Snake Myths And Facts



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5) Rattlesnakes Always Rattle a Warning Before They Strike

Never believe this myth. It’s simply not true. Rattlesnakes evolved rattles to announce their presence in a landscape filled with large, hoofed herbivores during the Pliocene period in North America (Ernst 4). Made of old skin links retained after each shed, this rattle, especially one from an older rattlesnake, can produce a surprisingly loud, crisp buzz that can be heard many yards away. A bison or other large mammal moving through thick vegetation quickly learned to heed the loud buzzing warning of the rattlesnake’s rattle. This survival tactic benefited both the rattlesnake and the bison. The rattlesnake was not stepped on or crushed, and the bison did not sustain a painful, if not crippling, snakebite.

But wait. If the rattle on a rattlesnake’s tail is designed specifically to warn nearby animals of the snake’s presence, then why won’t one rattle before striking a human? The answer is simply one of mathematics. All snakes “hear” approaching animals by detecting vibrations through the ground and substrate, so a rattlesnake rattles when it hears an approaching animal. They can easily detect and warn approaching bison, which weigh 1,000 to 2,000 pounds. They are less likely to feel the approaching footfalls of a 170-pound person and even less likely to detect the sneaker-dampened approach of a 75-pound child. Thus, humans have greater chances of surprising rattlesnakes and being bitten. If a rattler detects an intruder too late, and this intruder is threateningly close, a surprised snake is more likely to strike in self-defense than buzz its tail.

6) Snakes Cannot Strike Underwater

Anyone even remotely familiar with the feeding habits of aquatic and semiaquatic snake species found throughout the world can immediately detect the falsity of this myth. How could a snake, such as a red-bellied water snake (Nerodia erythrogaster erythrogaster), which eats a diet consisting of fish, tadpoles and aquatic frogs, possibly subdue its prey without the ability to strike underwater? Some, if not all, members of other genera, including Agkistrodon, Thamnophis, Bitis and Rhabdophis, eagerly capture fish and fully submerged reptiles and amphibians.

To anyone still not convinced of the bogus nature of this myth, I submit the sea snakes of the genera Laticauda, Aipysurus, Astrotia, Emydocephalus, Hydrophis, Lapemis, Acalyptophis and Pelamis. Members of these genera spend most of their lives under the ocean’s waves and dine on fish, freshly molted crabs and other marine fare. Pardon the puns, but if someone breaks the surface of this myth and dives deeper, it is pretty easy to blow it out of the water.

7) Some Snakes Can Sting With Their Tails

This myth is a particular favorite of mine, and it originates from two snake species found throughout the southern United States. One is the copperhead. When born, young copperheads are tan and copper over most of their bodies, but their tail tips are vibrant yellow to chartreuse-green. Although some rural people say this highly visible coloration is a key sign of the tail’s venomous “sting,” the tail’s actual purpose is to attract prey. As the baby copperhead lies motionless and superbly camouflaged among leaf litter near the edge of a forest stream, it raises the tip of its tail out of the leaves and wriggles and twitches it about. This lure closely resembles a struggling worm or caterpillar. When a hungry frog or toad duped by the wriggling tail moves in for the kill, the young copperhead strikes, making a meal of the unfortunate amphibian.

The second species deeply contributing to the stinging snake myth is the eastern mud snake (Farancia abacura abacura). Found throughout the swamps and wetlands of the southeast coast, this snake has a sharply pointed tail. In the natural history tome Living Snakes of the World in Color, John M. Mehrtens describes the mud snake this way: “The tip of the tail terminates in a sharp, conical scale ... (that) aids the snake in manipulating its slippery prey of salamanders and fish into an alignment allowing for ease of swallowing. ... It is also used as a somewhat feeble deterrent against ... predators in being repeatedly pressed against the skin of the aggressor” (Mehrtens 186).

Besides pressing its sharp tail against the skin of its attackers, this snake adopts a unique defensive posture when flight into water or soft mud is not an option. It holds its tail aloft from its body and curls the rigid tip into an aggressive spearlike implement. This tail-coiling posture is particularly prevalent in the western subspecies F. a. reinwardti, which is found in eastern Texas north to southern Illinois. The mud snake’s posturing and skin-poking has earned the species the local monikers “horn snake,” “stinging snake” and even “scorpion snake.” At the end of the day, however, it seems the stinging snake myth is all bark and no bite.

8) Baby Venomous Snakes Are More Dangerous Than Adults

This myth is roughly two-thirds nonsense and one-third truth. I believe this myth was born out of the human fascination with irony. For some reason we like to think it’s the one we don’t see coming that always gets us. We like to root for the underdog, and we simply like the notion of the tiny one being the deadly one.

But the fact of the matter is that baby venomous snakes are not more venomous than their parents. In fact, quite the opposite is true in a great many snake species; adults have far more virulent venom than the young snakes. For example, both adult and juvenile timber rattlesnakes (Crotalus horridus) have venom that is “strongly hemolytic,” which means it causes the breakdown of red blood cells, in prey (Ernst 116). Yet venom studies in older adults demonstrate that the “activity level of some venom enzymes tends to increase with the size and age of the snake” (Ernst 116). So an older timber rattlesnake has venom more virulent than a younger one.

Similarly, an adult snake is capable of delivering a much larger venom dose than a smaller snake. Consider the eastern diamondback rattlesnake (Crotalus adamanteus). Juveniles of the species typically deliver less than 70 milligrams of venom, whereas a healthy adult specimen may deliver 492 to 666 milligrams of venom (Ernst 90). The known maximum is 848 milligrams in a single bite (Ernst 90). Roughly 100 milligrams of venom is considered a lethal dose for an adult human.

So if the venom toxicity of a young snake is not as potent as an adult, and the total venom yield of a juvenile is not nearly as great as an adult’s, what part of this myth is one-third true? The answer lies in the venomous snake’s experience level. Adults are veterans of life. They have successfully avoided or driven back predators and attackers, and they have full control over all muscular functions. Adults recognize the need to conserve their precious venom. It takes time to produce it, and a snake that empties its venom reserves in an attacker has nothing left to subdue prey. They have learned that a venomous snake without venom doesn’t eat.

It’s a different story for neonate venomous snakes. They generally are not as in control of their muscular functions as are adult snakes, and they are at their most vulnerable point in life. Defensive strikes are fast and thorough. When these snakes bite, they typically bite hard, pumping the attacker full of every last bit of venom. If a young venomous snake’s bite were to be more dangerous than an adult’s, this would be the only way.

I suppose there are far more myths about snakes than I can dispel in one article. Education is the key. Snakes are interesting and unusual animals, so it only seems natural that people have attributed to them unique or even supernatural properties and powers.

Sadly, too many of these untruths are passed down from one generation of reptile lovers to the next. I can only hope those kids I saw at that Alabama reptile expo so long ago come to figure out that juvenile copperheads are not more virulent than their adult counterparts. Because for every snake myth we bust, we get closer to allowing the truth behind these intriguing animals to prevail.

References
Ernst, Carl H. 1992. Venomous Reptiles of North America. Smithsonian Institution Press, Washington, D.C.
Mehrtens, John M. 1987. Living Snakes of the World in Color. Sterling Press, New York, New York.

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