Imposing distinct separations on the fluid process of evolution inevitably breeds disagreement on what exactly constitutes a species. On Christmas Eve, 1856, Charles Darwin wrote in a letter to Joseph Dalton Hooker, botanist and friend: “It is really laughable to see what different ideas are prominent in various naturalists’ minds, when they speak of ‘species.’…It all comes, I believe, from trying to define the undefinable.”
Delimiting species has challenged biologists since the 18th century, when Linnaeus first sorted and named organisms using only physical characteristics. It is only since the advent of molecular-sequencing techniques that species have become less confounding to researchers, no longer so able to obscure their true identities once their DNA is laid bare. Two or more look-alike organisms previously classified as one...
The International Commission on Zoological Nomenclature (ICZN), the administrative body responsible for logging and validating the names of newly discovered or described species, requires that every new species name be accompanied by a description that includes at least one physical or behavioral feature, called a character. The ICZN’s set of rules and guidelines, the International Code of Zoological Nomenclature, accepts characters such as scale counts, colors, or short DNA sequences that distinguish one species from another.
But character-based descriptions, even ones using short DNA sequences, can be subjective, herpetologists Matthew Fujita and Adam Leaché argue. Some cryptic species defied character-based identification for centuries; and two individuals could be designated as separate species by analyzing one short DNA sequence, but as the same species by examining another sequence, says Leaché.
Fujita, a Harvard postdoc, and Leaché, of the University of Washington in Seattle, say that ICZN rules need to do away with strict character-based descriptions. They’ve devised a way to distinguish species using an approach called Bayesian species delimitation, which, they argue, is exceptionally objective. The method, derived from a statistical inference that is commonly used to construct branching patterns when making phylogenetic trees, determines the probability, on a scale of 0 to 1, of a hypothesis—in this case, the number of species with a given set of genetic loci. It can also be used to update previously calculated probabilities by adding newly acquired data to the bunch and seeing how multiple loci sort.
Fujita and Leaché applied this method using six genetic loci to delimit four species of gecko, which were originally thought to be one. In their analysis, four populations of West African forest geckos had a probability of 1, strongly suggesting that they were four distinct species spread across areas of Guinean and Congolese rainforests.
And Bayesian species delimitation has proved precise when applied to sorting out other species. In a PNAS paper published in May 2010, Ziheng Yang and Bruce Rannala, researchers at the Chinese Academy of Sciences in Beijing and the inventors of Bayesian delimitation, tested their method on Homo sapiens. They were not only able to distinguish different races, but also grouped humans as one distinct species, using 20 autosomal loci, each about 20,000 base pairs long.
But some scientists, like Aaron Bauer, a herpetological systematist at Villanova University in Pennsylvania, think that Fujita and Leaché’s approach is flawed because it fails to include a character to distinguish the four geckos, as per ICZN requirements. Bauer maintains that characters—whether physical, behavioral, or genetic—are still needed to distinguish one species from another. Fujita and Leaché published only information about the geographic distribution of their geckos and failed to distinguish any single physical or genetic characteristic separating them.
“Geographic location can’t be [considered] a character because it’s not intrinsic,” says Ellinor Michel, a taxonomist and the executive secretary of the ICZN. “You can’t inherit geography.”
Leaché and Fujita plan to urge the ICZN to evolve and change its rules. “The only thing that unites all species is DNA,” argues Leaché, “so it seems like genomics is the most accurate and stable way to establish a definition of species.”
But for now, Michel and the ICZN aren’t budging. In and of itself, “taxonomy is a work in progress,” she says. “You’ll delimit a species and someone will come along and do a better job” down the road. And in order to build upon each other’s work, “we need these rules,” she adds.
“[Bayesian delimitation] is a method with promise,” concedes Bauer, “but because it’s still new, it needs further exploration.”