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INQUIRY 2016 Research, Scholarship and the Arts at UVM

As Bees Go, So Goes Our Food Supply

UVM RESEARCHERS PRODUCE HARD EVIDENCE ON THE DECLINE OF A CRUCIAL POLLINATOR.

UVM researchers leading the first national study to map U.S. wild bees suggest that the insects are disappearing in many of the country's most important farmlands — including California's Central Valley, the Midwest's corn belt and the Mississippi River valley.

Taylor Ricketts, Ph.D.If losses of these crucial pollinators continue, the nationwide assessment indicates that farmers will face increasing costs — and that the problem may even destabilize the nation's crop production.

The findings were published in December 2015 in the Proceedings of the National Academy of Sciences.

"It's clear that pollinators are in trouble. But what's been less clear is where they are in the most trouble — and where their decline will have the most consequence for farms and food," says Taylor Ricketts, Ph.D., professor in the Rubenstein School of Environment and Natural Resources and director of UVM's Gund Institute for Ecological Economics. Ricketts is the senior author of the study.

The research team, led by Insu Koh, Ph.D., a postdoctoral research associate at the Gund Institute, estimates that wild bee abundance between 2008 and 2013 declined in 23 percent of the contiguous U.S. The study also shows that 39 percent of U.S. croplands that depend on pollinators — from apple orchards to pumpkin patches — face a threatening mismatch between rising demand for pollination and a falling supply of wild bees.

Insu Koh, Ph.D.In June of 2014, the White House issued a presidential memorandum warning that "over the past few decades, there has been a significant loss of pollinators, including honey bees, native bees, birds, bats, and butterflies." The memo noted the multibillion dollar contribution of pollinators to the U.S. economy — and called for a national assessment of wild pollinators and their habitats. The report that followed the White House memo called for seven million acres of land to be protected as pollinator habitat over the next five years.

"Until this study, we didn't have a national mapped picture about the status of wild bees and their impacts on pollination," says Koh. This despite the fact that each year more than $3 billion of the U.S. agricultural economy depends on the pollination services of native pollinators like wild bees.

"Now we have a map of the hotspots," adds Koh. "It's the first spatial portrait of pollinator status and impacts in the U.S." — and a tool that the researchers hope will help protect wild bees and pinpoint habitat restoration efforts.

MAPPING THE RANGE OF THE BUSY BEE

left: Wild Bee Abundance Across the U.S.; right: U.S. Wild Bees - 139 Counties at Risk

Find out more about the maps created in this study, which show the relative abundance of wild bees for every area of the contiguous United States.

top: Wild Bee Abundance Across the U.S.; bottom: U.S. Wild Bees - 139 Counties at Risk
Mapping the Range of the Busy Bee

The team of seven researchers who published the study in PNAS — from UVM, Franklin and Marshall College, University of California at Davis, and Michigan State University — created the new maps by first identifying 45 land-use types from two federal land databases, including both croplands and natural habitats. Then they gathered detailed input from 14 experts on bee ecology about each type of land — and how suitable it was for providing wild bees with nesting and food resources.

Averaging the experts' input and levels of certainty, the scientists built a bee habitat model that predicts the relative abundance of wild bees for every area of the contiguous United States, based on their quality for nesting and feeding from flowers. Finally, the team checked and validated their model against bee collections and field observations in many actual landscapes.

The model's confidence is greatest in agricultural areas with declining bees, matching both the consensus of the experts' opinion and available field data. However, the study also outlines several regions with greater uncertainty about bee populations. This knowledge can direct future research, especially in farming areas where need for pollination is high.

"We can now predict which areas are suffering the biggest declines of wild bee abundance," says UVM postdoctoral researcher Insu Koh, Ph.D., "and identify those areas with low bee supply and high bee demand, that are the top priority for conservation."

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The new study identifies 139 counties in key agricultural regions of California, the Pacific Northwest, the upper Midwest and Great Plains, west Texas, and the southern Mississippi River valley that have the most worrisome mismatch between falling wild bee supply and rising crop pollination demand. These counties tend to be places that grow specialty crops — like almonds, blueberries and apples — that are highly dependent on pollinators. Or they are counties that grow less dependent crops — like soybeans, canola and cotton — in very large quantities.

Of particular concern, the study shows that some of the crops most dependent on pollinators — including pumpkins, watermelons, pears, peaches, plums, apples and blueberries — have the strongest pollination mismatch, with a simultaneous drop in wild bee supply and increase in pollination demand. "These are the crops most likely to run into pollination trouble," says Taylor Ricketts, "whether that's increased costs for managed pollinators, or even destabilized yields."

Pesticides, climate change, and diseases threaten wild bees — but the new study also shows that their decline may be caused by the conversion of bee habitat into cropland. In 11 key states where the new study shows bees in decline, the amount of land tilled to grow corn spiked by 200 percent in five years — replacing grasslands and pastures that once supported bee populations. "These results reinforce recent evidence that increased demand for corn in biofuel production has intensified threats to natural habitats in corn-growing regions," the new study notes.

A HIVE OF RESEARCH ACTIVITY

Bee on flowerRead about the groundbreaking studies recently released by UVM researchers which highlight bees' importance to food, health and the environment.

A Hive of Research Activity

There is a growing buzz at the University of Vermont as scientists join the global effort to stop bee declines. UVM researchers have recently released groundbreaking studies highlighting bees' importance to food, health and the environment.

SOME SELECTED EXAMPLES OF KEY UVM PROJECTS ON BEES AND POLLINATION:
  • A United Nations 2015 report, with contributions from TAYLOR RICKETTS, PH.D., of UVM's Gund Institute finds that bees and other species important for agricultural pollination are declining. (In 2016 Ricketts made Thomson Reuters' prestigious list of the world's mostcited scholars in his field for the second consecutive year.) Another study by Ricketts and global colleagues calculates wild bees' economic value to the food system in the billions. The results provide a powerful economic rationale for conserving wild bees. Ricketts and his co-author ALICIA ELLIS, PH.D., from the College of Medicine found in 2015 that pollinators contribute to human nutrition and health, in the world's first study to test this connection. Research in Vermont by Ricketts' advisee, doctoral student CHARLIE NICHOLSON, aims to assess the economic impact of wild bees on blueberry crops.
  • Climate change is dramatically shrinking bumblebee habitats in North America and Europe, a study co-authored by postdoctoral researcher LEIF RICHARDSON, PH.D., finds. As temperatures rise, bumblebees are losing their southern ranges, yet unable to gain new territory in the north. Richardson has also found that plant chemicals naturally present in flower nectar and pollen can reduce bumblebee parasites, causing some bees to “self-medicate” by seeking out these chemicals.
  • Forthcoming research by INSU KOH, PH.D., investigates how wild bees can enhance pollination of almonds. Certain managed wild bees are effective almond pollinators, but farmers must install artificial nests to house the bees. As farmers face higher honeybee costs, Koh is exploring optimal investment strategies to help this important U.S. industry to increase pollination diversity and stability. • A study of Vermont blueberries led by Professor of Biology ALISON BRODY, PH.D., suggests a novel combination of plants, pollinators and fungi could increase crop yields. Early results indicate that select fungi can make blueberry plants more attractive to bees by increasing flower size and nectar rewards. Co-investigators include TAYLOR RICKETTS, PH.D., LEIF RICHARDSON,PH.D., JEANNE HARRIS, PH.D., and BEN WATERMAN of UVM Extension.
  • SAMANTHA ALGER, a doctoral student in the Department of Biology, is researching Vermont bee viral diseases, the role of plants in virus transmission, and the effects of pesticides on bee health and behavior. She leads Vermont's involvement in the U.S. National Honey Bee Survey, gathering baseline data on diseases and pathogens, and works closely with beekeepers, providing educational workshops on bee health and disease management practices.
  • Agronomist SIDNEY BOSWORTH, PH.D., at UVM Extension is leading the Forage Legume Bee Project, a collaboration with the Vermont Beekeepers Association, which seeks to increase clover varieties to provide nectar for pollinators. This effort explores the use of hay and pasture crops that are more “bee friendly,” that still provide quality forage food for dairy and other livestock. • Working with Extension Professor LEONARD PERRY, PH.D., Plant and Soil Science doctoral student ANNIE WHITE is investigating ways to enhance flowering plant selection for pollinators, and to incorporate native pollinator conservation into sustainable landscapes and agricultural practices.
Close Story

"By highlighting regions with loss of habitat for wild bees, government agencies and private organizations can focus their efforts at the national, regional, and state scales to support these important pollinators for more sustainable agricultural and natural landscapes," says Michigan State University's Rufus Isaacs, one of the co-authors on the study and leader of the Integrated Crop Pollination Project, a USDA-funded effort that supported the new research.

Over the last decade, honeybee keepers have lost many colonies and have struggled to keep up with rising demand for commercial pollination services, pushing up costs for farmers. "When sufficient habitat exists, wild bees are already contributing the majority of pollination for some crops. Even around managed pollinators, wild bees complement pollination in ways that can increase crop yields," says Neal Williams, a co-author on the study from the University of California, Davis.

"Most people can think of one or two types of bee, but there are 4,000 species in the U.S. alone," says Ricketts. "Wild bees are a precious natural resource we should celebrate and protect. If managed with care, they can help us continue to produce billions of dollars in agricultural income and a wonderful diversity of nutritious food."