New DNA Research Finds Evidence of ‘Speciation Reversal’
Among Ravens
University of Washington – March 2, 2018 -- For over a century, speciation
— where one species splits into two — has been a central focus of evolutionary
research. But a new study almost 20 years in the making suggests “speciation
reversal” — where two distinct lineages hybridize and eventually merge into one
— can also be extremely important. The paper, appearing March 2 in
Nature Communications, provides some of the strongest evidence yet of
the phenomenon, in two lineages of common ravens.
“The bottom line is [speciation reversal] is a natural evolutionary
process, and it’s probably happened in hundreds or almost certainly thousands
of lineages all over the planet,” said Kevin Omland, professor of biological
sciences at University
of Maryland , Baltimore
County (UMBC) and co-author on the new study. “One of our biggest goals is to
just have people aware of this process, so when they see interesting patterns
in their data, they won’t say, ‘That must be a mistake,’ or, ‘That’s too
complicated to be correct.’”
“We examined genomic data from hundreds of ravens collected across North
America,” said Anna Kearns, the study’s first author and a
former postdoctoral fellow at UMBC, who is now a postdoc at the Smithsonian Center for Conservation Genomics.
“Integrating all of the results across so many individuals, and from such
diverse datasets, has been one of the most challenging aspects of this study.
Next-generation genomic techniques are revealing more and more examples of
species with hybrid genomes.”
When Omland initially began work on this project in 1999, common ravens
were considered a single species worldwide. He thought further research might
uncover two distinct species — perhaps an “Old World” and “New
World ” raven — but the real story is much more complicated. Omland
reported the existence of two common raven lineages in 2000, one concentrated
in the southwestern United States dubbed “California,” and another found
everywhere else (including Maine, Alaska, Norway and Russia) called
“Holarctic.”
Since then, the plot has thickened. Two undergraduates in Omland’s lab, Jin
Kim and Hayley Richardson, analyzed mitochondrial DNA from throughout the
western United States
and found the two lineages are extensively intermixed. In 2012, the Norwegian
Research Council provided major funding for the project and Kearns spent a year
at the University
of Oslo analyzing nuclear
genome data.
The best explanation based on the team’s analysis is that the California and Holarctic
lineages diverged for between one and two million years, but now have come back
together and have been hybridizing for at least tens of thousands of years.
“It is fascinating to me that this complex history of raven speciation has
been revealed. For decades my students and I held and studied ravens throughout
the West and never once suspected they carried evidence of a complex past,”
said co-author John Marzluff, professor of wildlife science
at the University
of Washington . “Thanks to
collaborations among field workers and geneticists, we now understand that the
raven is anything but common.”
How does this relate to people? Humans are also a product of speciation
reversal, Omland notes, with the present-day human genome including significant
chunks of genetic material from Neanderthals and Denisovans, another less
well-known hominid lineage. Recent genetic studies have even indicated a
mysterious fourth group of early humans who also left some DNA in our genomes.
“Because speciation reversal is a
big part of our own history,” Omland said, “getting a better understanding of
how that happens should give us a better sense of who we are and where we came
from. These are existential questions, but they are also medically relevant as
well.”
Next steps in the current avian research include analyzing genetic data
from ravens who lived in the early 1900s to investigate the potential role of
humans in the speciation reversal process. “Getting genomic data out of such
old, degraded specimens is challenging,” Kearns
said, “and all work must be done in a special ‘ancient DNA’ lab at the
Smithsonian’s Center for Conservation Genomics.”
If those ravens have a similar distribution of genes from the Holarctic and
California
lineages as the ravens living today, it’s unlikely changes in human
civilization over the last century played a role.
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