As climates change, prepare for more mosquitoes in winter, new study shows
As climate change makes winters
shorter and warmer, scientists want to know how these shifts might affect
mosquito activity
A new study shows that mosquitoes
can adjust to rapid changes in temperature, indicating that mosquitoes normally
dormant during winter may become active year-round due to climate change
In many parts of the world,
mosquitoes are a common summertime nuisance.
But in places on the front lines of
climate change, these disease-spreading insects may one day be a year-round
problem, according to new research from the University of Florida.
“In tropical regions, mosquitoes are
active all year, but that isn’t the case for the rest of the world. Outside of
the tropics, winter temperatures cause mosquitoes to go into a kind of
hibernation called diapause. We call these mosquitoes ‘cold bounded’ because
their activity is limited by these lower temperatures,” said Brett Scheffers,
senior author of the study and an assistant professor in the UF/IFAS wildlife
ecology and conservation department.
“However, with climate change, we
expect summers to get longer and winters to become shorter and warmer. What
will that mean for those cold bounded mosquitoes? How will they respond?”
Scheffers said.
To help answer those questions, the study’s authors conducted experiments with mosquitoes collected in and around Gainesville, a North Central Florida city on the dividing line between subtropical and temperate climates. Their study is published in the journal “Ecology.”
The researchers compared how mosquitoes collected during different parts of the year responded to changes in temperature.
“We found that the mosquitoes in our
study are what we call ‘plastic,’ meaning that, like a rubber band, the range
of temperatures they can tolerate stretches and contracts at different times of
year,” Scheffers said.
The researchers found that in the
spring, when nighttime temperatures are still cold and daytime temperatures
begin to warm up, mosquitoes can tolerate a larger range of temperatures. Come
summer, when daily temperatures are warm, that range contracts. In autumn, when
temperatures begin to cool off, the range stretches again, Scheffers explained.
“That tells us that as climate
change makes our autumns and winters warmer, mosquitoes in more temperate
regions are well prepared to be active during those times,” Scheffers said.
“Our results suggest that to better
understand how well populations and species may be able to tolerate ongoing
climate change, we need to measure species thermal responses across different
times of the year,” said Brunno Oliveira, the study’s first author, who
conducted the study while a postdoctoral researcher in Scheffers’s lab.
“This information would help us to
deliver a more accurate representation of the temperature range a species can
tolerate,” said Oliveira, now a postdoctoral research at University of
California Davis.A mosquito trap used in the experiment.
Photo courtesy of Gecica Yogo
For their experiment, the researchers collected the mosquitoes at more than 70 sites around Gainesville and the nearby UF/IFAS Ordway-Swisher Biological Station, a 9,500 acre research and conservation area located about 20 miles east of the city.
The scientists lured mosquitoes with special traps that emit carbon dioxide gas, the same gas that humans and animals exhale when we breath.
To a mosquito, a strong whiff of carbon dioxide
means a meal is nearby.
With these traps, the researchers
caught more than 28,000 mosquitoes representing 18 species. From this
collection, the scientists randomly sampled about 1,000 mosquitoes to test in
the lab.
Each mosquito was placed in a vial that was then put in a water bath. Over time, the researchers changed the water temperature, increasing or decreasing the temperature inside the vials.
The
scientists monitored each mosquito’s activity, noting when mosquitoes became
inactive, a signal that either the upper or lower temperature thresholds were
met.
Testing mosquitoes’ thermal tolerances in the lab.
Photo courtesy of Gecica Yogo
“It was surprising to see how well these little creatures could tolerate high temperatures during the experiments, often well above the mean ambient temperatures measured by the weather stations,” said Gécica Yogo, one of the study’s co-authors.
Yogo helped conduct the study while she was research scholar trainee at UF as part of her master’s program at AgroParisTech in France. She is now a soil carbon engineer at INRAE, the French National Institute for Agriculture, Food and Environment.
The researchers say they don’t yet
know what allows mosquitoes to adjust to rapid changes in temperature.
“Many people do not realize how quickly natural selection can act on short-lived animals,” said Daniel Hahn, professor in the UF/IFAS entomology and nematology department and a co-author of the study.
“Whether the changes we are seeing in mosquito thermal properties
are due to rapid natural selection across seasons, seasonal plasticity – much
like a dog changing its coat — or a combination of both, is what we are working
on now.”
The researchers say that insights
from this study can help communities better prepare for the impacts of climate
change as they relate to mosquitoes, which spread diseases that affect humans
and animals.
“The more mosquito activity there
is, the greater the risk of these diseases spreading. Knowledge is power, and
knowing that mosquitoes will be more active for more of the year can inform how
we get ready for climate change,” Scheffers said.
Peter Jiang, one of the study’s co-authors
and an entomologist with City of Gainesville’s Mosquito Control division, said
that residents play an important role in controlling mosquitoes now and in the
future.
Simple actions can keep mosquito
populations down, Jiang said.
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| Standing water is a mosquito breeding ground. Be sure to drain water on your property. UF/IFAS photo |
“Neighbors are encouraged to empty, remove or cover any receptacle that would hold water — particularly old bottles, tin cans, junk and tires — repairing leaky pipes, outside faucets and screens, covering or turning small boats upside down, and, twice a week, changing water in wading pools, bird baths, pet dishes and vases holding flowers or cuttings,” Jiang said.
Residents looking to learn more
about how to control mosquitoes can contact their local UF/IFAS Extension
office or their municipal or county mosquito control program.
In addition to informing
decision-making, studies like this one bring into focus an aspect of climate
change now getting more attention.
“When we talk about how climate
change might affect plants and animals, we are often talking about species
moving to new areas because the conditions are changing — in other words, the
arrival of something new. However, climate change will also affect species we
live with right now, like highly flexible mosquitoes, and that’s another aspect
to consider,” Scheffers said.
