Discovery Unveils Unique Breathing Adaptation in Water Anoles

by SHINE

In the lush tropical forests of Costa Rica, a remarkable small lizard known as the water anole exhibits an extraordinary adaptation for underwater survival. This tiny reptile has mastered a unique breathing technique, utilizing an air bubble that forms above its nose to remain submerged for extended periods.

Unveiling the Bubble Trick

Research led by Lindsay Swirk from Binghamton University in New York has revealed that water anoles employ this air bubble as a crucial part of their breathing mechanism. Swirk, who initially uncovered that these lizards use the bubble when threatened, has now confirmed its vital role in their underwater survival. “We knew the lizards could remain submerged for a long time and that they extract oxygen from the bubble,” says Swirk. “What was unclear was whether the bubble was functional or merely a byproduct of their waterproof skin. Our research now shows that this bubble significantly enhances their ability to stay underwater.”

Testing the Bubble’s Effectiveness

To investigate the functional role of the air bubble, Swirk conducted a controlled experiment involving a special ointment that prevented the formation of bubbles on the lizards’ skin. This coating, designed to nullify the natural water-repellent properties of the anoles’ skin, allowed Swirk to compare the underwater endurance of lizards with and without the bubble. The results were striking: lizards equipped with an air bubble could remain underwater 32 percent longer than those without it.

“This experiment provides concrete evidence that the bubble offers an evolutionary advantage,” Swirk explains. “While we had our suspicions, this study confirms that the bubble helps the lizard stay submerged longer, enhancing its chances of evading predators.”

Predators and Survival Strategies

Water anoles, often described as the “chicken of the woods” due to their frequent predation by birds and snakes, utilize their underwater bubble strategy to evade capture. “Birds and snakes eagerly prey on these lizards,” says Swirk. “By diving into water and remaining still, they become less visible. We know they can stay submerged for at least 20 minutes, but likely for longer.”

New Questions and Future Research

Swirk’s findings have also opened new avenues of inquiry. She is particularly interested in exploring whether the water anole’s air bubble functions similarly to the physical gills found in aquatic insects. These gills, which allow insects to extract oxygen from water, provide a continuous oxygen supply for underwater respiration. While reptiles generally require more oxygen than insects, it’s possible that some oxygen exchange occurs within the nasal bubble of water anoles. Swirk’s students are investigating whether this bubble affects the oxygen levels in the surrounding water, potentially extending the lizard’s underwater time.

Implications and Inspirations

This groundbreaking research not only deepens our understanding of reptilian adaptations but also has broader implications. The study of air bubbles in vertebrates is a relatively unexplored area, offering potential insights into bio-inspired materials. Swirk is enthusiastic about the potential for this research to inspire new innovations and engage the public’s interest in animal behavior.

“People often express fascination with scuba and freediving,” Swirk notes. “Our findings highlight that animals develop fascinating behaviors that parallel human activities. This research is a great way to spark curiosity and appreciation for science and the remarkable adaptations of the animal world.”

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