Snake-eating snakes - Canibalism in snakes - Reptilenesia


I've mentioned before how snakes can eat nearly anything, due to amazing adaptations of their head and jaws that allow them to swallow objects bigger than their heads. But surely they must be limited to eating prey that are shorter than they are in overall length, right? What about items that are just a bit longer?

There are a wide variety of snakes that eat other elongate vertebrates, including other snakes, legless lizards, lizards with relatively small legs (like skinks), amphisbaenians, caecilians, and eels (today we'll focus on snakes, but look out for future articles on some of these other specialized diets). In many ways, this kind of diet is convenient for a snake, because they are already elongate, so they don't have to deform their stomachs, bodies, and mouths to the same extent as snakes that eat bulkier prey. Many are relatively primitive snakes that retain the robust skulls of their lizard-like ancestors, but quite a few derived snakes are snake-eaters as well, including the King Cobra, Ophiophagus hannah, the world's largest venomous snake.

The genus Ophiophagus means 'snake-eating'

Other familiar snake-eaters include the North American Kingsnakes (genus Lampropeltis), which have evolved resistance to the venom of many species of viper. Eastern Indigo Snakes (Drymarchon couperi) and their Central and South American relatives are also frequent snake eaters, and many other species of North American colubrids sometimes dine on each other, including Racers (Coluber constrictor), Coachwhips (genus Masticophis, now sometimes included in the racer genus Coluber), Garter and Ribbon Snakes (genus Thamnophis), and Coral Snakes (genus Micrurus). Among their prey are many of North America's venomous snakes, including the Copperhead (Agkistrodon contortrix), Cottonmouth (or water mocassin, Agkistrodon piscivorus), and many species of rattlesnake (genera Crotalus and Sistrurus), as well as many non-venomous species of snake. Because all snakes are predatory, the existence of snake-eating snakes implies that some snakes are feeding at a very high trophic level indeed, and indeed they may represent top predators in some ecosystems.

Just how does a snake accomplish eating another? It is an arduous process, especially when the prey snake is as long as or longer than the predator. It's true: some snakes are able to ingest other snakes that equal or exceed their own body length. That means that these snakes must fit an object longer than their entire body into just their stomach, which (perhaps it goes without saying) is not as long as their whole body. The prey must be fit into the stomach, and cannot extend into the intestine or the esophagus, because the lining of the stomach is the only part of the digestive system that secretes digestive enzymes.

Body width is not nearly as much as a problem - snakes have highly kinetic skulls and very strong and flexible trunk muscles, so they can both expand their body cavity and compress their prey in order to accommodate very wide meals. But there is a limit to the length of their gut - it cannot extend into their tail, which is solid with muscle, nor can the prey easily be left hanging out of the mouth, where it could impede the snake's movement, interfere with sensory processes, or begin to decompose.


As determined in a paper by one of my favorite herpetologists, Kate Jackson, the author of the popular herpetological book Mean and Lowly Thingsthe solution hit upon by North American Kingsnakes seems to be to throw the prey into waves to decrease its length and pack it into the space available. They accomplish this by concertina-like motions of their own vertebral column, which causes the (dead) prey snake's body to conform in shape to that of its predator. The predator snake can then straighten out again while advancing its jaws, so that the standing waves were left in the body of the prey snake. As you can see from the below X-ray images, taken from Jackson's paper with functional morphologists Nathan Kley and Elizabeth Brainerd, this allows the predator snake to pack pretty long snakes into its gut. It's the same principle as meandering your path increases the total distance you walk without affecting the straight-line distance from your starting point (in this case, the snake's mouth) to your finishing (here, the posterior end of the snake's stomach). Kingsnakes tested in Jackson et al.'s paper were able to ingest Corn snakes (Pantherophis guttatus) up to 139% of their body length and up to 135% of their pre-feeding body mass, which would be like a 6'0", 175 lb. person eating an 8'4", 236 lb. meal - in one bite. Without using their hands.


As the prey snake is digested, a decrease in wavelength and increase in amplitude of the waves of the prey snake’s vertebral column takes place, because the prey snake's body becomes more compressible as its tissues are digested off. In Jackson's experiment, it took the Kingsnakes about 7-10 days to completely digest these huge meals (although a few of them regurgitated their prey after a couple days).


Once, I was lucky enough to observe a young racer that had just eaten a Ring-necked Snake (Diadophis punctatus) at a nature preserve in east-central Illinois:


As you can see, she was pretty much catatonic. The Ring-necked Snake she had eaten was 26.5 cm in length, and she herself measured only 28.9 cm, so her prey was >90% of her total length! You can really get an impression from this photo of the lumpy, kinked quality of the body of a snake that has recently eaten another, caused by the waves of the prey snake's body inside the gut of the predator.

An x-ray of a mudsnake (Farancia abacura) with a
three-toed amphiuma (Amphiuma tridactylum)
From Haertle et al. 2015
Edit: an observation published in 2015 showed that mudsnakes, which eat large, elongate prey such as sirens and amphiumas, also push their prey's vertebral columns into waves in order to fit them into their guts.

ACKNOWLEDGMENTS

Thanks to Belinda Wright for the photograph of the King Cobra.

REFERENCES

Durso, AM & NM Kiriazis. 2011. Coluber constrictor (North American Racer) Prey Size. Natural History Note. Herpetological Review. 42(2):285 <link>

Haertle, N. E., P. M. Hampton, P. N. Vogrinc, and J. D. Willson. 2015. Farancia abacura (Red-bellied Mudsnake). Feeding behavior. Herpetological Review 46:449-450 <link>

Jackson K, Kley NJ, Brainerd EL. 2004. How snakes eat snakes: the biomechanical challenges of ophiophagy for the California kingsnake, Lampropeltis getula californiae (Serpentes: Colubridae). Zoology 107(3):191-200. <link>



Next Post Previous Post
No Comment
Add Comment
comment url