Eating ‘Family Style’ May Have Set the Stage for Life as We Know It | The New York Times

Tracer particle tracks showing the flowfield generated by an individual Stentor as it feeds. Credit: Shekhar et al, Nature Physics, 2025

By Jack Tamisiea | The New York Times April 01, 2025

This article reports on new research by an �黨�ǿ��Ƶ-based collaboration: Shashank Shekhar ( �黨�ǿ��Ƶ Physiology course alumnus and former Whitman Early Career Fellow), Jack Costello and Sean Colin (Whitman Center investigators), and Wallace Marshall (former co-director, �黨�ǿ��Ƶ Physiology course).

For a creature made up of only a single cell, the stentor is a giant. This trumpet-shaped organism is among the largest unicellular organisms, stretching as long as a sharpened pencil tip. But sometimes it has a hard time vacuuming up the swimming bacteria and microscopic algae it eats to survive.

New research reveals that stentors, which are part of a group called protists, may address this challenge by eating “family style.” In a paper published on Monday in the journal , scientists shared the discovery that colonies of stentors can make water flow more quickly around them, helping them suck up more prey.

The new findings suggest that, although they lack neurons or brains, stentors can cooperate with one another.

“These single-cell organisms can do things that we assume are limited to more complex organisms,” said Shashank Shekhar, a biophysicist at Emory University in Atlanta who is the lead author of the new paper. “They form this higher order structure, like what we do as humans.”

Source: Eating ‘Family Style’ May Have Set the Stage for Life as We Know It | The New York Times