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Researchers have been hot on the trail of the elusive Denisovans, a type of ancient human known only by their DNA and...
Thousands of scientists in the Russian Academy of Sciences (RAS) are about to lose their jobs as a result of the...
Dyslexia, a learning disability that hinders reading, hasn't been associated with deficits in vision, hearing, or...
Exotic, elusive, and dangerous, snakes have fascinated humankind for millennia. They can be hard to find, yet their...
Researchers have sequenced and analyzed the first two snake genomes, which represent two evolutionary extremes. The...
Snake venoms are remarkably complex mixtures that can stun or kill prey within minutes. But more and more researchers...
At age 30, Dutch biologist Freek Vonk has built up a respectable career as a snake scientist. But in his home country,...
Since arriving on the island of Guam in the 1940s, the brown tree snake ( Boiga irregularis ) has extirpated native...
- 5 December 2013 11:26 am , Vol. 342 , #6163
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Extinctions Heal Slowly
3 January 2002 (All day)
The history of life on Earth has been a heated tug of war between forces that power the birth of new species and those that grind life forms into oblivion. Now a new study suggests that while extinction rates vary widely, origination rates march to their own slow drummer. The study, published in the 3 January issue of Nature, fuels fears that it will take millions of years for biological diversity to recover from the current wave of human-caused extinctions.
In recent years scientists have challenged a long-held assumption that evolution's pace can accelerate to fill the biological holes caused by episodic mass extinctions. Last year, a pair of researchers reported that it takes about 10 million years for evolution to renew the planet's biodiversity following an extinction event, whether that event is large or small. Building on that finding, one team member, earth scientist James Kirchner at the University of California, Berkeley, decided to compare rates of extinction to rates of origination over a 500-million-year period.
To compare evolutionary clocks, Kirchner turned to the same database he'd analyzed earlier: the late Jack Sepkoski's encyclopedic compilation of marine animal fossils, which spans a 540-million-year history and lists the first and last known occurrences of about 4500 families and 36,000 genera. To untangle such a massive and uneven database, Kirchner used a specialized form of a mathematical technique called spectral analysis, which was developed by astrophysicists to make sense of the complex light signals received from distant stars. Kirchner concluded that extinction rates are up to two and a half times more variable than origination rates, with originations of new species pulling ahead of extinctions only when researchers look at chunks of time greater than 25 million years. The finding is further proof that "while extinction rates can spike, diversification rates can't rev up to offset them," Kirchner says.
The work supports the emerging view that "origination and extinction are decidedly different processes determined by different rules," says Arnold I. Miller, a paleobiologist at the University of Cincinnati in Ohio. But Douglas Erwin, a paleobiologist at the Smithsonian's National Museum of Natural History in Washington, D.C., says he's "leery about the analytical structure of the study," because it's based on an outdated version of the time scale that accompanies Sepkoski's database. "I'm not sure that the analysis is sufficiently robust to support the conclusions," says Erwin.
Last year's paper by Kirchner and a colleague, showing it takes 10 million years for biodiversity to be renewed following an extinction event
Commentary by Douglas Erwin on that paper Milwaukee Public Museum's Geologic Time Scale Diversity Through Time graphic based on Sepkoski's work
Cycles of mass and minor extinctions on Earth, from the Hooper Virtual Paleontological Museum