April 23, 2010
By a GenomeWeb staff reporter
NEW YORK (GenomeWeb News) – Killer whale "ecotypes," which vary in their choice of prey, behavior, and appearance, represent distinct species, according to a paper appearing online yesterday in Genome Research.
An international research team including researchers from Roche's 454 Life Sciences and Roche Applied Sciences, used highly parallel pyrosequencing to assess the complete mitochondrial genomes of nearly 150 killer whales from the North Atlantic, North Pacific, and southern oceans. In so doing, they identified dozens of mitochondrial haplotypes that point to the existence of at least three killer whale species.
"We recommend that three named ecotypes be elevated to full species, and that two additional types be recognized as subspecies pending additional data," lead author Phillip Morin, a geneticist affiliated with the National Marine Fisheries Service's Southwest Fisheries Science Center and the University of California at San Diego's Scripps Institution of Oceanography, and colleagues wrote.
Killer whales are currently classified as just one species, Orcinus orca. Nevertheless, researchers have identified several so-called killer whale ecotypes that have slightly different size and color patterns, behaviors, prey preferences, and social organizations.
Past studies of specific mitochondrial DNA loci have found relatively little mtDNA diversity, the researchers explained, and just over a dozen haplotypes. Nuclear microsatellite data, meanwhile, hints at the existence of additional genetic diversity and more complex population structure than previously appreciated.
"This low level of mtDNA diversity has resulted in only weak inference of phylogeographic patterns and divergence times in killer whales, limiting our ability to understand their evolution and taxonomy," they wrote. "Killer whales are therefore an ideal candidate species for applying new high-throughput techniques to allow the production of a highly corroborated mitogenome tree and the testing of hypotheses of the timing of coalescence of killer whale populations."
To test the taxonomic and evolutionary utility of high-throughput mitogenomics, the team sequenced the 16,390 or so base pairs of mitochondrial genomes from 143 killer whales using highly-parallel pyrosequencing with Roche 454 GS FLX and Titanium platforms. They also sequenced five partial mitochondrial genomes and mtDNA for three outgroup species: a false killer whale, a long-finned pilot whale, and a short-finned pilot whale.
After tossing out duplicate and poor quality sequences, the researchers were left with 139 killer whale mitochondrial genome sequences representing 66 different haplotypes.
These haplotypes clustered with geography and killer whale type, although whales from a few distant geographic populations grouped near one another, the team explained, suggesting they might share common ancestors.
They estimate that killer whale haplotypes identified in the study diverged from one another between around 150,000 and 700,000 years ago, with clades from the eastern North Pacific apparently diverging earliest and an Atlantic clade diversifying into killer whale groups found in high latitudes today.
Based on their mitogenomic findings, the researchers called for a revised killer whale classification scheme designating two existing killer whale types in the Southern Ocean and one group in the North Pacific as distinct species and recognizing additional subspecies. Even so, the researchers noted, studies of nuclear sequence data are needed to verify and further refine the patterns detected so far.
Overall, the team argued, using genetic information to improve killer whale classifications and taxonomy will help to inform killer whale ecology research and conservation efforts in the future. They also predicted that mitochondrial genome sequencing will play an increasingly large role in classifying other species as well.
"We expect that, as sequencing technologies continue to allow more samples, more sequence, and lower cost the application of mitogenomics will become the default approach to phylogeography, as was previously the use of control region and cytochrome B sequence analysis," the researchers concluded.
Sequence data on the 66 killer whale haplotypes identified in the current study have reportedly been deposited in Genbank.
http://www.genomeweb.com/sequencing/mitochondrial-dna-points-multiple-killer-whale-species
-----
One ocean, four (or more) killer whale species
New genetic analysis splits killer whales into multiple taxa
Tina Hesman Saey
May 22nd, 2010; Vol.177 #11 (p. 8)
Determining whether animals belong to the same species is not as black and white as you might think.
Take killer whales. Scientists have long debated whether the ocean-dwelling mammals all belong in one species. Now, DNA evidence suggests that killer whales should be classified in at least four species, and maybe more.
Scientists once thought killer whales all belonged to the species Orcinus orca. But as researchers began observing more closely, they discovered that the whales seem to belong to different groups, called ecotypes, with distinct feeding habits and appearances. Killer whales from different ecotypes don’t seem to breed with each other — one criterion for being classified as separate species. So some scientists proposed that killer whales should be grouped into different species.
Early genetic analyses didn’t support that idea. Studies that looked at pieces of mitochondrial DNA, a type of genetic material that can be used as a molecular clock to measure the time since two genetic lineages split, concluded that the various killer whale groups are similar enough to fall into a single species.
But recently, researchers have come to realize that not all molecular clocks keep the same time. The mitochondrial DNA of Adélie penguins, for example, evolves faster than previously thought (SN Online: 11/17/09). Killer whales and other cetaceans, on the other hand, have molecular clocks that tick more slowly than other species’ clocks do, says Phillip Morin, a marine mammal geneticist at the Southwest Fisheries Science Center in La Jolla, Calif.
Morin and colleagues analyzed the mitochondrial genomes of 139 killer whales from around the globe and found that the animals fall into several genetically distinct groups.
“The genetic data show that they are each independently evolving lineages,” Morin says.
There is enough evidence to split off three new killer whale species, Morin and his colleagues propose in a study published online April 22 in Genome Research.
Two of the proposed new species live in the Antarctic. One eats only marine mammals, frequently knocking seals off pack ice to catch its prey. The other pursues fish underneath the pack ice.
A third proposed species lives in the northeastern Pacific and eats a variety of other marine mammals, including seals, sea lions, whales and dolphins. Morin’s team estimates that this group diverged from other killer whales as a separate species about 700,000 years ago. The other groups split off more recently.
“I suspect there’s going to be another four or five species,” says Robin Baird, a cetacean biologist at the Cascadia Research Collective in Olympia, Wash. Killer whales seem to be evolving into new species based on their eating habits, he says, a scenario that is common among birds but extremely rare for mammals.
Not everyone is convinced, however. Mitochondrial DNA is passed from mothers to offspring, so it reflects only one part of a species’s genetic heritage, points out A. Rus Hoelzel of Durham University in England. Going yet another step by analyzing the full DNA makeup of killer whales might reveal genetic exchange between killer whale groups that is not detectable looking exclusively at the maternal lineage. Exchange of genetic information between the groups would indicate that they aren’t separate species.
Morin agrees that a fuller genetic picture of killer whales is called for; he thinks the additional data will validate the finding from mitochondrial DNA that orcas should be classified into a handful of distinct species.
“My gut feeling is that these really are separate species, but the careful scientist in me wants to get a little bit more data ... to really nail it down,” he says.
http://www.sciencenews.org/view/generic/id/58987/title/One_ocean,_four_%28or_more%29_killer_whale_species
(Submitted by Chad Arment)
No comments:
Post a Comment
You only need to enter your comment once! Comments will appear once they have been moderated. This is so as to stop the would-be comedian who has been spamming the comments here with inane and often offensive remarks. You know who you are!