Research
reveals worse picture of climate change impact on marine life
BY: KARA IRBY, Florida State University
 |
| Sorry, guys |
FSU doctoral student Jennifer
McHenry, Assistant Professor of Geography Sarah Lester and collaborators with
the National Oceanic and Atmospheric Administration (NOAA) investigated how
marine species’ habitats are likely to be affected by multiple factors
associated with climate change such as ocean temperature, salinity and sea
surface levels.
“Most models have only considered the changing temperature of the ocean to make projections for sea life,” McHenry said. “However, considering factors beyond temperature provide a more complete picture of how marine life will fare as the Earth warms and these factors change accordingly.”
Using data on marine species from
NOAA’s National Marine Fisheries Service and a high-resolution global climate
model projection from the NOAA Geophysical Fluid Dynamics Laboratory, McHenry
and her team examined the expected habitat changes of more than 100 species
living in the U.S Northeast Shelf — a highly productive and economically
important region that spans from Cape Hatteras, North Carolina to Nova Scotia,
Canada.
Researchers found that when using a
multifactor model more than 50 percent of marine species in that region would
experience a decline in habitat space.
“That spells serious trouble for
certain species,” McHenry said.
Researchers found a stark contrast
after comparing temperature-based models with multifactor models. The latter
revealed a more significant habitat decline for some species.
For example, the Atlantic cod had
diminished habitat space when looking at temperature models, but the multifactor
habitat suitability models rendered Atlantic cod essentially absent in the
future.
“Atlantic cod was once an important fishery in the Northeast,” McHenry said. “There are ongoing efforts to rebuild it, but these models indicate a less hopeful future for this species than originally suspected.”
Forecast models spanned a total of
80 years into the future. Researchers said that gives ecologists and fishery
managers time to plan and respond.
“We need to have responsive
management approaches,” Lester said. “A species that is going to have a much
smaller range in the future and that’s commercially harvested for seafood might
need to have more conservative catch limits to account for the fact that it may
be more vulnerable under future climate.”
Researchers said their study could
be duplicated in other geographic areas, such as the Gulf of Mexico and off the
western coast of the United States.
“Climate change is not just about
temperature,” Lester said. “Unfortunately, it’s going to affect a range of
factors. When we try to predict what’s going to happen in the future for marine
species, we need to account for the full suite of factors that are going to
change and be prepared for the fact that the impact on those species might be
worse than what we’d predict just based on temperature.”
Co-authors of the study are Vincent
Saba of the NOAA NMFS Northeast Fisheries Science Center and Heather Welch of
the NOAA NMFS Southwest Fisheries Science Center in Monterey, California.
