UVic Ph.D. student Brian Timmer examines
a piece of kelp at the surface of the ocean as part of a kelp survey. Credit:
Credit: Rosie Poirier.
New
research from the University of Victoria (UVic) has found that some kelp
forests around Vancouver Island were disappearing far earlier than scientists
previously thought, highlighting that climate change has been altering
ecosystems long before most people were aware anything was wrong.
"Most research has focused on
recent kelp forest losses resulting from well-known marine heat waves, like the record-breaking 'Blob' heat wave that hit
our coast a decade ago," says Brian Timmer, a UVic Ph.D. student, National
Geographic Explorer and lead author of the study, recently published in Ecological Applications.
"These recent changes to our kelp
forests have been intense. But our research shows that some areas of the BC
coast have been warming much faster than the global average, and associated
kelp declines began decades ago. We've been underestimating the magnitude of
ocean-warming impacts for years," said Chris Neufeld, co-author and senior
aquatic ecologist at LGL Limited.
Researchers reconstructed historical
baselines for bull kelp and associated macroalgae communities in the northern
Salish Sea using maps, aerial photos and scuba surveys from as far back as
1972.
They then replicated identical surveys
and photos in 2023 to directly compare kelp forest size and seaweed abundance
over 50 years.
The historical records show that there
used to be massive bull kelp forests floating at the surface, covering more
than 550 hectares (about 1,360 acres) of the northern Salish Sea near Comox and
Denman Island. This increases the previous baseline of kelp forest size for
this region by a factor of 10.
None of those kelp forests remain today,
and satellite records show that most of the bull kelp loss occurred between
1972 and 1984—well before the kelp losses documented during more recent marine
heat waves.
Timmer was also able to show that
climate change was a driving factor in the loss of kelp forests. Using historical temperature data from Salish Sea lighthouses, he determined that
by the time the kelp had disappeared in the late 1970s, the northern Salish Sea
was substantially warmer than it was in the early 1900s.
These temperatures have continued
climbing to this day, meaning conditions have continually worsened since the
initial kelp losses.
Underneath the water's surface, Timmer
found that the dominant, cold-adapted species of kelp and red algae had declined by 60% to
99%, particularly in shallow water.
When these cold-adapted species died
off, they were not replaced by warm-water species, which has likely resulted in
habitat loss and reduced food availability for important coastal species like
herring, rockfish and salmon.
"We've been living with a
completely warped sense of what 'normal' oceans look like. What we previously
thought of as a baseline for the extent of our kelp forests was already
post-collapse.
"Our research shows how important
it is to have better baselines when investigating climate change impacts so
that we can make informed decisions about conservation, restoration and climate
action before further irreversible damage occurs," said Timmer, a UVic
Ph.D. student and lead author of the study.
Kelp forests are critical infrastructure
for coastal ecosystems, providing habitat and food for fish, supporting
fisheries, protecting shorelines and contributing to cultural and economic
well-being.
Provided by University of
Victoria
Source: 50 years of data reveals true extent of climate change impacts on kelp forests
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