Leaders from Detroit’s Big Three automakers say they’ll
double the number of vehicles that run on renewable fuels by 2010.
The GLRC’s Dustin Dwyer has more:
Transcript
Leaders from Detroit’s Big Three automakers say they’ll double the number of vehicles
that run on renewable fuels by 2010. The GLRC’s Dustin Dwyer has more:
General Motors, Ford and the Chrysler group have lagged behind their foreign rivals in
producing fuel-saving hybrid technology. But they’ve been out front when it comes to
producing cars and trucks that can run on ethanol-based E85.
Now, the heads of the three companies say they’ll have 10 million E85 capable vehicles
on the road by the end of the decade. And they’re asking Congress to help gas stations
pay for installing more E85 pumps.
Sue Cischke is Ford’s Vice President of Environmental and Safety Engineering. She says
E85 cuts down on the use of fossil fuels:
“And there really is a net benefit from a CO2 standpoint from ethanol produced by corn.”
Some critics argue that if you include the energy needed to grow and refine the corn,
ethanol doesn’t provide much of an environmental benefit.
Mark Kubiske checks the valve that controls the flow of greenhouse gases to a stand of sugar maples, birch and aspen. (Photo by Jennifer Simonson)
One part of the greenhouse gas-making facility. (Photo by Jennifer
Simonson)
A stand of trees is surrounded by pipes that release greenhouse gases. (Photo by Jennifer Simonson)
Scientists from around the world are studying how higher levels of carbon dioxide will affect forests 100 years from now. They’re doing that by pumping higher levels of CO2 and ozone into stands of trees. The Great Lakes Radio Consortium’s Mike Simonson visited the experimental forests and has this story:
Transcript
Scientists from around the world are studying how higher levels of carbon dioxide will affect forests 100 years from now. They’re doing that by pumping higher levels of CO2 and ozone into stands of trees. The Great Lakes Radio Consortium’s Mike Simonson visited the experimental forests and has this story:
(sound of “quiet area”)
The north woods of the Great Lakes states are stands of millions of acres of pine, maple, birch, and aspen forests. It’s a perfect place to try to figure out how trees will react to the higher levels of ozone and carbon dioxide scientists expect in the future.
(sound of beeping fence gate)
The first thing you notice at Aspen Free Air Carbon Dioxide Enrichment Project – Aspen FACE for short – is two huge tanks inside the fenced in enclosure. Each one is bigger than an 18-wheel tanker truck. They’re full of carbon dioxide… CO2. So much CO2 is used in this experiment, the tanks are filled twice a day.
(sound of filling tanks)
If you looked at the site from an airplane, you’d see 12 circular tree stands surrounded by 30 foot high pipes. Those pipes pour CO2 or ozone gases or both into the air surrounding birch, sugar maple, and aspen trees. The scientists know that greenhouse gases in the earth’s atmosphere have been increasing. They believe two centuries of industrial pollution has contributed to the problem. And they expect the CO2 and ozone levels to double by the end of this century. They’re raising the level of greenhouse gasses in different mixes to see what the predicted levels will do to forests.
This open air project is different than previous experiments. David Karnosky is with Michigan Tech. He’s the Project Manager for Aspen FACE. He says before these kinds of projects, they just tested trees inside places like greenhouses.
“We needed to get out of those chambers. We needed to have a more realistic, real world sort of situation where we had multiple trees. We wanted real intact forest communities. We didn’t want to have just a small number of trees inside of a chamber.”
The United States Department of Energy launched this experiment in Wisconsin’s northwoods seven years ago. Karnosky says they’re learning how the trees react to the higher CO2 levels, and that could shape the future of the world’s timber industry.
“Who will be the winners? Who will be the losers? Will aspen or birch or sugar maple? In northern Wisconsin here we’ve got probably 40 million acres of those species mixes. What’s going to happen under elevated CO2 in the next 100 years? Will these forests remain as they are?”
(sound of driving on gravel)
Driving to one of the experimental circles, we pull up to a ring of trees. Mark Kubiske is one of the two full-time on-site researchers.
“Now this particular ring is an elevated CO2 plot. CO2 is delivered through this copper pipe. It runs to that fan, there’s a large fan right on the end of that gray building.”
The scientists have found that trees in the CO2 circles grow 30 percent faster than trees without the gas.
“The trees are larger in diameter, they’re straight, they have lots of leaf area, they just look very healthy. That is just in tremendous contrast to the ozone ring. We’ll go up around the corner and look at one.”
Nearby another circle of trees is not doing nearly as well. The trees are skinny, twisted not as tall as the other sites. Higher ozone levels are hurting the trees.
At the sites where pipes emit both ozone and CO2, the tree growth seems normal – except for some stunted maple trees. The leaves of the aspen and birch take in much of the CO2, convert it to sugar which goes to its roots, eventually becoming a natural part of the soil. That suggests forests may help alleviate gases that cause global warming. The Project Director, David Karnosky says CO2 and ozone appear to cancel each other out. But he says it’s too early to draw any firm conclusions. Ultimately, he says governments will be able to look at this glimpse into the future and try to come up with emissions policies that help.
“The whole issue of the Kyoto protocol, our government not signing off on that. There’s been some relaxing of the feelings from what I’ve seen from the President’s report now that they’re beginning to realize that elevated CO2 is having an impact on global warming and could be impacting our plant communities.”
Karnosky says it’s possible that besides reducing emissions, governments might determine that planting more trees might be very helpful in reducing greenhouse gasses worldwide.
For the Great Lakes Radio Consortium, I’m Mike Simonson.
Satellite imaging shows that spring thaws in the northern latitudes are happening almost a day earlier each year. Environmental scientists worry that faster melts could accelerate global warming. The Great Lakes Radio Consortium’s Corbin Sullivan explains:
Transcript
Satellite imaging shows that spring thaws in the northern latitudes are
happening almost a day earlier each year. Environmental scientists worry
that faster melts could accelerate global warming. The Great Lakes Radio
Consortium’s Corbin Sullivan explains:
The satellite readings show that the spring thaw in
the Alaskan tundra and northern forests is coming
more than a week earlier than it did in 1988.
John Kimball co-authored a study of the NASA
images. He says the greenhouse effect is responsible
for earlier melting. And he warns that faster thaws
could lead to more greenhouse gases in the
atmosphere.
“The potential here is that this warming will
actually reinforce that greenhouse related warming
trend that we’re seeing. That would occur at a much
faster rate.”
Kimball says microorganisms in the arctic soil are
the reason for the increase in heat-trapping gases.
He says the organisms become active when the soil
thaws, breaking down carbon in the soil and
releasing methane and carbon dioxide.
Kimball says an earlier thaw means more
greenhouse gases will be produced each year. That’s
in addition to the gases produced by human sources
like automobiles and power plants.
For the Great Lakes Radio Consortium, I’m Corbin
Sullivan.
One of the gases that figures prominently in the global climate debate is carbon dioxide. Scientists believe CO2 emissions can be reduced if carbon in the atmosphere is “stored.” Economists want to incorporate carbon storage into a market-driven solution to regulate emissions. The Great Lakes Radio Consortium’s Ann Murray has this story about climate change, forests, and the emergence of a carbon trading market:
Transcript
One of the gases that figures prominently in the global climate debate is carbon
dioxide.
Scientists believe CO2 emissions can be reduced if carbon in the atmosphere is
“stored.”
Economists want to incorporate carbon storage into a market driven solution to
regulate
emissions. The Great Lakes
Radio Consortium’s Ann Murray has this story about climate change, forests, and the
emergence of a
carbon trading market:
Climate experts say the earth’s temperature started to change about 150 years ago.
That’s when
people began to burn coal and gas and oil to run factories and generate electricity.
These fossil
fuels release carbon dioxide into the air. CO2, a “greenhouse gas,” traps the
sun’s heat.
Climatologists warn that unless carbon dioxide emissions are curbed, the planet will
continue to
heat up. Scientists are now looking to nature to counteract this human influx of
carbon.
Coeli Hoover with the U.S. Forest Service is among these scientists.
“There’s a plot over there.”
For the past three summers, Hoover and technicians from the Forestry Sciences Lab in
Warren
County, Pennsylvania have traveled to hardwood forests in the northeastern United
States.
“What we’re doing is trying to get a basic handle on how much carbon is stored in
these different
forests and how management might change that.”
Today, Hoover is in the Monongahela National Forest in West Virginia. She and her
team gather
their equipment from their van. As they head to a stand of cherry, maple and beech
trees, Hoover
explains some basic biology about carbon storage and trees.
“They pull carbon dioxide out of the air to make sugars, carbohydrates for trees to
live on. And in
the process that carbon gets stored as wood. And carbon also get stored in the soil.”
Hoover’s study is the first to examine carbon stored in forest floors and soils.
The regional study
looks at uncut forests and those that have been thinned. Hoover wants to see if
different forest
management practices affect the amount and type of stored carbon.
(knife cutting around forest floor)
This morning, Hoover and a technician use a knife and template to cut small sections
of the forest
floor, the layer of organic material above the soil. After the forest floor samples
are labeled and
bagged, the crew takes samples of the soil.
(sound of slide hammer core)
They dig 12 holes per plot with a slide hammer core. That’s a metal cylinder with a
cutting tip on
the edge and brass core sleeves inside.
“This method allows us to get these really nice depths without having any doubt of
what we’re
getting.”
Hoover says the whole point of her study is to eliminate the carbon guessing game.
Because
there’s little information about belowground carbon, it’s been hard to establish
how much carbon
is stored in forests. Scientists call this a “carbon budget.” The big picture,
says Hoover, is
important because of the emergence of a domestic carbon trading market. A market
where
foresters can grow trees, store carbon and make money.
“Right now carbon dioxide isn’t regulated as a pollutant. There are people who
think that it
probably will be. There’s voluntary reporting where companies can report their C02
emissions
and their uptake for different projects. So there’s a lot of experimental work
going on.”
An experimental program in Chicago is working to give industry a reason to reduce
carbon
dioxide output. The Chicago Climate Exchange will begin trading carbon credits. If
a company
reduces its CO2 output by installing new technologies, that difference can be sold
on the
exchange. Companies will buy credits that represent storage of carbon in either
trees or soil. Dr.
Richard Sandor is the founder of the Climate Exchange.
“We are going to have projects which would have to be monitored and verified and
approved by
our offset and forestry committees where people would agree to reforest. If a
particular project
that absorbs 100,000 tons of carbon in the aboveground biomass can be measured, then
people
sell those on the exchange.
Sandor says this isn’t the first time that pollution credits have been traded in the
United States.
He points to the success of the sulfur dioxide market. Sulfur dioxide is the main
component in
acid rain. The U.S. EPA estimates that this market driven program has cut sulfur
dioxide output in
half and saved $50 billion a year in health and environmental costs.
Not everyone sees such a sunny future for carbon trading. Some critics believe that
CO2
emissions must be regulated by the government or through the international
greenhouse gas
agreement called the Kyoto Protocol.
Others worry that foresters or landowners will resort to single age, single species
tree plantations
to quickly fulfill contracts.
(forest sounds)
Back in the Monongahela National
Forest, Coeli
Hoover says biodiversity need not suffer.
“I don’t think that you have to manage for carbon or sustainable timber production.
I think you
can do both and manage for wildlife. I don’t think there are a lot of tradeoffs
there.”
We probably won’t know the success of carbon trading in the United States for
another five or ten
years. The Bush administration has refused federal regulation of carbon dioxide and
for now, has
left the solution to the markets.
For The Great Lakes Radio Consortium, I’m Ann Murray.
Some physicians are concerned about the United States not attending the final talks on the Kyoto Protocol on global warming held in early November. The physicians say global warming is already a problem and is adding to a number of public health threats. The Great Lakes Radio Consortium’s Lester Graham reports:
Transcript
Some physicians are concerned about the United States not attending the final talks on the Kyoto Protocol on global warming held in early November. The physicians say global warming is already a problem and is adding to a number of public health threats. The Great Lakes Radio Consortium’s Lester Graham reports.
Some physicians believe the increase in infectious disease outbreaks such as West Nile virus, Lyme disease, and Hantavirus are connected to global warming. They say the warming already seen contributes to the spread of the viruses. The warming also could be causing more volatile weather –such as sudden storms in some parts of the Great Lakes region. That can cause flooding of sewer systems that lead to illnesses. Bob Musil is the Executive Director of Physicians for Social Responsibility. He says the group is encouraging politicians to upgrade sewer systems to cope with the changes.
“There are sudden storm surges, sudden precipitation leads to flooding in combined sewage and storm drains. In the state of Michigan in our report we discussed this problem. And we actually, as physicians, go and talk to the responsible officials.”
But the physician’s group says adapting to the changes only treats the symptoms. Musil says the long-term problem can only be dealt with by reducing air pollutants that cause global warming, something the group says the U-S is refusing to do right now. For the Great Lakes Radio Consortium, I’m Lester Graham.
Researchers are developing models to try to
determine what the effects of global warming will be on the
Great Lakes region. Photo by Jerry Bielicki.
Some scientists in the Great Lakes basin are looking at how global warming might be affecting the region, both today and long into the future. The Great Lakes Radio Consortium’s Lester Graham has the story:
Transcript
Some scientists in the great lakes basin are looking at how global warming
Might be affecting the region, both today and long into the future. The
Great lakes radio consortium’s Lester graham reports.
Many researchers in a number of different fields are coming to the same basic conclusion: the earth is warming and it’s affecting the Great Lakes. So far, the effects have been difficult to track, unlike watching the day-to-day changes in the weather. Measuring climate change requires measurements over many decades, or better yet over centuries. There are only a few places where weather measurements have been taken over that long of a period. But, where they have, researchers are finding weather is becoming more chaotic and indications are that the long-term climate is warming.
Many climatologists believe that warming is due at least in part to greenhouse gases, that is, pollution in the upper atmosphere trapping more of the sun’s heat, much in the same way a greenhouse works.
Taylor Jarnigan is a research ecologist with the U-S Environmental Protection agency who’s been looking at one aspect of climate change. He’s been studying whether increasing amounts of lake effect snow from Lake Superior over the past century, especially the past 50 years, is evidence of a change in the temperature of the lake. Preliminary study suggests that the lake’s surface temperature is warming, and that causes more snow when cold air passes over it. But he says the amount of snow has varied widely from year to year.
“Some of this variability is certainly due –in my opinion– to an increasing volatile climate system itself. El niño and la niña are becoming more intense, so you have an increasing oscillation between, say, an usually warm summer followed by an unusually cold winter which tends to produce an unusually large amount of snow.”
The surface temperature of the lake has only been monitored for a few decades, while snowfall depths have been recorded for much longer. Jarnigan says, since there seems to be a direct correlation between the surface temperature of the lake and snowfall, he can calculate the temperature of the lake going back more than a century, and finds that Lake Superior is getting warmer.
When researchers find direct measurements that have been taken for more than a century, they feel fortunate. For example, John Magnuson with the University of Wisconsin has been reviewing the conclusions from the Intergovernmental Panel on Climate Change. That’s the international organization established by the United Nations to study global warming. As a part of that review, Magnuson has been looking over shipping and harbor records that date back 150 years or more to see if there’s evidence of global warming. One thing he’s learned is that lakes and streams aren’t iced over for as long as they once were.
“And in the last hundred-and-fifty years we’ve seen significant changes in lakes around the entire– lakes and streams around the entire northern hemisphere. The date of freezing on the average and the date of break up is changing by about six days per century.”
And Magnuson says that six day change on both ends of the freeze-thaw cycle mean that there’s nearly two weeks less ice coverage than a century ago.
That seems to bolster research at the National Oceanic and Atmospheric Administration’s Great Lakes Ecological Research Laboratory. Studies there indicate that over the last several years Great Lakes ice coverage on average is not as far ranging and doesn’t last as long as it did historically.
There’s no certain way to tell what might happen to the Great Lakes if the apparent warming trend continues.
But there are some ways to speculate. There are at least two computer models that try to estimate how much warmer the climate in the Great Lakes region might become by the year 2090. Based on those models, researchers have tried to figure out what that might mean for the area. Peter Sousounis was working at the University of Michigan at the time of that research. He says using either computer model it looks as though crops would produce more. Soybean yields could double. But other predictions are not as beneficial. It looks as though Great Lakes water levels would drop, probably about three feet more than they’ve already dropped, causing some problems for shipping. The study also found algae production would decrease by 10 to 20 percent. That’s important because algae provide the base for the Great Lakes’ food chain. Pine trees might also be all but eliminated from the region, and Sousounis says dangerously high ozone days might occur twice as often.
“Our findings indicate there are some potentially serious consequences in terms of reduced lake levels impacting shipping across the region, some serious economic impacts that if we don’t learn how to deal with these, there are going to be some serious changes in our lifestyles.”
Critics say the models can’t represent all of the variability in nature, so it’s difficult to be sure about any of the predictions. An adjustment here or there can lead to all kinds of alternative scenarios. Sousounis concedes more work needs to be done and more variables plugged into the models, but he’s convinced change will come; the degree of change is the only question.
These days, very few scientists argue against the studies that suggest the earth is warming. John Magnuson with the University of Wisconsin says a few DO argue that the change might merely be natural climate variability – that is, Mother Nature taking an interesting twist– and not necessarily a warm-up caused by manmade greenhouse gases.
“The skeptics, or the more cautious people, what they do when they look at that range of variation over the last thousand years, what they see is there is a signal in the warming that’s coming above the historic variation of climate. And, the climatologists of the world collectively feel there’s very strong evidence that warming is occurring, that greenhouse gases are a very significant part of that warming.”
Magnuson says most mainstream scientists agree climate change is happening, and even dramatic reductions in greenhouse gases won’t prevent some continued global warming over this century. But most say reducing pollution would slow the rise in temperatures and curtail the warming sooner. Only time will tell how that warming will change the Great Lakes region, and all of the researchers we talked to say in the meantime we’ll likely see more chaotic roller coaster type weather patterns as never before in recorded history.
For the Great Lakes Radio Consortium, this is Lester Graham.
Researchers are developing models to try to
determine what the effects of global warming will be on the
Great Lakes region. Photo by Jerry Bielicki.
Researchers are trying to determine how global warming might affect this region. The Great Lakes Radio Consortium’s Lester Graham reports:
Transcript
Researchers are trying to determine how global warming might affect this region. The Great Lakes Radio Consortium’s Lester Graham reports.
Using two different sophisticated computer climate models, researchers are asking questions such as what happens to the water levels in the Great Lakes. Both models predict they drop even farther, causing shipping problems. They predict crops will produce more, and they predict some trees will die off. Peter Sousounis is one of the researchers studying the models. He says the region needs to consider what appears to be happening.
“I’m concerned that we won’t be prepared, we will not have done our homework. I think as a society we can certainly adapt, if we are given enough time. And if we don’t adapt, life might adjust to a new mean state all around.”
While nearly all climatologists believe the earth is warming, not everyone agrees whether the changes will be harmful. Sousounis agrees more research needs to be done to try to determine what the effects might be. For the Great Lakes Radio Consortium, this is Lester Graham.
Some unusual clouds were spotted over parts of the western United States
this summer. Those who have seen them say they’re strangely beautiful;
they’re visible only at night, and appear silvery-white and luminous.
They’re called noctilucent (knock-til-loo-cent) clouds. But as the Great
Lakes Radio Consortium’s Wendy Nelson reports, the clouds may be a sign that
all’s not well in the upper atmosphere:
Since signing of the Kyoto Agreement in 1997, governments around the world
have struggled to reach carbon dioxide reduction targets. But as Great Lakes
Radio Consortium commentator Suzanne Elston points out, targets and quotas
leave most consumers out in the cold:
