Where no bee has flown before!

The Biobest name stands for quality products and services, as well as innovation.


Earlier this year, Biobest announced the launch of a new bumblebee hive for the biological pollination market, a development initiated by its R&D- department in close collaboration with its international technical team.
Now we are proud to go to the extreme of innovating, even one step further, maybe into space.


Since Biobest is THE pioneer whereas it comes to bumblebee pollination, lots of international researchers and universities all over the world maintain a close collaboration with our company to conduct trials in diverse subjects. Based on our 25 years of expertise and the well-known qualities of our bees, they were recently used by Canadian researchers to do innovative research of “self-sustaining” space missions.


Many scientists have spent years studying how to grow plants in controlled environments, anticipating the day when humans grow their own food on long term space missions. Now, a new study published in Gravitational and Space Biology has found that insect pollinators may very well play a role in future “self-sustaining” space missions.
“Space greenhouses will almost certainly have lower air pressure – this will not only reduce gas leakage and structural weight, it will also be cheaper to operate. The study answers the question of whether or not insect pollinators can fly and forage in a low pressure environment,” says Erika Nardone, a M.Sc. student in the School of Environmental Sciences at the University of Guelph and lead author of the study.


Nardone and colleagues placed a hive of Biobest bumblebees, Bombus impatiens, in a hypobaric chamber and exposed them to atmospheric pressures ranging from 30 kPa to ambient (about 97 kPa). Bees were videotaped as they foraged on artificial flowers filled with a sugar solution. The amount of time bees spent foraging, flying, walking or remaining stationary at each pressure was recorded.


At 50 kPa or higher, bees spent around 35% of their time foraging, and less than 15% not moving – similar to their activity at ambient pressure. In contrast, below 50 kPa, bees spent less than 10% of their foraging. Bees also had far less control in their flight take-offs and landings at the lower air pressures. At 30 kPa, flight stopped nearly altogether, even when the atmosphere was supplemented with oxygen. “At this low pressure, it appears there are simply not enough air molecules for the bees to push against to sustain flight,” commented Peter Kevan of the School of Environmental Sciences, a co-author on the paper and Nardone’s supervisor.
Bumblebees are already well established as greenhouse pollinators. Unlike honey bees, they are happy to forage in enclosed spaces. “Many of the crops identified as candidates for space cultivation require insect pollinators, particularly in the absence of wind. NASA currently recommends a pressure of 52 kPa for extraterrestrial facilities; our results show that bumblebees will function well at this level,” says Kevan.


This study was a collaboration between the Canadian Pollination Initiative (NSERC-CANPOLIN) and the Controlled Environment Systems Research Facility at the University of Guelph. It is contribution #60 to NSERC-CANPOLIN.
E. Nardone, P.G. Kevan, M. Stasiak and M. Dixon. 2012. Atmospheric pressure requirements of bumblebees (Bombus impatiens) as pollinators of Lunar or Martian greenhouse grown food. Gravitational and Space Biology 26(2): 13-21.