Thu 5 Jul 2012
If you see human beings hurtling through space over the Swope lawn this week, stop, watch, and imagine moving molecules in a cell. What you are witnessing is a literally high-impact collaboration between scientists and dancers from Black Label Movement (BLM) company in Minneapolis, which is in residence in the MBL Physiology course this week.
On Sunday, July 8 at 4 PM, the collaborators will present an informal performance and lecture-demonstration, “HIT: When Dancers and Scientists Collide,” in the MBL Club, 100 Water Street, Woods Hole. The lec-dem is free and open to the MBL community and public.
HIT is part of a burgeoning, 3-year experiment led by Physiology course faculty member David Odde and BLM artistic director Carl Flink, who are both professors at the University of Minnesota (of biomedical engineering and of dance, respectively). Called “The Moving Cell Project,” their collaboration initially sought ways to express biological concepts to a lay audience through the dramatic physicality of dance. But they soon found that their exchange was taking them much deeper.
Odde realized that having movers represent a cell-biological process is much faster (and less tedious) than creating a computer simulation, which can take months. “We started to explore the idea of using dancers to literally embody our scientific hypotheses, in order to quickly convey them to other people,” Odde says. “We call it bodystorming,” which is like brainstorming ideas, but using actual bodies.
They also found themselves entering bracing new territory for dance. In “HIT,” which focuses on a cellular process called “microtubule catastrophe,” the dancers were asked to experience the “stochastic, violent pulling and pushing dynamics of molecules in a cell,” Odde says. This led to arresting movement and musical dynamics; the dance is strange but beautiful and compelling. But it also meant Flink had to develop “impact techniques” for the dancers so they could careen and collide without getting injured.
At the MBL, the collaborators are further exploring their hypothesis that “movers can help advance scientific discovery at the leading edge,” Odde says. They are assisted by Dyche Mullins, co-director of the Physiology course, who became involved in the project a year ago; Physiology course students; and 7 movers from Black Label Movement. In addition, any MBL students, faculty, or researchers who want to test out their own hypotheses with BLM are encouraged to contact Odde (email@example.com).
To view a brief documentary video on the collaborative development of “HIT,” please go to: http://vimeo.com/30346802