Mystery Solved: Scientists Discover Unique Evolutionary Branch of Snakes
Scientists have resolved the evolutionary history of the mock viper, placing it in a unique new snake family, Psammodynastidae, which aids in understanding and conserving this distinct species.
An international team, spearheaded by researchers from the University of Helsinki, has unraveled the evolutionary history of the mock viper. This snake, which only mildly venomous and resembles a viper, represents a completely distinct lineage within the snake family tree.
The evolutionary history of the mock viper, a mildly venomous, widely distributed Asian snake that mimics highly venomous vipers for self-defense, has been solved. The mock viper represents a completely unique branch in the tree of life of snakes, and hence, it has been allocated into its own new family named Psammodynastidae.
This small, feisty snake has long presented a puzzle to evolutionary scientists due to its unresolved evolutionary history. To solve the puzzle, the researchers analyzed DNA sequences of over 4500 genes and several dozen high-resolution micro-computed tomographic scans.
“Mock vipers are part of the superfamily Elapoidea, a major group of snakes to which one-fifth of global serpent diversity belongs. Evolutionary diversification within this superfamily happened very rapidly approximately 50 million years ago. Rapid evolutionary diversifications are probably the most challenging evolutionary scenario for a geneticist or evolutionary biologist to resolve”, says the lead researcher Sunandan Das from the University of Helsinki.
Mimicry and Defense Mechanisms
Mock vipers not only look like tree-dwelling vipers but also act like them. Intriguingly, they have a fake ‘fang’ in the front of their mouth, which befools a predator into thinking that they possess venom fangs during an open-mouthed threat display. However, there is also an actual fang in the back of the jaw, which carries a weak venom effective only on their lizard prey. The Elapoidea superfamily has multiple snake families with various types of venom and fangs, for example, cobras and mambas.
Another completely new family-level lineage, Micrelapidae, within Elapoidea was discovered in 2023 by Sunandan and Professor Juha Merilä.
“The discovery of a new family of any vertebrate animals is surprisingly rare, an almost once-in-a-century phenomenon. This is a lifetime achievement for an evolutionary biologist. You rarely, if ever, see descriptions of whole new families of well-studied vertebrate animals anymore.’’ says Sunandan.
The inference of the phylogenetic position of mock vipers, along with that of other elapoid snakes, will pave the way for a much better understanding of snake venom fang origin and evolution. Long, unique branches in the phylogeny, like that of mock vipers, contain a high degree of evolutionary distinctiveness, an index used by biologists for prioritizing conservation. Hence, reinstating the mock viper or Psammodynastes into its own ‘dynasty’ also serves an important conservation goal.
Reference: “Phylogenomics of Psammodynastes and Buhoma (Elapoidea: Serpentes), with the description of a new Asian snake family” by Sunandan Das, Eli Greenbaum, Jonathan Brecko, Olivier S. G. Pauwels, Sara Ruane, Stacy Pirro and Juha Merilä, 25 April 2024, Scientific Reports.
DOI: 10.1038/s41598-024-60215-2