Researchers have identified that the Venus flytrap rapidly softens cell walls in the trap's outer skin, allowing it to expand more easily than the inner surface and bend the leaf until it snaps shut.

not specified

Who

physicist Jeongeun Ryu of the French National Center of Scientific Research (CNRS), Jacques Dumais of Adolfo Ibáñez University

What

When

Mon, 15 Jun 2026 11:01:31 GMT · 2h 35m ago

Where

not specified ·

Why

This mechanism allows the Venus flytrap (Dionaea muscipula) to catch insects and arachnids by closing its trap very quickly.

The Frontline Impact

How this affects you

This discovery sheds light on how plants can achieve rapid movement through dynamic tuning of material properties, suggesting new principles for muscle-free bioinspired actuation. It also deepens our understanding of plant evolution and adaptation.

Story chain

3 events in this thread

Currently Reading2h 35m ago
Researchers have identified that the Venus flytrap rapidly softens cell walls in the trap's outer skin, allowing it to expand more easily than the inner surface and bend the leaf until it snaps shut.
Health & Science2h 35m ago
Scientists have identified that Venus flytraps rapidly soften cell walls in the trap's outer skin to snap shut, allowing the outer surface to expand more easily than the inner.
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Health & Science2h 35m ago
A team of researchers led by physicist Jeongeun Ryu has identified that Venus flytraps rapidly soften the cell walls in the trap's outer skin to activate its jaws, representing the fastest modulation of wall mechanics reported in plants.
Open article

Verified Sources & Citations

ScienceAlert
https://www.sciencealert.com/scientists-finally-discover-how-venus-flytraps-snap-shut-so-fast
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