually labeled tabs, each associated to the above-mentioned data.
Files and variables
File: Final-Multivitamin-2021-PlosOne.xls
Description: see full description below
The Excel file (.xls) entitled “Final-Multivitamin-2021-Apidologie.xls” contains 10 tabs:
- Winter 2021 Survival
- Summer 2021 Survival
- Summer-Winter Control Survival
- Summer 2021 Dry Weight
- Winter 2021 Dry Weight
- Winter 2021 Pollen Consumption
- Winter 2021 Sucrose Consumption
- Summer Sucrose Consumption
- Summer Pollen Consumption
- Protein - Carbohydrate ratio
Tabs 1-3 have the following columns:
- Cage - unique ID associated with each cage/treatment
- day - the length (in days) of the experiment
- individual - unique ID associated with each bee/treatment/cage
- treatment - associated assigned treatment (n=8)
- removed - how many individuals were removed on that particular day
- status - for Kaplan-Meier analysis, where 1==died naturally, and 0==right censored
Tabs 4-5 have the following columns:
- cage - unique ID associated to each cage/treatment
- treatment - associated assigned treatment (n=8)
- day - time points, i.e., 2 incremental periods (n=2) where bees were removed from the experiment
- milligrams - weight given in milligrams
- bee id - unique ID associated to each bee
Tabs 6-9 have the following columns:
- cage - unique ID associated to each cage/treatment
- treatment - associated assigned treatment (n=8)
- day - specific time point that data was taken (length: 1 - 24)
- consumption - amount consumed (in milligrams)
Tab 10 has the following columns:
- cage - unique ID associated to each cage/treatment
- treatment - associated assigned treatment (n=8)
- day - specific time point that data was taken (length: 1 - 24)
- sucrose consumption - amount of sucrose consumed (in milligrams)
- season - summer or winter (n=2 factors)
- pollen consumption - amount of pollen consumed (in milligrams)
- ratio - a ratio (%) of pollen / sucrose consumption.
The R file, called “Submission_Brown_et_al_2025_PlosOne.R”, contains all the code used in data analysis, and is commented and easy to follow for independent verification.
Code/software
The R code (written with R version 4.4.1 (2024-06-14) – “Race for Your Life”) is a detailed file with all data analysis associated with the current publication.
The code is commented and indicates to the reviewer (or person of interest) which file to upload prior to running the script. All necessary packages are included as well.