Maureen Page: Impacts of Managed Honey Bees

UC Davis doctoral candidate Maureen Page, who  investigates the impacts of increasing honey bee abundance on plant-pollinator interactions and plant pollination, will present her exit seminar on "Impacts of Managed Honey Bees on Plant-Pollinator Mutualisms" at 10 a.m., Thursday, May 26 in 122 Briggs Hall and via Zoom. 

The Zoom link: (Contact Page at for the ID number and passcode.)  

Page studies with major professor and pollination ecologist Neal Williams of the UC Davis Department of Entomology and Nematology. Her work suggests that honey bees reduce pollen and nectar availability in flowers, leading to competitive displacement of native bees.

"Competitive displacement of native bees may in turn decrease plant pollination because native bees are often more effective than native bees as pollinators," Page says. "My research suggests that such changes are already occurring for Camassia quamash (small camas) following honey bee introductions in the Sierra Nevada."

Page is scheduled to receive her doctorate in entomology in June 2022 and then begin a postdoctoral fellowship with assistant professor Scott McArt at Cornell University, where she will investigate patterns of interspecific pathogen transmission and how more sustainable beekeeping practices might mitigate the negative effects of competition. McArt recently delivered a seminar hosted by the UC Davis Department of Entomology and Nematology on "Pesticide Risk to Pollinators: What We Know and What We Need to Know Better." 

In July 2019, Page collaborated with colleagues at Cornell and the University of Minnesota to present a workshop on the intersections of science and social justice, aiming to make science more open and accessible.

Page holds a master's degree in entomology (2019) from UC Davis and a bachelor's degree in biology (2016), cum laude, from Scripps College, Claremont, Calif.

Highly recognized for her work, Page received a three-year $115,000 National Defense Science and Engineering Graduate Fellowship, funded by the Department of Defense. She was one of 69 recipients out of more than 3600 applicants. She earlier won a campuswide 2016-17 Graduate Scholars Fellowship of $25,200; a Vansell Scholarship in both 2018 and 2019; and Davis Society Botanical grants in 2017, 2018 and 2019. A 2018 Duffey-Dingle Research Fellowship also helped fund her research (optimizing pollinator plant mixes to simultaneously support wild and managed bees). 

Active in the Entomological Society of America and the Ecological Society of America, Page scored a second-place award for her project, "Optimizing Wildflower Plant Mixes to Support Wild and Managed Bees" in a 2021 student competition hosted by the Entomological Society of America.  She also presented “Impacts of Honey Bee Introductions on the Pollination of a Sierra Wildflower" at the August 2020 meeting of the Ecological Society of America, and "Can Visitation and Pollen Transport Patterns Predict Plant Pollination?" at the April 2019 meeting of the Pacific Branch, Entomological Society of America.

A strong supporter of community outreach and STEM, Page has been active in leadership activities in the summer program, Girls Outdoor Adventure and Leadership (GOALS) since August 2017.  The free program targets underrepresented teens. Page has served as a program co-organizer, mentor and lecturer.  She helped organize the 2021 summer program, led a lecture on introductory data analysis, and assisted students with their community science project (identifying pollinators in urban gardens).

Page was also active in Center for Land-Based Learning, serving as a mentor in the Student and Landowner Education and Watershed Stewardship. She mentored high school students, engaging them in hands-on conservation science at Say Hay Farm in Yolo County, and teaching them about how wildflower plantings benefit bees.

Page and postdoctoral researcher Charlie Casey Nicholson of Williams lab co-authored the November 2021 cover story, A Meta-Analysis of Single Visit Pollination Effectiveness Comparing Honeybees and other Floral Visitors, in the American Journal of Botany