Magellanic penguins navigate vast ocean distances by adapting their travel strategies to ocean currents.
These penguins travel great distances from their colonies to find food before returning to nourish their young.
But navigating back through ever-changing currents without visual cues has long been a mystery. Researchers from Max-Planck-Institut für Verhaltensbiologie, Germany, set out to unravel this mystery.
Penguins sensing the currents
Ocean currents significantly impact how marine animals move, use energy, and find their way, often pushing them off course.
Magellanic penguins, known for their lengthy 1,200-mile journeys, appear to leverage ocean currents to conserve energy.
To understand how these flightless sea birds navigate ocean currents, researchers studied at the San Lorenzo colony in Peninsula Valdés, Argentina.
They equipped 27 adult penguins with GPS and IMU (Inertial Measurement Unit) loggers for a single foraging trip.
Upon their return, the devices were retrieved, and the collected data—including dive patterns, compass directions, speeds, and durations—were analyzed.
This comprehensive analysis allowed the scientists to create models illustrating the penguins’ navigation strategies under various conditions.
Surprisingly, penguins don’t just fight against strong currents; they adapt.
Penguins follow a surprisingly straight path to their colony when the water is calm.
But in stronger currents? Penguins change their strategy. Instead of battling the flow head-on, they swim with the current’s direction.
This might seem counterintuitive – it increases their travel distance – but it’s a brilliant energy-saving tactic.
The authors state that penguins recognize when ocean currents push them off their intended course and adapt their navigation accordingly.
“Magellanic penguins finding their way back to their nests from the open ocean subtly adjust their headings to exploit tidal currents, following paths that reduce energy costs while maintaining remarkable accuracy,” the authors explained.
They don’t just swim a direct route; they intelligently use the tidal currents to drift, which saves energy and lets them find food as they go.
Effective navigation strategy
Despite challenging ocean conditions, 85% of Magellanic penguins returned within 984 feet (approximately 300 meters) of their starting point, demonstrating remarkable navigational accuracy.
Reportedly, this is equivalent to a 99.4% accuracy rate over a 31-mile journey.
This behavior demonstrates effective navigation, even when the penguins can’t see land.
“This central finding is a valuable contribution to our understanding of navigation ability in marine animals,” the team noted.
Much like terrestrial animals drafting in air, marine animals utilize water currents to aid their movement.
Passive organisms like plankton and jellyfish essentially “draft” with the current, while larger animals such as sea turtles and humpback whales actively leverage these currents to assist them on their long-distance migrations.
Since the study was based on a single trip from only 27 penguins, more research is needed to confirm these findings.
The team plans to conduct future studies to replicate the results in penguin populations and other marine animals.
Additionally, researchers hope to uncover the exact mechanisms penguins use to sense and adapt to changing ocean currents.
The findings were published in the journal PLOS Biology.