Tag: surface temperature

Trees Under the Influence of Ozone and Co2

  • The circle of trees, as seen from the outside. The white pipe seen near the top delivers either normal air, one, or both of the experimental gasses to the trees. (Photo by Bob Kelleher)

In northern Wisconsin, they’re finding that gasses such as carbon dioxide and ozone will change the makeup of what survives in a future forest. An open air experiment called the Aspen FACE project has been testing trees in elevated levels of ozone and carbon dioxide for ten years. But they don’t know whether the forest can change as quickly as the climate does. The GLRC’s Bob Kelleher has more:

Transcript

In northern Wisconsin, they’re finding that gasses such as carbon dioxide and ozone will
change the makeup of what survives in a future forest. An open air experiment called the
Aspen FACE project has been testing trees in elevated levels of ozone and carbon dioxide
for ten years. But they don’t know whether the forest can change as quickly as the
climate does. The GLRC’s Bob Kelleher reports:


We’re standing inside a circle of trees: paper birch, aspen, and sugar maples, maybe 15
feet high. And they’re surrounded by a ring of large white pipes spraying the trees with
gasses – that’s the high pitched noise.


Among 12 different circles of trees, some get carbon dioxide, or ozone, or a
combination. These are the very gasses believed responsible for changing the climate –
they hold in the earth’s warmth, forcing surface temperatures higher.


Dave Karnosky, with Michigan Technological University, heads the Aspen FACE project,
near Rhinelander, Wisconsin. Karnosky’s trying to predict how these gasses will affect
the northern forest:


“Those species, with aspen and aspen mixed with birch and maple make up a huge
portion of our northern forests, and there was a lot of interest by industry as well as to
what’s going to happen in the future as these greenhouse gasses continue to build up in
the atmosphere.”


Even ten years ago, when this project started, it was clear that carbon dioxide and ozone
levels were on the increase.


Ozone is destructive. It’s bad for people and for plants. Carbon dioxide, on the other
hand, is what we exhale, and what green plants need to grow. Both gasses have been on
the increase, largely due to burning fossil fuels such as in coal-fired power plants and in
cars and trucks. Karnosky says he knew aspen were quite responsive to both CO2 and
ozone:


“We weren’t sure much about the interaction, but we were sure interested in what would
happen with that, because those two pollutants are both increasing at about the same rate
in the atmosphere.”


The Aspen FACE project has shown that most trees grow well when exposed to carbon
dioxide, and most do poorly in ozone. With the gasses combined, bad effects tend to
offset the good ones, but results vary greatly between the different kinds of trees, and
even within a single species of trees, like aspen.


Karnosky has found there’s a tremendous range of genetic variation even among the
relatively few trees they’ve tested. That variation makes clear predictions difficult:


“It’s very tough to make a single prediction for species or individuals within species,
there’s so much genetic variation. So that’s been one of the, I think, kind of the highlights
from what I see in terms of a bit of a surprise for us.”


That genetic variation could be the forest’s salvation. Karnosky thinks that if some
aspens, for example, die off from ozone, maybe others will do okay, and fill the forest
back in. Sugar maples, which seem more tolerant of ozone, could replace some aspen
and birch. Then, the mix of trees in the forest would change, but the forest would
survive.


But, there could be problems if the air changes the forest too quickly. Neil Nelson is a
plant physiologist with the US Forest Service. Nelson says the region’s paper and pulp
industries rely heavily on aspen trees. He’s uncertain how quickly the forest, and forest
industry, can respond if aspen begins to die off – and how long it might take for other
trees to grow in.


“One of my colleagues has said, you know, the key issue may be whether things change
too fast for our society and economy to adjust to, and I think that’s an open question.
There seems to be great plasticity, and we aren’t quite there in terms of predicting from a
forest management standpoint what these results mean.”


It takes time to grow trees, maybe too much time if the climate suddenly shifts. The
Aspen FACE project has already provided regulators preliminary data on ozone. It could
become the basis for future pollution law. But, even ten years into the Aspen Face
project, there’s still a lot more data to harvest among the aspen and hardwoods.


For The GLRC, I’m Bob Kelleher.

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What Will Global Warming Bring?

  • 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.

WHAT WILL GLOBAL WARMING BRING? (Short Version)

  • 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.