October 2020, ScientificAmerican.com 25REINHARD DIRSCHERLGetty ImagesE C O L O G YCoral
Stress Test
Short-term heat tolerance
can help identify resilient reefsAs rising ocean temperatures threaten
coral reefs worldwide, identifying the most
heat-resilient coral colonies is crucial for
conservation efforts. Typical methods
require flying samples to distant laborato-
ries and subjecting them to high tempera-
tures for weeks. Now a new heat-stress
test brings the lab to the reef, yielding
results within a single day.
The Coral Bleaching Automated Stress
System (CBASS), made from materials
commonly available at hardware stores,
consists of four 10-liter tanks that can be
set up on the same boats researchers use
to reach the reefs. “You just jump into the
water, get the corals, and put them into
the tanks and get everything started,” says
Carol Buitrago López, a graduate student
at King Abdullah University of Science and
Technology (KAUST) in Saudi Arabia.
She and her colleagues described CBASS
in August in Global Change Biology.
The team placed finger-sized coral
samples from two Red Sea sites into
CBASS tanks at a baseline temperature
of 30 degrees Celsius (86 degrees Fahren-
heit). Over three hours the system in -
creased each tank’s temperature to a dif-
ferent value—39 degrees C was the maxi-
mum—then held there it for another three
hours, dropping it back to 30 over the next
hour. Finally, the scientists gave the corals
11 more hours to recover. They used aflashlightlike device to measure how effi-
ciently the microalgae in the corals used
light when photosynthesizing (a well-
established indicator of a plant’s stress
level). This short-term measurement
aligned with the results from a traditional
long-term heat-stress experiment, show-
ing the method’s potential to rapidly iden-
tify resilient corals.
“I would love to adopt [CBASS] in my
research,” says Mikhail Matz, who re -
searches coral genetics at the University
of Texas at Austin and was not involved
with the study. “The whole simplicity of
this approach is very appealing.” Although
coral reefs are too vast to test in their
entirety, researchers can harness CBASS’s
speed to measure targeted coral samples
at a scale not previously possible. In a fol-
low-up experiment, “we measured 500
corals in two weeks,” says Christian Vools-
tra, a researcher at KAUST and the Uni-
versity of Konstanz in Germany and lead
author of the new paper. “Traditionally this
would be your lifetime as a professor.”
Whether the corals that perform best
in CBASS experiments will indeed with-
stand climate change remains an open
question, Matz cautions. Still, he says,
CBASS’s standardized procedure will let
researchers directly compare the heat tol-
erances of coral colonies around the world,
a key step in restoration efforts. Conserva-
tion scientists commonly grow coral frag-
ments in a nursery and then transfer them
to degraded reef systems. So far such “out-
planting” projects have met with limited
success. But outplanting the most heat-tol-
erant corals, Voolstra says, could help buy
time until climate change can be brought
under control. — Scott HershbergerRed Sea coralsOctober 2020, ScientificAmerican.com 25REINHARD DIRSCHERLGetty ImagesE C O L O G YCoral
Stress Test
Short-term heat tolerance
can help identify resilient reefsAs rising ocean temperatures threaten
coral reefs worldwide, identifying the most
heat-resilient coral colonies is crucial for
conservation efforts. Typical methods
require flying samples to distant laborato-
ries and subjecting them to high tempera-
tures for weeks. Now a new heat-stress
test brings the lab to the reef, yielding
results within a single day.
The Coral Bleaching Automated Stress
System (CBASS), made from materials
commonly available at hardware stores,
consists of four 10-liter tanks that can be
set up on the same boats researchers use
to reach the reefs. “You just jump into the
water, get the corals, and put them into
the tanks and get everything started,” says
Carol Buitrago López, a graduate student
at King Abdullah University of Science and
Technology (KAUST) in Saudi Arabia.
She and her colleagues described CBASS
in August in Global Change Biology.
The team placed finger-sized coral
samples from two Red Sea sites into
CBASS tanks at a baseline temperature
of 30 degrees Celsius (86 degrees Fahren-
heit). Over three hours the system in -
creased each tank’s temperature to a dif-
ferent value—39 degreesC was the maxi-
mum—then held there it for another three
hours, dropping it back to 30 over the next
hour. Finally, the scientists gave the corals
11 more hours to recover. They used aflashlightlike device to measure how effi-
ciently the microalgae in the corals used
light when photosynthesizing (a well-
established indicator of a plant’s stress
level). This short-term measurement
aligned with the results from a traditional
long-term heat-stress experiment, show-
ing the method’s potential to rapidly iden-
tify resilient corals.
“I would love to adopt [CBASS] in my
research,” says Mikhail Matz, who re -
searches coral genetics at the University
of Texas at Austin and was not involved
with the study. “The whole simplicity of
this approach is very appealing.” Although
coral reefs are too vast to test in their
entirety, researchers can harness CBASS’s
speed to measure targeted coral samples
at a scale not previously possible. In a fol-
low-up experiment, “we measured 500
corals in two weeks,” says Christian Vools-
tra, a researcher at KAUST and the Uni-
versity of Konstanz in Germany and lead
author of the new paper. “Traditionally this
would be your lifetime as a professor.”
Whether the corals that perform best
in CBASS experiments will indeed with-
stand climate change remains an open
question, Matz cautions. Still, he says,
CBASS’s standardized procedure will let
researchers directly compare the heat tol-
erances of coral colonies around the world,
a key step in restoration efforts. Conserva-
tion scientists commonly grow coral frag-
ments in a nursery and then transfer them
to degraded reef systems. So far such “out-
planting” projects have met with limited
success. But outplanting the most heat-tol-
erant corals, Voolstra says, could help buy
time until climate change can be brought
undercontrol. —Scott HershbergerRed Sea coralsOctober 2020, ScientificAmerican.com 25REINHARD DIRSCHERLGetty ImagesE C O L O G YCoral
Stress Test
Short-term heat tolerance
can help identify resilient reefsAs rising ocean temperatures threaten
coral reefs worldwide, identifying the most
heat-resilient coral colonies is crucial for
conservation efforts. Typical methods
require flying samples to distant laborato-
ries and subjecting them to high tempera-
tures for weeks. Now a new heat-stress
test brings the lab to the reef, yielding
results within a single day.
The Coral Bleaching Automated Stress
System (CBASS), made from materials
commonly available at hardware stores,
consists of four 10-liter tanks that can be
set up on the same boats researchers use
to reach the reefs. “You just jump into the
water, get the corals, and put them into
the tanks and get everything started,” says
Carol Buitrago López, a graduate student
at King Abdullah University of Science and
Technology (KAUST) in Saudi Arabia.
She and her colleagues described CBASS
in August in Global Change Biology.
The team placed finger-sized coral
samples from two Red Sea sites into
CBASS tanks at a baseline temperature
of 30 degrees Celsius (86 degrees Fahren-
heit). Over three hours the system in -
creased each tank’s temperature to a dif-
ferent value—39 degreesC was the maxi-
mum—then held there it for another three
hours, dropping it back to 30 over the next
hour. Finally, the scientists gave the corals
11 more hours to recover. They used aflashlightlike device to measure how effi-
ciently the microalgae in the corals used
light when photosynthesizing (a well-
established indicator of a plant’s stress
level). This short-term measurement
aligned with the results from a traditional
long-term heat-stress experiment, show-
ing the method’s potential to rapidly iden-
tify resilient corals.
“I would love to adopt [CBASS] in my
research,” says Mikhail Matz, who re -
searches coral genetics at the University
of Texas at Austin and was not involved
with the study. “The whole simplicity of
this approach is very appealing.” Although
coral reefs are too vast to test in their
entirety, researchers can harness CBASS’s
speed to measure targeted coral samples
at a scale not previously possible. In a fol-
low-up experiment, “we measured 500
corals in two weeks,” says Christian Vools-
tra, a researcher at KAUST and the Uni-
versity of Konstanz in Germany and lead
author of the new paper. “Traditionally this
would be your lifetime as a professor.”
Whether the corals that perform best
in CBASS experiments will indeed with-
stand climate change remains an open
question, Matz cautions. Still, he says,
CBASS’s standardized procedure will let
researchers directly compare the heat tol-
erances of coral colonies around the world,
a key step in restoration efforts. Conserva-
tion scientists commonly grow coral frag-
ments in a nursery and then transfer them
to degraded reef systems. So far such “out-
planting” projects have met with limited
success. But outplanting the most heat-tol-
erant corals, Voolstra says, could help buy
time until climate change can be brought
undercontrol. —Scott HershbergerRed Sea coralssad1020Adva3p.indd 25 8/20/20 5:28 PMScientific American is a registered trademark of
Springer Nature America, Inc.Scientific American is a registered trademark
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