Life is faster in the temperate zone
Evolution of species is more leisurely in the tropics.Michael Hopkin
http://www.nature.com/news/2007/070312/full/070312-8.html 

| This male 'Masked Tityra' is closer to its sister species than birds in the tropics are to theirs. J. Weir |
|
Most
people tend to think of the tropics as the hottest scene on the planet
when it comes to spawning new life. But Canadian zoologists have found
that it is actually the world's temperate zones where new species
evolve and become extinct the fastest.
The
discovery by Jason Weir and Dolph Schluter of the University of British
Columbia in Vancouver threatens to overturn the theory that because
tropical regions contain the greatest overall species diversity, that
they must also have the fastest rates of 'speciation' - the emergence
of new species.
"Our
findings contradict the conventional view by suggesting that temperate
zones, and not the tropics, are the hotbeds of speciation," says Weir.
SistersThe
researchers surveyed 309 pairs of 'sister' species - those that are
closely related to one another, much like humans and chimpanzees - from
throughout the Americas. They compared their DNA sequences to work out
how much the sister species had diverged from one another, and
therefore how long ago their split had occurred.
Those
in temperate zones tended to have diverged more recently, implying that
new species are being thrown up faster in these regions. Near the
Equator, sister species were separated by an average of 3.4 million
years, whereas at the most extreme latitudes studied, stretching as far
as the northern wilds of Canada, the figure was less than 1 million
years, the researchers report in
Science1.
The
apparently prodigious rate at which new species appear and disappear in
temperate regions might be due to the cycle of ice ages and warm
periods, which affect extreme latitudes more than the tropics, Weir
suggests. "Intense climatic instability at high latitudes has resulted
in increased opportunities for extinction, and increased ecological
opportunity during the benign periods," he says.
By
contrast, the relatively unchanged climate of the tropical region over
millennia has meant that once species gain a foothold they are less
likely to become extinct.
The
current warming of the planet from greenhouse gases is also changing
climate conditions more at extreme latitudes. But the results of this
study apply only to more dramatic changes that happened over a longer
time scale; they do not cast any light on how today's species might be
affected by future climate change.