Q&AGETTY IMAGES X2 ILLUSTRATIONS: DAN BRIGHTAround 700 million years ago,
plants began to appear on land.
One of the key adaptations
needed for this transition was
some way to protect against the
Sun’s ultraviolet (UV) rays; plants
in the sea had hitherto been
shielded by the seawater.
Scientists have known since 2011
that plant cells have a protein
called UVR8 that can detect
shorter wavelength UVB rays,
which is the type of UV radiation
most responsible for sunburn.This protein signals the cells to
begin producing compounds that
block further UV damage and
repair DNA damage. In 2014,
researchers at Purdue University
in the US identified one of these
protective compounds as
‘sinapoyl malate’ and found that
this molecule harnesses quantum
mechanical e�ects in order to
absorb UVB rays. The ability to
produce this natural sunscreen
seems to be common to all land
plants and algae, which suggests
it is an ancient adaptation.
Plants aren’t invulnerable to
the Sun, however. Prolonged
exposure to the UVB in strong
sunlight causes cell damage to
the leaves and bark of many
plants. This is worse when plants
are dehydrated, because this
limits their ability to move
sunscreen chemicals to the
worst-a�ected sites. Ironically,
there is a widely-held belief
among gardeners that watering
plants in the midday sunshine
can cause sunburn, because
droplets of water supposedly act
as tiny lenses to focus the
sunlight onto the leaf surface.
However, this myth was
debunked in 2011 by researchers
at Eötvös University in Budapest,
Hungary. They used computer
modelling and direct experiment
to show that the refractive index
of water isn’t strong enough to
focus sunlight from a water
droplet onto the surface of a
leaf. LVERIC WILLIAMS, LANCASHIREWHY DOES
BLOWING HARD ON
OUR HANDS COOL
THEM, BUT JUST
BRE ATHING ON
THEMWARMTHEM?
This is essentially due to a
di�erence in the speed of
the air�ow in each case.
When we breathe out
slowly on our hands, the
warmth and moisture from
our mouths has time to
transfer to our hands,
warming them up. But
pursing our lips speeds up
the air�ow, and as this
passes over our hands, it
blasts away any air that’s
been warmed by contact
with our hands, cooling
them. In addition, the
fast-moving column of air
draws in, or ‘entrains’, the
air around it. This tends to
be cooler than our breath,
so it boosts the cooling
e�ect. RMCHRIS MCMULLON, BARNHAM, WEST SUSSEX
ARE THERE ANY ANIMALS
THAT CAN SEE WI-FI OR
BLUETOOTH SIGNALS?
Wi-Fi and Bluetooth are radio signals with a wavelength of 6cm to
12.5cm. This is about 100,000 times longer than the wavelengths of
visible light that humans can see. Many animals, including vampire bats
and certain fish and snake species, are able to sense infrared radiation,
but this only goes up to wavelengths of 1mm. Longer wavelengths carry
much less energy and can’t be detected without some kind of resonator
to amplify the signal. In 2009, the French virologist Luc Montagnier
claimed that bacterial DNA can emit radio waves, but his results were met
with widespread criticism from the scientific community, and have not
been replicated. So to date, we don’t know of any organisms that can
detect or communicate with radio frequency signals. LV