With climate change threatening central Maine’s lakes, it is more important than ever to manage the watershed responsibly, according to speakers who will discuss the issue during a state conference on lakes and climate change Saturday.

The conference, sponsored by the Congress of Lakes Associations, comes just weeks after state lawmakers ordered the Department of Environmental Protection to resume working on a state plan geared toward meeting the challenges posed by a warming planet.

Belgrade resident Roy Bouchard, who retired from his position as a state lake biologist a year ago, is one of several speakers who will discuss the impact of climate change, which he said includes algea blooms, threats to fish species and less winter ice cover.

“A number of our lakes are right on the edge, places like Great Pond are showing really significant distress,” he said.

Central Maine lakes are particularly susceptible to the threats associated with climate change because they are more heavily populated and warmer than the mountainous regions that make up much of the rest of the state, he said.

Bouchard said Maine residents must accept that their children will not have the same level of water quality that the previous generations have.

“People buy property saying it’s always going to be the same,” he said. “That’s not true anymore.”

Bouchard, whose family has owned a place on Great Pond since the early ’60s, said he’s been tracking the health of Great Pond and China Lake for 25 years.

In that time, he’s seen a growing population in central Maine’s lakefront communities put development stress on the watershed.

“In Belgrade, the population has doubled since the ’80s,” Bouchard said, a far greater rate of growth than in the state as a whole, which increased by roughly 15 percent between 1980 and 2010, according to data from the U.S. Census Bureau.

The water quality has declined in many of the lakes, a trend that Bouchard said will continue.

“The ones that are marginal are going to be stressed,” he said. “The ones that are doing okay are going to be marginal.”

Bouchard said it’s impossible to separate out the impact of climate change on a lake from other factors that contribute to the same effects.

He said the effects of climate change are already being felt, and climate change models show that the pace of change will hasten over the next 20 to 30 years.

“The effects are not linear, not a slow creep,” he said. “The effects are accelerating.”

Mechanism of change

In the same way scientists track the shrinking of ice at the planet’s polar caps, researchers at the U.S. Geological Survey have been carefully combing through historical records to document the annual freezes and thaws of Maine’s lakes.

Bouchard said data shows lake surfaces are freezing later and melting earlier, leaving lakes uncovered by ice for as much as a month longer than they were several decades ago.

He said an early ice-out only nudges the average water temperature up by a degree or two, but the impact on the species who live there is massive.

As a lake warms, the water forms distinct layers of different temperature zones, a process called stratification. Every summer, while the lake is warm, the deep, cold layers trapped at the bottom lose their oxygen.

When the period of warm water is prolonged, salmon and trout, which have adapted to live in cold water, lose their habitat.

“They can’t breathe,” Bouchard said.

Climate change will also increase the likelihood of algal blooms, an undesirable lake condition that can threaten animal and human health, he said.

The absence of oxygen affects the chemical makeup of the water in such a way that phosphorus, a component of fertilizer, is released and feeds the algae that collectively form blooms.

On the surface, algae thrive in the warm water, forming colonies of pond scum.

While algae blooms in the Belgrade Lakes region haven’t been serious enough to threaten human health, Bouchard said, they will increase in frequency and intensity unless something is done.

He said warming regional temperatures also lead to more severe rainstorms, flushing more pollutants, such as phosphorus-laden fertilizer, into the lakes, further fueling algae growth.

In addition, when the ice and snow melt earlier, their meltwater flows through the freshwater system earlier in the year, making it more difficult for trout to spawn.

Bouchard said that, as regional temperatures rise, warm water species will migrate to Maine from the south, while some current Maine species will disappear from the area in favor of more northern climes.

“Landlocked salmon and brook trout, those fish are going to be pushed harder and their habitat is going to be moved north,” he said. “It’s quite clear that Maine is going to see their fish stocks edged out.”

Bouchard said brook trout, which the state currently stocks in freshwater habitats throughout Maine, will no longer survive. Instead, he said, they might turn to brown trout, which are more successful in warmer waters.

State to develop action plan

It’s difficult to craft a local solution to a global problem, Bouchard said.

However, he said state representatives need to be aware of the issues and how to best cope with them.

On June 12, the state Legislature approved a bill, L.D. 825, that would compel the Department of Environmental Protection to resume the study of long-term effects of climate change on the state.

In early 2011, the administration of Gov. Paul LePage halted the department’s work on a climate action plan for the state, saying such work is not a good use of state resources. Legislators said the bill will require the department to submit the plan in February 2015.

Bouchard said individuals and local communities can develop their own action plans that will have an impact.

“We need to manage our land use better,” he said. “We’ve known that for decades, but we now know that climate change is going to make it more important.”

He said people can take direct action to dramatically slow many of the effects of climate change.

When it comes to algal blooms and oxygen-starved fish, climate change can make things worse, he said. But people can make things better by removing phosphorus from the watershed, or blocking its path into the lakes.

“Preserve the habitat and it will be more resilient,” he said. “If we hammer the habitat and then it is subject to climate change, then it won’t be resilient.”

He said individuals and municipalities should pay more attention to ditching, culverts, use of fertilizers, and placement of vegetative buffers to slow phosphorus-bearing runoff into the lake.

Matt Hongoltz-Hetling — 861-9287
[email protected]


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