Orange Alert

Syracuse Biologists Point to Climate Change Impacting Ecosystems

Associate Professor Jason Fridley leads international research on grassland vegetation shift

May 23, 2016, by Amy Manley

Associate Professor Jason Fridley
Associate Professor Jason Fridley

A team of biologists in the College of Art and Sciences (A&S) is taking a long look at how climate change may possibly shift how the green grasses grow.

Jason Fridley, associate professor of biology and co-founder of the Climate Change Garden at Syracuse University, is part of an international research project that has been examining the effects of warming climate on plant life in Northern England for more than 20 years.

Newly published in the cutting-edge journal, Nature Climate Change, their research paper titled “Longer growing seasons shift grassland vegetation toward more productive species” (May 2016) offers insight into how various species of plant life may overtake others in a community because of changing global temperatures.

“We wanted to know whether longer growing seasons associated with global warming would create conditions favored by more aggressive, productive species”

explains Fridley, who helped lead Syracuse University into the project in 2007 through a National Science Foundation grant. “This is important because these grasslands are the basis for much of northern Europe's agricultural sector, particularly sheep and dairy, and are where many of their rare plant and animal species occur.”

Joshua Lynn '13
Joshua Lynn '13

The team collected 24 species of plants from the Buxton Climate Change Impacts Laboratory (BCCIL) located in Derbyshire, England, a site set up to experimentally manipulate different aspects of climate, e.g., temperature and precipitation, and track changes in vegetation and ecosystem properties. Those samples were then propagated and tested on site at the greenhouse facilities located within Syracuse University’s Life Sciences Complex by biology undergraduate, Joshua Lynn ’13.

The research paper is additionally co-authored by Lynn, site manager Dr. Andrew Askew, and renowned plant ecologist Phil Grime, a professor emeritus at the University of Sheffield who was part of initial team that founded BCCIL in the U.K. nearly 30 years ago.

Lynn, who is now a Ph.D. candidate at the University of New Mexico, is continuing his ecological research stateside in the southern Colorado Rockies. A standout at Syracuse from the start, he began his involvement in the project as a student working in Fridley’s lab.

“Josh was able to grow 24 species in our state-of-the-art Syracuse greenhouse facility and subject them to a series of tests that allowed us to quantify their attributes related to competitive ability and stress tolerance behaviors,” said Fridley. “Josh was basically working at a graduate level and he was only a junior at the time.“

Buxton Climate Change Impacts Laboratory in Derbyshire, England
Buxton Climate Change Impacts Laboratory in Derbyshire, England

Although Lynn’s part in the study never brought him to the English site, he believes the exposure to this type of long-range research at Syracuse was invaluable to his academic and postgraduate goals.

“My time at Syracuse was beyond expectation. I sought out research opportunities and the first major project I had the fortune to work on was this study. In the Fridley lab, I learned many of the concepts and tools that I still use today,” said Lynn.

This summer, Fridley and his research team will conduct further investigations while continuing their long time collaboration with UK research teams at Lancaster University and the University of Liverpool. The biologists hope to better understand how plant species adapt to warmer and drier conditions, and whether climate change has an effect on the plants’ genetic diversity.

“Because climate change effects continue to evolve in our study system, even after 23 years, this project is a reminder that long-term monitoring is essential to fully understand how plants and animals respond to a changing environment,” clarifies Fridley. “Most studies, if funded at all, are supported for three to five years, which is a tiny slice of the lifetime of most of these plants.”

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