CU 麻豆影院 grad student鈥檚 work deepens understanding of evolution and extinction听
In the late 1980s, just as another group of scholars was preparing a 2,500-page, two-volume text cataloging the unique flora of the Hawaiian Islands, Harold St. John, once a听pioneering professor of botany, long-time chair of the Botany Department and director of the arboretum at the University of Hawai鈥檌 at M膩noa from 1929 to 1958,听then in his 90s, published 37 articles describing 894 new plant species in the islands, an almost unprecedented number, including 157 new species of mint.听
Under the international code of scientific nomenclature, first publication takes priority. But the researchers on the other project found some small errors in his work, and the scientific community dismissed and then ignored St. John鈥檚 prodigious work.听
鈥淧eople wrote him off. They just thought he was this old guy who鈥檇 done sloppy work,鈥 says Justin Williams, a graduate student in museum and field studies at the 麻豆影院 Natural History Museum.听Williams suggests that St. John鈥檚 few errors might have been due to his intentionally rushing to press in the race for publication priority.
Flash forward three decades. Botany has been revolutionized by molecular DNA work, which has led researchers to re-examine and, in many cases, rewrite, long-held taxonomies for Hawai鈥檌an flora. And Williams鈥檚 own research on mints in the Hawaiian Islands has led him to a surprising revelation: 鈥淧reliminary data is suggesting that Harold St. John was onto something.鈥
But that鈥檚 just one wrinkle in Williams鈥 gradual unraveling of mysteries surrounding Hawai鈥檌鈥檚 mint species. They are true mints, but like so much of the islands鈥 flora and fauna, they are quite distinct from their generic continental relatives you might pluck from your garden for iced tea or other continental species.听
For one thing, they don鈥檛 have that familiar minty odor. Rather than evolving into trees like Hawai鈥檌an violets and lobeliads, they are either dainty herbs or enormous woody vines. And unlike any other mint, they produce fleshy fruits.听
鈥淗awaiian mints seem to be an oddball when we evaluate them under traditional 鈥 evolution theory,鈥 says Williams, who has been working with two of the 157 species described by St. John, courtesy of the botany department at the world-famous Bishop Museum.听
鈥淧reliminary molecular results strongly support that these two specimens are unique taxa, supporting St. John鈥檚 species hypothesis and refuting previous claims that his work was rushed and sloppy.鈥
Williams鈥 molecular sleuthing indicates that while Hawaiian mints likely came to the islands from North America, some 2,500 miles away, they later dispersed more than 3,500 miles to the island of Tonga, unusual for a species that evolved fleshy fruit鈥攚hich sinks, rather than floats, in seawater, a factor that has limited long-distance dispersal of several other Hawaiian species.听
The mints also seem to violate Hennig鈥檚 鈥減rogression rule鈥 in evolution, which states that the most primitive species of any group will be found in the earliest, most central location.听
Finally, the currents and prevailing winds don鈥檛 support the case for 鈥渆xtra-Hawaiian dispersal,鈥 but that鈥檚 what the DNA says.
These mints have the potential to redefine how we think of insular evolution, as well as regular evolution and the speciation and extinction process,鈥
鈥淭hese mints have the potential to redefine how we think of insular evolution, as well as regular evolution and the speciation and extinction process,鈥 Williams says.
Of the currently parsed 59 mint species, all but two are found in Hawai鈥檌. The other two, only found on that islands of Tahiti and Tonga, were first collected in the late 1800s. Williams notes that the Tongan species was collected only once, in 1958 鈥 by Harold St. John.
The mysteries surrounding St. John and Hawaiian mint species fascinate Williams. But he hopes his systematics research鈥攑roperly describing and placing species on the taxonomic tree鈥攚ill have a real-world impact for the islands known as 鈥渢he endangered species capital of the world,鈥 where two-thirds of species are considered threatened, endangered or even extinct.
鈥淩efining our systematic understanding of what the species are will inform immediate conservation action, but also provide a foundation from which to answer interesting evolutionary and ecological questions,鈥 Williams says. He hopes that persistent fieldwork will lead to the rediscovery of species thought to be extinct, as well as new populations of rare and endangered plants.
鈥淚n a time of mass global extinction, any efforts to refine our knowledge of these processes, especially that of extinction, could significantly contribute to us reversing that trend,鈥 Williams says.