By Harry Pettit
The mystery of why more than 80,000 bats are killed by wind turbines in the
UK each year may finally have been solved.
Scientists found the winged creatures are naturally drawn to sources of red
light – an attraction that can confuse them on migration routes.
Turbines use blinking red lights to ward off low-flying aircrafts at night.
Experts now believe this light source lures bats into the path of the
blades, which spin at speeds of up to 170mph (275 kph).
According to the latest findings, switching to ‘on-demand’ lighting that
only turns on when a plane approaches could cut the number of bats killed
by turbines each year.
Previously it was thought the animals switched off their sonar at higher
altitudes because they did not expect to run into any obstacles.
Contrary to myth, bats aren’t completely blind.
In fact, previous research has shown that depending on the circumstances,
bats sometimes prefer using their eyesight to sound when hunting – though
they can only see certain wavelengths of light.
Researchers at the Leibniz Institute for Zoo and Wildlife Research, in
Berlin, Germany, say bats are particularly at risk of turbine collisions
during migration flights.
‘Bats are at a higher collision risk at wind power stations during their
autumn migration,’ said Oliver Lindecke, co-author of the study.
‘Our study indicates that the use of red light signals could have fatal
consequences for them as this appears to attract them to operating wind
turbines.
‘Existing light signals could easily be replaced by bat friendly
alternatives, or context-dependent illumination could be deployed which is
only activated if planes or helicopters are approaching a wind power plant.’
A survey of 29 UK wind farms showed 194 bats were killed a month in 2016 –
a figure that is likely higher than reported because many of the dead
creatures would have been cleared up by scavengers.
If extrapolated to all of Britain’s onshore wind farms it could mean as
many as 80,000 bats a year are killed annually.
Even if the small creatures avoid a direct collision with the 650-foot-high
(200m) steel structures, they are often killed by jarring air pressures
created by the spinning blades, which can cause fatal lung damage.
Similar research found that 600,000 bats could be killed by wind turbines
every years in the United States.
In the latest study, researchers tested the reaction of European
pipistrelle bats to red and white light.
They installed a 26-foot-high (8m) pole near the shoreline at Pape Nature
Reserve on the coastline of the Baltic Sea in Latvia, where thousands of
bats migrate each summer.
A plastic board fitted to the pole switched between ten-minute intervals of
red light, white light or darkness while ultrasound microphones recorded
the number of bats who flew close.
The number of pipistrelles recorded at the site increased during the red
light phase compared to periods of darkness.
When light-white was shone from the pole, researchers saw no increase in
the number of bats drawn to it.
Researchers are unsure what causes the bats to fly toward red light sources.
‘Bats have excellent eyesight and can even detect wavelengths invisible to
us,’ said study coauthor Professor Christian Voigt.
‘Some red light sources might potentially blind and disorient them. Whether
they then respond by flying towards the source of light with the highest
intensity requires further research.
‘It is also absolutely crucial to understand the long-term impact of
increasing light pollution on populations of nocturnal animals.
‘Many bat species already struggle in our current anthropogenic landscapes
characterised by intensive agriculture and high densities of wind turbines.’
Many people think assume bats are blind, but they can actually see almost
as well as humans.
At night their ultrasound-sensitive ears are more important than their
eyes, though some bats choose to hunt via sight than sound.
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