Home & Garden Garden No Substitute for Bumblebees, Study Shows By Christine Lepisto Christine Lepisto Writer St. Olaf College University of Minnesota Christine Lepisto is a chemist and writer from Berlin. A former Treehugger staff writer, she now runs a chemical safety consulting business. Learn about our editorial process Updated October 11, 2018 CC BY 2.0. Smabs Sputzer Share Twitter Pinterest Email Garden Insects Planting Guides Indoor Gardening Urban Farms The wonder of bumblebees laden with pollen apparently defying gravity as they forage through the summer air increasingly belongs to the tales we tell our children about these amazing creatures rather than to their own experience. As bee populations collapse, some have thought that other species of smaller bees can take over the work of the bumblebees. But that appears to be a false hope. It turns out that smaller bees actually rob the plants of pollen, which is an important protein source for the bees' offspring, but fail to incidentally transfer the pollen from the male to the female parts of the plants. “We were surprised to find that some of the small pollinators were actually detrimental to the plants they visited, rather than beneficial,” reports Matt Koski, the lead author in a team of University of Virginia The UVA team tracked the grains of pollen transported away and the pollen deposited by bumblebees, a medium sized bee species, and two smaller species of bees. They found that the bumblebees often left some pollen behind where it could fertilize the flowers, paying for their meals by helping the flowers to create seeds. Importantly, bumblebees frequently visited the female phase of the flowers, improving the fertilization efficiency. Conversely, the medium size and smaller bees acted as "pollen thieves." They took away pollen without succeeding to transfer it to the plants' stigmas; as a result, their visits actually reduced the plants' fertility. Once the pollen has been "stolen," the plants potentially have lost their chances to successfully produce seeds. This study points to the need to conserve important pollinator species by protecting their habitat, reducing pesticide threats, and by controlling both climate change and the introduction of invasive species.