The American alligator is a large reptile recognizable by its heavily armored body covered in thick scales. These alligators live in swamps, rivers, and lakes of the southeastern United States. Even with a scaly and tough-looking exterior, parts of the alligator’s body are highly sensitive to touch—even more sensitive than a human’s fingertips. This is achieved with an array of sensory organs in the alligator’s scales.
The touch-sensitive organs are called integumentary sensory organs. On the surface of a scale, the sensory organs appear as small, dark dome-shaped spots typically ~0.5 mm in diameter. Thousands of these sensory organs cover the alligator’s face. They are especially dense around the teeth, inside the mouth, and at the tip of the snout.
Under each dome lies a dense network of touch-sensitive receptor cells (known as mechanoreceptors) and nerves. When part of the dome is pushed down by an object the alligator encounters or even moving water, this stimulates the touch-sensitive receptor cells. The cells are sensitive to deflections as small as 4 μm, just a fraction of the width of a human hair. The stimulated receptor cells then send signals along connected nerve cells to the central nervous system, which includes the alligator’s brain. There are a variety of receptor cells and nerves in each dome-shaped organ: some respond to continuous stimulation (like a constant push) while others are more sensitive to changing stimuli (like vibrations).
Researchers hypothesize that these extremely touch-sensitive areas around the mouth help the alligator locate, capture, and examine prey even when visual and sound cues are absent. The alligator will open its mouth slightly while searching for food in the water, using its integumentary sensory organs to detect disturbances in the water from a moving object. Once the alligator finds and bites the object, it can examine the object with its mouth to see if it’s edible.Edit Summary
“Integumentary sensory organs (ISOs) are densely distributed on the jaws of crocodilians…[Each ISO] was innervated by networks of afferents [nerve fibers] supplying multiple different mechanoreceptors…Rapidly adapting, slowly adapting type I and slowly adapting type II responses were identified based on neuronal responses. Several rapidly adapting units responded maximally to vibrations at 20–35Hz, consistent with reports of the ISOsʼ role in detecting prey-generated water surface ripples. Despite crocodiliansʼ armored bodies, the ISOs imparted a mechanical sensitivity exceeding that of primate fingertips. We
conclude that crocodilian ISOs have diverse functions, including detection of water movements, indicating when to bite based on direct contact of pursued prey, and fine tactile discrimination of items held in the jaws.” (Leitch and Catania 2012:4217)