It's Not a Snake, but Beware of Its Venomous Bite

Discussion in 'General' started by Babanature, Jul 6, 2020.

  1. Babanature

    Babanature Administrator Staff Member

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    If a worm and a snake had a slimy, scandalous love child, it might look something like a caecilian: a legless creature that’s actually neither worm nor snake but a soil-dwelling amphibian found in tropics across the globe.

    Content to spend most of their time beneath the forest floor, caecilians are elusive and poorly understood. Which is why Carlos Jared, a biologist at the Butantan Institute in São Paulo, Brazil has spent a good part of the last three decades hot on their trail.

    Bagging a caecilian specimen, he said, often takes hours of laborious digging, carefully executed so a poorly aimed shovel doesn’t cleave the creature in two. Once a specimen is spotted, “you have to jump on it,” Jared said, and then wrestle the wriggly amphibian — which, depending on the species can range in length from a couple inches to 5 feet — into a sack. Many caecilians have squirmed out of Jared’s grasp at the last moment, gleefully greased by a gelatinous goo that oozes out of their skin.

    But Jared said the animals’ fascinating and sometimes baffling biology makes the incessant chasing more than worth it. His team’s latest discovery, published Friday in iScience, shows caecilians’ mouths might be rimmed by venom-tipped teeth, not unlike those found in some snakes.

    The discovery would mark the first time venom glands have been found in the mouth of an amphibian — one whose evolutionary history predates the appearance of snakes by more than 100 million years. That could make little-known caecilians among the oldest venomous biters on Earth.

    Like most other amphibians, caecilians have long been thought to produce only poisons, which, unlike venoms, aren’t actively injected into other creatures. So Pedro Luiz Mailho-Fontana, a postdoctoral scholar working with Jared, was baffled when he discovered a series of fluid-filled ducts lining the teeth of a ringed caecilian specimen in the lab. “This is a very different thing here,” he recalled thinking.

    After searching the mouths of newly hatched caecilians, Mailho-Fontana determined that the tooth-cradling glands grow out of the same tissue that gives rise to teeth.

    Dental tissue also happens to be the point of origin for venom glands in snakes, which could help explain the purpose of the newfound ducts, Jared said. Without legs or arms to parry with predators or prey, animals like snakes and caecilians must rely heavily on their heads.

    Caecilians, like some snakes, are equipped with impressive teeth and can get pretty “bitey,” said Emma Sherratt, an evolutionary biologist at The University of Adelaide wasn’t involved in the study.

    If caecilians also pack a venomous bite, they may have independently stumbled upon a strategy that’s worked out well for many snakes. That would be “really interesting and remarkable,” said Shab Mohammadi, an evolutionary biologist at the University of Nebraska-Lincoln who wasn’t involved in the study. Perhaps limblessness is an important impetus for the evolution of tooth-borne toxins.

    But Mohammadi also noted that it’s still unclear how noxious the glands’ contents are or how toxic they are to the insects and worms that caecilians nosh on. Jared and his team have yet to do an in-depth chemical analysis of the caecilian’s glandular goop, although early tests show it’s full of a protein that’s also present in venoms from insects and snakes. Caecilians’ mouths seem to teem with slime at mealtimes, but the secretions have proved to be stubbornly viscous and tough to extract, Mailho-Fontana said.

    The researchers are also unsure how widespread venom glands are among caecilian species, which currently number more than 200 (with many more likely unknown). If the ducts are found in ancient lineages, it could indicate that caecilians were among the first land-living vertebrates to lace their bites with venom.

    Jared’s team is planning to snag a few more specimens, but even once they manage to get them, it won’t be easy.

    A few years ago, during a visit to a collaborator’s lab in London, Marta Maria Antoniazzi, a co-author of the study also of the Butantan Institute, picked up a tiny caecilian that promptly sank its teeth into her hand.

    “It hurt a lot,” she said.

    And the wound took a surprisingly long time to close up. Now, Antoniazzi wonders if she was an unwitting victim of venom.

    “At the time, we couldn’t have even imagined,” she said.

    This article originally appeared in The New York Times.
     

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