10 | New Scientist | 19 February 2022News
ONE of life’s most important
symbiotic partnerships may be
threatened by a warming climate.
Lichens – a composite organism
made from cyanobacteria
or algae entangled within
the body of a fungus – may be
evolutionarily outpaced by
changing climatic conditions
thanks to a slow rate of evolutionin the algal component of
the ancient collaboration.
Matthew Nelsen at the Field
Museum in Chicago and his
colleagues have been investigating
how the climatic preferences of
the lichen algae have changed over
evolutionary time, and how this
relates to what the algae are facing
with ongoing climate change.
The team focused on a single
genus of algae, Trebouxia, which
is found in about 7000 species
of lichen. For comparison, there
are only about 6400 described
mammal species on Earth today.“It really puts it in perspective
that this is quite a lot of diversity
these algae are responsible for
maintaining,” says Nelsen.
The team collected data on
where Trebouxia occurs across
the world, and noted the climatic
conditions at each location.
The group also used a database
of Trebouxia genes to create a
global family tree for the algae,
to reveal which forms were
ancestral to the others. Using all
of this information, Nelsen’s team
could estimate how rapidly
Trebouxia – and the lichens it lives
within – have adapted to changing
climates in the past.
The team found that the
algae were slow to adapt to
new climates, shifting average
temperature preferences by
less than 1°C every million years.
This rate is “substantially lower”
than the 1°C to 4°C global
temperature rise predicted
over the next 80 years or so,
says Nelsen (Frontiers in
Microbiology, doi.org/hgwh).
“It’s just really disheartening
to see actual numbers and data
showing how discordant thesetwo rates are: the predicted rate
of global climate change, versus
the rate at which [preferences]
changed in the past,” says Nelsen.
James Lendemer at the New
York Botanical Garden says that
having a longer generation time
could make rapid evolution less
likely, and that lichen biology
may partially explain the slow
pace of evolution.
“What is the generation
time of an organism that can
essentially live forever, in
many ways?” says Lendemer.
Nelsen predicts that lichensthat depend on Trebouxia will
disappear from many of the places
they are found in today, although
there may also be some migration
to locations with tolerable
temperatures and humidity.
Their disappearance could
have far-reaching ecological
impacts. Lichens play crucial roles
in soil stabilisation and moisture
retention and can serve as food
or shelter to animals. ❚Climate changeJake BuehlerMATT
HEW^ NEL
SE
NLichens may take a million years
to adapt to 1°C of global warming
A lichen in the Atacama
desert that contains
Trebouxia algaeMilitary technologyA MICROWAVE weapon that can
be carried by a drone is powerful
enough to shoot down other
drones and can also knock out
other electronic devices.
The Leonidas Pod, produced
by start-up Epirus based in Los
Angeles, generates a beam of
microwaves to overload a target’s
electronics, causing drones to
drop out of the sky.
Other counter-drone microwaveweapons are based on magnetrons,
the technology found in microwave
ovens, and are the size of a shipping
container. Instead, Epirus uses
compact solid-state emitters and
last year unveiled a device that can
fit on a pickup truck.
The new device is roughly the
size of a microwave oven and
weighs less than 24 kilograms.
Epirus hasn’t revealed the range of
the weapon, but says its beam can
be shaped as needed, firing a broad
fan to tackle a swarm of drones or
a narrow beam to pick out a specific
target. It can also put computers,
radios and vehicle electronics outof action. “We do anticipate the
system being used for additional
EW [electronic warfare] and
counter-electronics missions,”
said a spokesperson for Epirus.
The makers stress that the device
doesn’t affect people, and has
been validated as safe by NationalTechnical Systems, an independent
testing agency.
The cost of the system is likely to
be a significant factor in how widely
it is used. “Placing a RF/HPM [radio
frequency/high-power microwave
weapon] on a drone is going to be
pretty costly unless breakthroughs
in getting energy to the weaponry
have been made,” says Robert
Bunker at C/O Futures, a US-based
security consulting firm. ❚Microwave weapon
lets drones shoot
down other dronesDavid HamblingEP
IRUSThe Leonidas Pod is small and
light enough to be carried by a
hexacopter drone“ What is the generation
time of an organism
that can essentially
live forever?”