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 The spleen stores oxygen-rich red blood cells that it can release
into the bloodstream, enabling divers to hold their breath for
longer periods of time under water. While competitive divers can
train to boost their lung capacity or increase their red blood cell
count, the current study offers fresh evidence of the potential for
humans to adapt genetically to a lack of oxygen and support a
lifestyle centered on diving for food.
"We have examples of how humans have adapted genetically to new
diets and to extreme environments, such as high-altitude living in
Tibet or life near the Arctic circle in Greenland," said senior
study author Rasmus Nielsen, a professor of integrative biology at
the University of California, Berkeley.
"Now we also have a new fascinating example of how humans have
adapted genetically to a nomadic lifestyle on the ocean," Nielsen
said by email.
For the study, researchers focused on the Bajau people, who are
spread among the islands of Indonesia, Malaysia and the Philippines.
Often called sea nomads, they have traditionally lived on boats and
harvested nearly everything they eat from the sea.
To spear fish and octopus and gather crustaceans and sea cucumbers,
the Bajau often dive to depths greater than 70 meters, or 230 feet,
using only a wooden mask. They've been subsisting like this for
hundreds if not thousands of years, researchers note in Cell.
The study team used ultrasound scans to measure spleen sizes for 59
Bajau people and 34 individuals from the Saluan population, nearby
seaside villagers who do not dive.
Overall, the Bajau people had spleens about 50 percent larger than
the Saluan, the study found. That may translate into about a 10
percent increase in oxygen supply, Nielsen said.
Among the Bajau people, there wasn't a meaningful difference in
spleen size between divers and non-divers.
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Researchers also collected spit samples from participants and
identified several gene variants that were seen at much higher
frequency in the genomes of the Bajau people than the Saluans.
Variations in one gene in particular, PDE10A, may cause changes in
thyroid hormone levels that in turn lead to an enlarged spleen,
researchers speculate.
A second genetic adaptation associated with the Bajau involves the
constriction of blood vessels in the extremities to preserve oxygen
for vital organs. Known as the diving reflex, this response is one
competitive divers can encourage with intense training.
Beyond its small size, another limitation of the study is that it
wasn't a controlled experiment designed to prove whether or how
generations of divers might evolve to adapt an underwater lifestyle.
More research is needed to answer these questions, said Erika
Schagatay, head of the environmental physiology group at Mid Sweden
University in Ostersund.
Still, the results offer fresh evidence of a genetic explanation for
the development of a diving reflex in humans, Schagatay, who wasn't
involved in the study, said by email.
Beyond that, the results may also rekindle a debate in the
scientific community about whether human evolution has unfolded
entirely on land.
"An explanation for the presence of genes with diving promoting
effects could be the controversial theory that humans have a
waterside chapter in their evolutionary history," Schagatay said.
"The genetic diving adaptations present in many human groups but
more frequent in the Bajau seem to be another finding supporting
this idea."
SOURCE: https://bit.ly/1NdTbTa Cell, online April 19, 2016.
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