UC Merced has received a $12.5 million grant funded by the National Science Foundation (NSF) to develop the Biology Integration Institute (BII): INSITE — the INstitute for Symbiotic Interactions, Training and Education — a research collaborative that aims to expand the fundamental knowledge of symbioses and inform immediate and long-term conservation strategies
A multi-disciplinary team from UC Merced, Michigan State University (MSU) and Resilient Oceans will look at
“There's a lot of funding directed toward climate change, but everyone is looking at what you can see.
BII-INSITE officially began Sept. 1 through a five-year agreement with NSF. As one of the campus’s largest institute grants, it will create a framework for how researchers in the field
The INSITE team spans a broad range of researchers including biologists, chemists, mathematicians and conservation ecologists:
From UC Merced (in addition to Nishiguchi)
professors Gordon Bennett, Maggie Sogin and Erica Rutter in the departments of Life and Environmental Sciences, Molecular and Cell Biology and Applied Mathematics, respectively,
Professors Chris Amemiya, Marcos Garcia-Ojeda and Juris Grasis, in the Department of Molecular and Cell Biology; Professor Michael Dawson in the Department of Life and Environmental Sciences; professors Shilpa Khatri and Suzanne Sindi in the Department of Applied Mathematics; and Professor Michael Thompson in the Department of Chemistry and Biochemistry
An Integrative Team Approach
Nishiguchi explained what makes the team’s approach distinctive from other BIIs is its vision to develop experimentally
“We’re using symbiosis as a model. The vulnerability of most species to climate change cannot be evaluated directly, nor through one biology discipline,” she said. “That’s where Anni
Rutter is lead on modeling and will take the experimental data from the lab and field to develop mathematical models
The team has selected a suite of organisms that cover basic modes of known symbiotic associations, ecological alliances (terrestrial and marine) and scaling complexity — bobtail squid (Nishiguchi
“I think what is particularly
Heath-Heckman will lead the institute’s long-term evolution experiments with different systems in response to climate change.
“I study the mechanisms by which bacteria influence development and physiology in their hosts,” she said. “I am interested in how both short- and long-term climate change can affect the host and the way the host associates with its bacterial symbionts.”