8 September 2018 | NewScientist | 17THE Arctic is in hot water, literally.
Heat has been accumulating
rapidly in a salty layer 50 metres
down in a large part of the Arctic
Ocean. Currently, it is capped by
a less-dense layer of fresh water,
but the fear is that winds could
make this lid fall apart. If the two
layers mix, this could melt all the
seasonal sea ice above.
Mary-Louise Timmermans at
Yale University and her colleaguesdiscovered the heat time bomb
after analysing data on ice cover
and sea temperature, heat content
and saltiness at different depths
over the past three decades in the
Canadian basin, which is fed by
waters from the North Chukchi
Sea, north of the Bering Strait
between Alaska and Siberia.
The team found that the heat
content of the 100-metre-thick
salty layer had doubled over thistime. The root cause is global
warming, which has seen Arctic
surface temperatures rise by 2°C
from pre-industrial levels, leading
to record-low sea ice coverage.
With sea ice retreating, heat
absorption by surface waters has
increased fivefold in 30 years, the
team found. Strong winds push
these newly warmed surface
waters at the Arctic fringes down
to the depths where they are now
accumulating under the ice
(Science Advances, doi.org/ctf4).IN BRIEF
AGAMI PHOTO AGENCY / ALAMY STOCK PHOTO
Wolves may have influenced
when elk shed their antlersEACH spring male elk lose their antlers so they can grow
back bigger and stronger to fight rivals for mates in
autumn. It turns out wolves may have helped shape the
evolution of this timing: if elk lose their antlers too soon,
their risk of ending up as wolf food rises. Too late and
they may fail to win a mate.
Matthew Metz at the University of Montana and
colleagues analysed 55 encounters between male elk
and wolves in Yellowstone National Park from 2004 to- They found that elk that shed their antlers early
were also the most vulnerable to wolf attacks.
In 18 cases wolves attacked a lone male, and the
presence or lack of antlers made no difference. But the
remaining 37 encounters involved attacks on groups of
two or more male elk, and wolves targeted stags without
antlers. Groups containing at least one antler-less animal
were 10 times more likely to be attacked (Nature Ecology
& Evolution, DOI: 10.1038/s41559-018-0657-5).
The findings may also apply to related species.
Elk don’t have a choice about when they shed their
antlers – it is probably linked to testosterone levels –
but shedding early seems to carry long-term benefits for
a potential short-term but fatal cost.
“We suggest that wolves – formerly everywhere across
the northern hemisphere – have shaped the timing of
when elk... shed their antlers,” says Metz.Warm-water time bomb threatens Arctic
Opioid blocks pain
and addictionA NEW opioid drug has been
shown to stop monkeys feeling
pain, without any apparent
addictive or harmful side effects.
Opioids such as morphine
stop pain, but can also be
addictive. In the US alone, more
than 46 people die daily from
overdoses of prescription opioids.
Mei-Chuan Ko at Wake Forest
University in North Carolina and
his colleagues have found that a
drug called AT-121 blocks pain by
activating two types of opioid
receptor in the brain. One is
the mu opioid receptor, the
pain-relieving receptor targeted
by many opioids. The other is
the nociceptin opioid receptor,
which blocks the brain’s
addiction-forming response,
while also providing pain relief.
The drug was 100 times as good
as morphine at reducing pain in
monkeys. No addictive properties
were seen (Science Translational
Medicine, doi.org/ctf3).Serengeti shaped
by ancient herdersAFRICA’S Serengeti grasslands are
far from pristine works of nature.
In fact, their rich biodiversity
may owe more to cowpats from
livestock corralled overnight by
nomadic herders millennia ago.
Such dung has long been known
to provide hotspots of nutrients
in otherwise barren grasslands,
eventually enabling much richer
ecosystems to develop. It was
assumed that, on the Serengeti,
these spots – called grassy glades –
date back roughly 1000 years.
Fiona Marshall of Washington
University in St Louis, Missouri,
and her colleagues have shown
they may be much older. The
team sampled five sites in Kenya
and found evidence of dung and
richer soils dating back 3700 years
(Nature, doi.org/gd3zfb).