How climate change will bring more pests, disease to South Shore and beyond
Last month in Egypt, floods from heavy rain drove swarms of "deathstalker" scorpions from their hideouts and into people's homes. More than 500 people were stung, and some Egyptian scientists began to publicly make connections to climate change, saying they'd never seen such intense flooding touch residential areas.
New England may not have scorpions burrowing in its hills, but it does have insect and arachnid populations that people will begin to see more of.
Climate change is causing a rapid decline in some species – such as butterflies and honeybees – while also making the planet more hospitable for others. Across the New England region, warming temperatures, milder winters and periods of increased rainfall make an ideal recipe for an increase in ticks and mosquitoes, experts say. It's also paving the way for new species to move north.
As these populations expand, the question becomes: Will the risk for the infectious diseases they carry – such as Lyme disease, babesiosis, West Nile and Eastern equine encephalitis viruses – increase too?
Both the Environmental Protection Agency and the Centers for Disease Control and Prevention acknowledge studies pointing to climate change as contributing to the extended range of ticks, increasing the potential risk of Lyme disease, and accelerating mosquito development and biting rates.
"The more water and more heat that we get, the more available mosquitoes there are to carry all of these viruses," said Todd Duval, entomologist for the Bristol County Mosquito Control Project in Massachusetts. "Everything that helps these animals survive and thrive, which is warmer winters, that helps the diseases perpetuate."
This past spring and summer have provided ample wet conditions for mosquitoes, Plymouth County Mosquito Control Project Superintendent Ross Rossetti said.
“We did have (a) substantial population of mosquitoes,” he said. “This past year was one of the wettest summers that we’ve ever had.”
The Plymouth project will spend time this winter working to keep water from stagnating, which creates conditions for mosquitoes to thrive.
“We’re doing ditch cleaning, trying to keep water moving,” Rossetti said. “We’re trying to eliminate as much standing water as we can.”
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Climate change is among a handful of factors affecting vector-borne disease transmission, according to a recent study by Rhode Island researchers on tick-borne diseases and climate change. Other environmental and socioeconomic factors, such as housing development and population growth, complicate "direct predictions of climate change effects on future disease distribution patterns," the study said.
Tick expert Dr. Sam Telford, professor of infectious diseases and global health at Tufts University Cummings School of Veterinary Health, said he doesn't see the epidemiological evidence yet, noting "it could go either way."
Besides the familiar pests, New Englanders may begin to see insects they've never come across before, such as the southern pine beetle. Native to forests in the Southern U.S., the beetle, which is the most destructive and deadly insect to pine trees, has crept north amid the warming climate.
"They can kill hundreds of thousands of acres a summer," said Claire Rutledge, an entomologist with the Connecticut Agricultural Experiment Station.
A 2017 study by climatologists at Columbia University said about 40,000 square miles of pitch pine forests from eastern Ohio to southern Maine will become hospitable to the beetle by midcentury. And by 2080, those conditions could extend into Ontario and Quebec.
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Ticks like humidity, precipitation, mild winters
Larry Dapsis, deer tick project coordinator and entomologist for the Cape Cod Cooperative Extension, said his phone "rings way more than it used to."
As New England trends toward milder winters, that's good news for ticks and bad news for humans. The warmer temperatures mean fewer disease-carrying ticks will die off, leading to an increase in the tick population.
Dapsis tells people that tick season is 365 days a year now. Weather and temperature trends will determine whether ticks become more active during atypical times.
"Ticks actually make a chemical called glycerol, which is anti-freeze," said Dapsis. "They are a perfectly engineered little package, so when it gets really, really cold, they just hunker down. And when it gets up above freezing, they're up and active."
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Ticks in the nymph stage, Dapsis said, account for 85% of tick-borne diseases, and they're expected to emerge earlier in the spring because of warmer temperatures. Nymphs typically show up in mid- to late May, he said.
Climate change has also introduced new tick species to New England.
"Ecologists say, 'You want a sign of climate change? Let's look at the Lone Star tick,' " said Dapsis. "The Lone Star tick has been moving northward steadily for years. Between climate change and migratory birds, now it's the third tick in our landscape of public health importance."
The Asian longhorned tick, an invasive species first identified in the U.S. in 2017, is "on our doorstep," he said. It's been found in Connecticut and Rhode Island, as well as a handful of other states.
Cases of Lyme disease, transmitted primarily by deer ticks, have doubled in the U.S. over the past two decades, but reporting techniques vary and don't take into account factors like population growth and development.
EPA data shows among the states where the disease is most common and where cases have been tracked consistently from 1991 to 2018, Maine and Vermont have experienced the largest increases in reported case rates, followed by New Hampshire. The data, however, is missing numbers from Connecticut, Massachusetts and Rhode Island because those states have changed their reporting methods, making it difficult to calculate an accurate trend, the EPA said.
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On the other side of the coin, Tufts University's Telford, who has long been on a crusade against Lyme disease, said climate change could result in New England becoming more like its Southern neighbors. South of Virginia, Lyme is fairly rare. The Lone Star tick doesn't carry Lyme, and as the species has moved north, in places like Long Island, New York, it's begun to dominate the deer tick population.
"The Lone Star tick is not as much of a vector as deer ticks are," Telford said. "But there's no question that people are now suffering in southern New England and the islands because the Lone Star tick has invaded. It is much more of a pest situation."
'It was our largest mosquito season'
A 2019 study published in Nature Microbiology by an international team of researchers showed that climate change will expose half of the world's population to disease-spreading mosquitoes by 2050.
Like ticks, warmer temperatures are helping mosquitoes survive. Duval, the Bristol County entomologis, said mosquito larvae tend to hang out in white cedar swamps and cavities of trees during the winter, sheltering from the cold.
"Mild winters are good for them," he said. "We're not getting these freezing winters that tend to keep everything in check."
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What's interesting about mosquitoes, and in particular the diseases they carry, Duval noted, is that they'll benefit from two climate extremes: drought and increased precipitation. And in New England, climatologists say the region is expected to have more dry spells punctuated by shorter deluges of precipitation, as demonstrated this past summer.
During droughts, birds are pushed to sources of water, and where mosquitoes breed. Being in close quarters with birds means mosquitoes are more likely to contract West Nile and EEE from them as they congregate in one place.
On the other hand, Duval said, lots of rain usually results in a "huge, huge flush of brand-new mosquitoes."
"This season was about two weeks longer than it usually is, and it was also our largest mosquito season, largely attributed to the two hurricanes that came through," he said. "All of that helps to prime the mosquito habitats. The floodplains and woodland pools and our swamps."
Southern pine beetles have made their way to New England
In 2015, scientists first discovered that the beetle most deadly for pine trees had found its way to southern New England, specifically Connecticut. It appeared as though the insects had "just rained down out of the sky," said state entomologist Rutledge.
"It was very surprising to find them," she said.
Nearly seven years later, the beetle has been tracked all across Connecticut, in Rhode Island and on Cape Cod. Rutledge said scientists are seeing "larger and larger numbers" each year, a trend that's likely to continue as long as global warming persists and milder winters become a norm.
"The critical thing for (the beetles) is the minimum winter temperature, and we need the temperature to be minus-13 Fahrenheit for at least a couple nights (to keep populations in check)," she said. "We just have not been doing that on a regular basis in Connecticut."
A polar vortex during the 2015-16 winter likely helped stifle the population growing in New England, Rutledge said, but there haven't been winters like that since.
As a result, southern pine beetles could go from an "endemic" – where they solely attack weak trees – to an "epidemic," where the population builds up enough to initiate "mass attacks," Rutledge said, and overwhelm a healthy tree's defense system.
Female southern pine beetles find host trees and begin chewing their way beneath the bark while releasing pheromones to attract others to the area. Trees can die from fungal infections as a result of the beetles' feeding.
"When you have a lot of beetles attacking a tree, you get tree mortality within six months," said Rutledge.
Of particular worry are New England's pitch pine trees, a "favored host" to southern pine beetles. The region's pitch pine barrens are "really at risk," Rutledge said, if the beetles are able to flip to an epidemic stage.
Reporter Alexandra Weliever contributed to this report.
This article originally appeared on USA TODAY NETWORK: More ticks, mosquitoes, southern pine beetles due to climate change
