July 22, 2013
"We found that these wildflowers produce one-third fewer seeds in the absence of just one bumblebee species," says lead author Berry Brosi, with Emory University. "That's alarming, and suggests that global declines in pollinators could have a bigger impact on flowering plants and food crops than was previously realized."
The study's results, conducted in-the-field, contradicts past studies that have argued that plants would remain relatively unscathed in a world of fewer pollinators, so long as remaining pollinators picked up the slack. However, those past studies have depended solely on computer modeling; this new study is the first to test that hypotheses in real world conditions.
Brosi and his team set up plots at the Rocky Mountain Biological Laboratory in Colorado at 9,500 feet. In control plots, all ten bumblebee species were allowed to forage, while in other plots specific species were removed by net. A team of researchers then tracked the bees as they interacted with a flower called larkspurs.
"We'd literally follow around the bumblebees as they foraged," explains co-author Heather Briggs with the University of California-Santa Cruz. "It's challenging because the bees can fly pretty fast."
A bumblebee (Bombus terrestris) covered in pollen. Photo by: P7r7/Creative Commons 3.0.
But why would removing one bee species out of ten have such an outsized impact on plant production? The key is in a pollinator's fidelity to a specific plant species: pollination won't occur unless a bee brings pollen from the same species.
"Most pollinators visit several plant species over their lifetime, but often they will display what we call floral fidelity over shorter time periods," lead author Berry Brosi explains. "They'll tend to focus on one plant while it's in bloom, then a few weeks later move on to the next species in bloom. You might think of them as serial monogamists."
However, the researchers found that by removing a single bee species, it upset the other bee's fidelity. In control plots, 78 percent of bumblebees visited just one species of flower, leading to a much better pollination success rate. However, in the plots where a species was removed, only 66 percent of the bees were faithful to one flower. By removing a competitor the bees were more likely to visit a wider array of plant species.
"The small change in the level of competition made the remaining bees more likely to 'cheat' on the larkspur," co-author Briggs notes.
The knock-off effect? Seed production dropped by 32 percent for lackspur flowers, an impact the scientists describe as "decreased ecosystem function."
While the study was conducted in a few plots in Colorado, it could have implications worldwide.
"Our results suggest that ongoing pollinator declines may have more serious negative implications for plant communities than is currently assumed," the researchers write. The study also provide another example of the importance of biodiversity altogether
"Our work shows why biodiversity may be key to conservation of an entire ecosystem," Berry Brosi says. "It has the potential to open a whole new set of studies into the functional implications of interspecies interactions."
Scientists have been warning for decades that the world is likely entering a new age of mass extinction with untold consequences. In recent years, pollinators have become in particular trouble. Over the last decade, bees have suffered from what has become known as Colony Collapse Disorder (CCD). Although a number of factors have likely played a role—including disease and loss of habitat—a flood of new research has pointed to pesticide-use as a key factor to the decline. Many butterfly species are also in decline—such as monarch butterflies-—while some species have vanished altogether. Despite their ecological importance, pollinators are often given less conservation and media attention than bigger, more "charismatic" endangered species.
CITATION: Berry J. Brosi, and Heather M. Briggs. Single pollinator species losses reduce floral fidelity and plant reproductive function. PNAS. 2013.
|AUTHOR: Jeremy Hance joined Mongabay full-time in 2009. He currently serves as senior writer and editor. He has also authored a book.|
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