10 Foot Sea Snake with Weird Hole in Its Skull Found to Breath Through the Top of Its Head

Only fish have gills, right? Wrong. Meet Hydrophis cyanocinctus, a snake that can breathe through the top of its own head.

The three meter (9.8ft) species, which is native to Australian and Asian coastal waters, can draw in oxygen with the help of a unique set of blood vessels below the skin in its snout and forehead.

The network of blood vessels works very similarly to a fish's gills, and represents a newly discovered addition to the extraordinary range of adaptations that sea snakes use to thrive below the waves.

In evolutionary terms, sea snakes are relative newcomers to aquatic life, having evolved from land-based snakes only about 16 million years ago. This is much more recent than marine mammals such as whales and dugongs, which arose around 50 million years ago.

The roughly 60 known species of sea snakes have nevertheless developed an impressive array of adaptations to marine life. These include salt glands under the tongue, nostrils that face upwards and can be sealed by valves, paddle-like tails to facilitate swimming, and the ability to absorb oxygen and eliminate carbon dioxide through their skin.

Some sea snakes have even evolved light sensors on the tips of their tails, possibly as a way to avoid having them nibbled off by predators when partially hidden in crevices.

A mysterious hole in the skull

sea snake
Hydrophis cyanocinctus, a species of sea snake found in tropical waters of Southeast Asia. Scientists found it uses a hole in the top of its head to breath. Dr Alessandro Palci, Flinders University

Just when we thought we had uncovered all the strange things sea snakes do, we discovered something new. As we report today in the journal Royal Society Open Science, the annulated sea snake Hydrophis cyanocinctus effectively has a set of gills on its forehead.

The first sign of something unusual was an odd hole (in anatomical terms, a "foramen", the Latin word for "hole") in the roof of this species' skull.

This hole is reminiscent of the "pineal foramen" found in several lizard species, which contains a tiny light-sensitive organ called the pineal eye. Could sea snakes also have a pineal eye?

No trace of such a foramen has ever been found in a modern snake. In fact, snakes are thought to have lost the pineal foramen at least 100 million years ago, which is the age of the oldest reasonably complete fossil snakes.

However, because some sea snakes have light-sensitive organs in their tails, we couldn't rule out the possibility of a light-sensitive organ reappearing in its ancestral position in the skull—snakes did evolve from lizards, after all.

Not an eye, but a lung

We decided to investigate this unexpected foramen in H. cyanocinctus more closely. We obtained some live specimens from Vietnam, where sea snakes are commonly sold as food in fish markets, and generated images of the soft tissues around the foramen using a combination of traditional and computer-assisted methods.

Hydrophis cyanocinctus
Image showing the vascular network of Hydrophis cyanocinctus. The hole was found to be a large blood vessel. Dr Alessandro Palci, Flinders University

These images revealed that this snake does not have a pineal eye. What actually goes through the mysterious hole in its skull is a large blood vessel (sometimes paired). This blood vessel then travels forward and branches into a complex network of veins and sinuses immediately under the skin of the forehead and snout.

We then examined other snakes, both terrestrial and marine, using the same methods, and realised that this network of blood vessels in H. cyanocinctus is unique.

While a network of blood vessels is expected to be present under the skin of all snakes, what is special about H. cyanocinctus is the greatly exaggerated size of the blood vessels and the fact that they converge towards a single large vein that goes into the brain.

Gills on top of the head

This strange network of blood vessels makes sense when we consider that sea snakes can breathe through their skin. This happens thanks to arteries containing much lower oxygen concentrations than the surrounding seawater, which allows oxygen to diffuse through the skin and into the blood.

However, these low oxygen levels in arterial blood can cause problems, because the brain may not get the oxygen it needs. The dense network of veins on the forehead and snout of these sea snakes helps solve this problem by picking up oxygen from seawater and redistributing it to the brain while swimming underwater.

If you think that sounds similar to what fish do with their gills, you're absolutely right. H. cyanocinctus has managed to evolve a respiratory system that works in much the same way as gills, despite the vast evolutionary distance between these two groups of species. Truly, these snakes are indeed creatures of the sea.

Alessandro Palci is a Research Associate in Evolutionary Biology at Flinders University and Kate Sanders is a Senior Lecturer at the University of Adelaide, Australia.

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Views expressed in this article are the authors' own.

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