A new study by Webster University Biology Associate Professor Nicole Miller-Struttmann, University of Missouri at Columbia Professor Emerita Candace Galen and University of Missouri Ph.D. student Zack Miller has identified a critical piece of the puzzle for a question that has troubled scientists tracking biodiversity as the climate warms– why are once abundant species declining?
Their study, compiling many years of observation from three peaks in the Rocky Mountains, found that at high elevations above timberline – referred to as "alpine" regions - bumble bees are losing ground in a process that reflects their low tolerance to warming temperatures. As the alpine climate warms, colonizing bumble bees from lower elevations thrive, potentially displacing alpine resident species. If the trend continues, populations of the alpine bumble bees could become extinct, and soon.
“We predict the local extinction of species in areas where the alpine bees can‘t migrate further upslope, where the weather is cooler and the growing season still remains short,” Miller-Struttmann said. “They are not responding to the temperature changes fast enough because they are stuck in an evolutionary trap.”
To grasp the issue, one must understand how alpine bumble bees have adapted over millenia to high elevation living. Because temperatures have historically been very cold at high elevations, the summer growing season has been short. Alpine bumble bees likely adapted by packing their foraging activity and reproductive phase into a rapid burst that now misses out on flowers at later times in a longer, warmer season.
Lower-elevation bumble bees are more flexible in their foraging schedules and have moved upward with climate change. Their more opportunistic habits allow them to exploit resources that their alpine relatives miss out on.
And here’s the big problem – the alpine bumble bees are "stuck in a rut" because of the way they have been programmed by evolution. These high elevation species still only collect nectar and pollen from flowers during a short time period that was the normal growing season in high elevations 50 years ago.
In other words, alpine bumble bees are being heated out of their homes and replaced by subalpine bees with more flexible life history schedules.
“As the climate warms and becomes more variable, organisms specialized to past conditions are declining, be it bumble bees or penguins,” Galen said. “We are losing biodiversity at a rapid clip, and with it the ecological services including pollination services that enrich and sustain our lives".
The study was launched in 2012 and completed this year. In it, the professors looked at 60 years of data regarding alpine plants and bumble bees in the Colorado Rocky Mountains.
The study,“Climate driven disruption of transitional alpine bumble bee communities,” was published by the Global Change Biology Journal through the Wiley Publishing Company. It can be found online at https://doi.org/10.1111/gcb.16348. Funding was provided by a pair of grants from the National Science Foundation, the Mountain Area Land Trust, the University of Missouri and Webster University.
About Miller-Struttmann
Miller-Struttmann is the Laurance L. Browning, Jr. Endowed Professor in Biological Sciences in Webster University's College of Arts & Sciences. She was hired in 2016 after teaching at State University of New York (SUNY). She holds a bachelor’s in science from Loyola University and Ph.D. in Ecology, Evolution and Population Biology from Washington University St. Louis.
During her time at Webster, Miller-Struttmann has made national news for her work into tracking bees through sound, the impact climate change has had on bees, research into bee hive collapse, and bee behavior during solar eclipses. Her work was featured in Smithsonian Magazine.
She also has engaged with the public with science. Miller-Struttmann helped create the St. Louis Bee Brigade, which trains volunteers on how to photograph and identify various bee species in the region and then catalogue them in a database that is shared by several universities. She also helped create the pollinator garden with the St. Louis Public Central Library and has worked with fifth and sixth graders and their science teachers in the area to teach the students the fundamentals of field research. In 2019, she was named the 2019 Science Educator Award by the St. Louis Academy of Science.
To learn more about the science programs offered at Webster University, visit https://www.webster.edu/science-health/index.php
Journal
Global Change Biology
Method of Research
Observational study
Subject of Research
Animals
Article Title
Climate driven disruption of transitional alpine bumble bee communities
Article Publication Date
18-Aug-2022
COI Statement
No conflict of interest found.