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Penguin muscle study sheds light on how birds ‘waddle’ underwater

New research reveals the muscular mechanics behind penguins’ distinctive swimming motion beneath the surface

Macaroni Penguin, Hannah Point, Livingston Island, Antarctic Peninsula. (© Jerzy Strzelecki, CC BY 3.0)

Unusual movement, familiar on land and at sea
Penguins are well known for their characteristic waddle on land, but new research suggests a similar side-to-side motion also plays a role in how they move underwater. Scientists investigating the biomechanics of penguin swimming have found that subtle lateral movements of the body may be key to their efficiency beneath the surface.

The study, reported by researchers examining muscle function and movement patterns, focused on how penguins coordinate their limbs and body while swimming. While their propulsion is primarily driven by powerful flipper strokes, the findings indicate that body movements - particularly a gentle swaying motion - contribute to stabilisation and control.

Muscle structure reveals hidden function
By analysing muscle activity and anatomical structure, the researchers identified how specific muscle groups are engaged during swimming. These muscles appear to support not just forward propulsion, but also fine-scale adjustments in balance and direction.

The results suggest that what appears to be a simple, streamlined swimming style is underpinned by complex muscular coordination. The lateral ‘waddling’ motion, rather than being inefficient, may actually help penguins maintain stability and optimise energy use while moving through water.

Energy efficiency beneath the waves
Penguins are highly adapted for life at sea, and efficient movement is critical for conserving energy during long foraging trips. The study’s findings indicate that the interplay between flipper propulsion and body motion allows penguins to travel effectively while minimising energy expenditure.

This combination of powerful strokes and controlled body movement may also help penguins manoeuvre more precisely when chasing prey or navigating complex underwater environments.

Insights into aquatic adaptation
The research provides a clearer understanding of how penguins have evolved to thrive in aquatic environments. By linking muscle function with observed movement patterns, the study offers new insight into the biomechanics of one of the world’s most specialised groups of seabirds.

Although their upright stance and waddling gait are often associated with life on land, the findings suggest that similar principles of movement extend beneath the surface - highlighting the close relationship between penguins’ terrestrial and aquatic locomotion.

 

April 2026

 

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