Ground-nesting bees on farms lack food, grow smaller

Published: Thursday, March 24, 2016 - 15:16 in Biology & Nature

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Comparison of small and large <i>Andrena nasonii</i> bees from the study region.
Heather Grab

According to a recent study, the size of a common ground-nesting bee - an important crop pollinator - has grown smaller in heavily farmed landscapes. The link between intensive agriculture and the size of Andrena nasonii bees has important implications for how farmers might diversify these landscapes to benefit bees. It also points out yet another potential threat to pollinators, along with mites, pesticides and loss of habitat.

Cornell researchers, who published the study March 4 in the journal PLOS ONE, discovered that female A. nasonii bees in intensively farmed areas may not be able to find enough pollen sources in the landscape to adequately feed their offspring.

"Once we knew there was an effect of agriculture on the size of the bees, we took a random sample of our largest bees from our natural habitats and smallest bees from these agricultural intensive habitats, and looked at how much pollen the female bees were carrying on their bodies," said Heather Connelly, a co-author on the paper.

"Small bees had a 40 percent smaller pollen load than large bees did, so potentially these small bees might actually be less able to provision their own offspring and we might end up seeing some cascading negative effects on the population of bees there," said Connelly.

A. nasonii bees are the most important pollinators of strawberries. The study took place in established experimental agricultural plots across a number of different landscapes. Researchers caught bees visiting strawberries and measured each bee's head and thorax, the space between the wings. The researchers used satellite data to characterize agricultural intensity by analyzing the radius from the center of each plot at scales of 1 kilometer and 760 meters.

"At both these scales, we tended to have smaller bees in landscapes with lots of agriculture around," Connelly said.

Connelly said she has used published equations to calculate average foraging distance of bees based on body size and found that a large bee can forage twice as far as a small bee.

Source: Cornell University

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