 |
|
Fires in far northern forests to have cooling, not warming, effect
November 17, 2006GAINESVILLE, Fla. - Droughts and longer summers tied to global warming are causing more fires in the Earth's vast northernmost forests, a phenomenon that will spew a steadily increasing amount of carbon dioxide into the atmosphere.
Many scientists have predicted that the result of this influx of greenhouse gas will be even more warming, followed by even more fires and so on - a vicious climactic cycle.
But a team of scientists, including two University of Florida ecologists, has arrived at just the opposite conclusion. Their research shows that while the carbon released by burning high-latitude forests of North America, Europe and Russia will no doubt have a warming effect, it will be less than an unexpected cooling effect. That will come from millions of new deciduous trees reflecting the sun's light away from Earth with their light green leaves in the summer. In the winter, these trees lose their leaves, and white snow on the ground will reflect even more light.
A paper about the research is set to appear Friday in the journal Science.
"The reflectivity effect in the long run is larger than the carbon effect," said Michelle Mack, a co-author and a UF assistant professor of ecology in the botany department.
The research is of broad interest because it calls for a re-examination of strategies to reduce carbon dioxide emissions through human-wrought changes to ecosystems, such as forest management and tree plantations. These strategies have been widely discussed since the 1990s. The study doesn't suggest that such so-called "carbon sequestration" plans will never work. Indeed, reducing atmospheric carbon is generally a good idea, say Mack and Ted Schuur, a UF assistant professor of ecology in the botany department and a co-author.
Rather, the study implies that scientists need to look at the entire chain of events in a plan to manage climate effects using ecosystems before concluding how the plan will contribute to, or offset, a warming effect.
"What we're showing," Schuur said, "is that if you are going to manage an ecosystem to have an effect on the climate via carbon sequestration, you need to consider all the other climate forcing factors you may be changing at the same time."
Northern, or boreal, forests occupy 5.7 million square miles, or 14.5 percent, of the earth's land surface. They store 30 percent of Earth's "carbon pool" in plants and soils.
Scientists agree that the effects of global warming are most severe nearest the poles, and boreal forests are already facing longer summers and more prolonged dry periods. This has spurred many large fires, with the most massive forest fires in recorded Alaskan history occurring in the summer 2004.
While carbon emissions from these fires have long been thought to contribute to global warming, the UF and other researchers decided to look at other associated climate effects of fires. They focused on both the single year after an Alaska fire and for an 80-year period during which plants and trees would re-grow over the burnt landscape.
Seventeen researchers from at least nine universities and research institutes conducted a wide range of investigations for the study, which examined the site of the 1999 Donnelly Flats crown fire, a fire that burned about 18,780 acres in Alaska's interior.
At UF, Mack measured the amount of carbon released in the burning of black spruce, the most common tree species in North American boreal forest, and the re-growth of new vegetation. Schuur studied the exchange of carbon dioxide between boreal soils and the atmosphere. Other scientists examined the so-called "albedo," or amount of light reflected from spruce, burned soils and broad-leaved trees.
The scientists plugged their field observations and satellite data into computer models, which extended the results eight decades. The first year following fire was warmer, due in part to added carbon, aerosol and ozone from burning, the researchers found. But the models came to the opposite conclusion relatively quickly, within 10 to 15 years.
The main reason was that the first trees to replace the burnt conifers were aspen, birch and other deciduous trees, with large light-green leaves. These leaves reflected more of the sun's energy than did the dark green, thin-needled black spruce, and as a result, less of the incoming energy went into heating the ecosystem. Even more important, in the winter the birches and other deciduous trees lose their leaves - revealing even more reflective (white snow. The black spruce would eventually grow back, but it will take a long time to dominate the deciduous trees and reduce the reflected light, the researchers said.
University of Florida
A paper about the research is set to appear Friday in the journal Science.
"The reflectivity effect in the long run is larger than the carbon effect," said Michelle Mack, a co-author and a UF assistant professor of ecology in the botany department.
The research is of broad interest because it calls for a re-examination of strategies to reduce carbon dioxide emissions through human-wrought changes to ecosystems, such as forest management and tree plantations. These strategies have been widely discussed since the 1990s. The study doesn't suggest that such so-called "carbon sequestration" plans will never work. Indeed, reducing atmospheric carbon is generally a good idea, say Mack and Ted Schuur, a UF assistant professor of ecology in the botany department and a co-author.
Rather, the study implies that scientists need to look at the entire chain of events in a plan to manage climate effects using ecosystems before concluding how the plan will contribute to, or offset, a warming effect.
"What we're showing," Schuur said, "is that if you are going to manage an ecosystem to have an effect on the climate via carbon sequestration, you need to consider all the other climate forcing factors you may be changing at the same time."
Northern, or boreal, forests occupy 5.7 million square miles, or 14.5 percent, of the earth's land surface. They store 30 percent of Earth's "carbon pool" in plants and soils.
Scientists agree that the effects of global warming are most severe nearest the poles, and boreal forests are already facing longer summers and more prolonged dry periods. This has spurred many large fires, with the most massive forest fires in recorded Alaskan history occurring in the summer 2004.
While carbon emissions from these fires have long been thought to contribute to global warming, the UF and other researchers decided to look at other associated climate effects of fires. They focused on both the single year after an Alaska fire and for an 80-year period during which plants and trees would re-grow over the burnt landscape.
Seventeen researchers from at least nine universities and research institutes conducted a wide range of investigations for the study, which examined the site of the 1999 Donnelly Flats crown fire, a fire that burned about 18,780 acres in Alaska's interior.
At UF, Mack measured the amount of carbon released in the burning of black spruce, the most common tree species in North American boreal forest, and the re-growth of new vegetation. Schuur studied the exchange of carbon dioxide between boreal soils and the atmosphere. Other scientists examined the so-called "albedo," or amount of light reflected from spruce, burned soils and broad-leaved trees.
The scientists plugged their field observations and satellite data into computer models, which extended the results eight decades. The first year following fire was warmer, due in part to added carbon, aerosol and ozone from burning, the researchers found. But the models came to the opposite conclusion relatively quickly, within 10 to 15 years.
The main reason was that the first trees to replace the burnt conifers were aspen, birch and other deciduous trees, with large light-green leaves. These leaves reflected more of the sun's energy than did the dark green, thin-needled black spruce, and as a result, less of the incoming energy went into heating the ecosystem. Even more important, in the winter the birches and other deciduous trees lose their leaves - revealing even more reflective (white snow. The black spruce would eventually grow back, but it will take a long time to dominate the deciduous trees and reduce the reflected light, the researchers said.
University of Florida
Carbon Dioxide News and Current Carbon Dioxide Events RSSGroundbreaking research shows DEET's not sweet to mosquitoes
Spray yourself with a DEET-based insect repellent and the mosquitoes will leave you alone. But why? They flee because of their intense dislike for the smell of the chemical repellent and not because DEET jams their sense of smell, report researchers at the University of California, Davis.
MSU's discovery of plant protein holds promise for biofuel production
Scientists at Michigan State University have identified a new protein necessary for chloroplast development. The discovery could ultimately lead to plant varieties tailored specifically for biofuel production.
Cataloguing invisible life: Microbe genome emerges from lake sediment
When entrepreneurial geneticist Craig Venter sailed around the world on his yacht sequencing samples of seawater, it was an ambitious project to use genetics to understand invisible ecological communities. But his scientific legacy was disappointing - a jumble of mystery DNA fragments belonging to thousands of unknown organisms.
Monash team learns from nature to split water
An international team of researchers led by Monash University has used chemicals found in plants to replicate a key process in photosynthesis paving the way to a new approach that uses sunlight to split water into hydrogen and oxygen.
Up, Up and Away: Studying Volcanoes With Balloon
People do all kinds of crazy things in Hawaii, but flying balloons over a volcano usually isn't one of them. Unless you're Adam Durant, that is.
Measures to assess potential lung injury during ventilation inadequate
Ventilator-induced injury to the lungs can contribute to prolonged respiratory failure and even death among patients with acute respiratory distress syndrome (ARDS).
Turning Waste Material into Ethanol
Say the word "biofuels" and most people think of grain ethanol and biodiesel. But there's another, older technology called gasification that's getting a new look from researchers at the U.S. Department of Energy's Ames Laboratory and Iowa State University. By combining gasification with high-tech nanoscale porous catalysts, they hope to create ethanol from a wide range of biomass, including distiller's grain left over from ethanol production, corn stover from the field, grass, wood pulp, animal waste, and garbage.
A bug's life... in a bubble
Hundreds of insect species live mainly underwater, but how do they breathe? University of Alberta researcher Morris Flynn did a study to find out how these species are able to remain underwater without drowning.
Antarctic Fossils Paint a Picture of a Much Warmer Continent
National Science Foundation-funded scientists working in an ice-free region of Antarctica have discovered the last traces of tundra--in the form of fossilized plants and insects--on the interior of the southernmost continent before temperatures began a relentless drop millions of years ago.
Vine invasion? UWM ecologist looks at coexistence of trees and lianas
Among the hundreds of species of woody vines that University of Wisconsin-Milwaukee ecologist Stefan Schnitzer has encountered in the tropical forests of Panama, the largest has a stalk nearly 20 inches in circumference.
More Carbon Dioxide News Articles
 | Voluntary Carbon Markets: An International Business Guide to What They Are and How They Work (Environmental Markets Insight Series) by Ricardo Bayon, Amanda Hawn, Katherine Hamilton ** By the end of 2006 the world carbon market will top $30 billion in transactions and the first carbon billionaire may well have emerged** HSBC, Volvo, Avis, Ricoh, and American Express are but a few of the thousands of companies now offsetting their CO2 emissions and becoming "carbon neutral", fuelling a massive international voluntary carbon market that is growing exponentially** This is... |
 | How to Live a Low-Carbon Life: The Individuals Guide to Stopping Climate Change by Chris Goodall That climate change is happening is now all too clear. Many of us want to take action to reduce our carbon dioxide emissions. Yet the lack of a consolidated source of reliable information on how to calculate one’s individual emissions and the difficulty in assessing different options for effectiveness and cost savings has proven to be a major stumbling block. But personal actions to reduce... |
 | Gas Trees and Car Turds: Kids' Guide to the Roots of Climate Change by Kirk Johnson Global warming is a complicated problem. Gas Trees and Car Turds is a fun, fast read about the carbon cycle: trees are made of air and water, electricity is made from coal that is made from trees, gasoline is made from plankton, and all of these things are related to each other and to our climate through carbon dioxide. This colorfully illustrated book makes carbon dioxide, an invisible... |
 | CO2 Rising: The World's Greatest Environmental Challenge by Tyler Volk The most colossal environmental disturbance in human history is under way. Ever-rising levels of the potent greenhouse gas carbon dioxide (CO2) are altering the cycles of matter and life and interfering with the Earth's natural cooling process. Melting Arctic ice and mountain glaciers are just the first relatively mild symptoms of what will result from this disruption of the planetary energy... |
 | The Climate Diet: How You Can Cut Carbon, Cut Costs and Save the Planet by Jonathan Harrington We live in a world of excess. We consume too much of everything—food, clothes, cars, bricks and mortar. Our bingeing is often so extreme that it threatens our own health and well being. And we are not the only ones who are getting sick. The Earth—which provides the food, air, water and land that sustains us—is also under severe pressure. Gluttonous consumption of nature's... |
 | Plan B: Rescuing a Planet under Stress and a Civilization in Trouble by Lester R. Brown A bold new plan for those concerned about rising temperatures, population projections, and spreading water scarcity. Lester Brown notes that if the environmental trends of recent decades continue, the global economy will soon begin to unravel. The food sector, he believes, is the most vulnerable. Record-high temperatures and falling water tables are already taking the edge off grain harvests in... |
 | Carbon Dioxide Recovery and Utilization Carbon Dioxide Recovery and Utilization is a complete and informative resource on the carbon dioxide sources and market at the European Union level, with reference to the world situation. The book covers the following themes: - Sources of carbon dioxide and their purity, - Market of carbon dioxide and its uses, - Separation techniques of carbon dioxide from flue gases, - Analysis of the... |
| The Survival of Civilization Depends Upon Our Solving Three Problems: Carbon Dioxide, Investment Money and Population - Selected Papers of John D. Hamaker by John D. Hamaker, Donald A. Weaver | |
 | CO2 in Seawater: Equilibrium, Kinetics, Isotopes (Elsevier Oceanography Series) by R.E. Zeebe, D. Wolf-Gladrow Carbon dioxide is the most important greenhouse gas after water vapor in the atmosphere of the earth. More than 98% of the carbon of the atmosphere-ocean system is stored in the oceans as dissolved inorganic carbon. The key for understanding critical processes of the marine carbon cycle is a sound knowledge of the seawater carbonate chemistry, including equilibrium and nonequilibrium properties... |
 | Laser Cutting Guide for Manufacturing by Charles L. Caristan The fast rise of laser cutting's popularity in the world market indicates it can no longer be considered a high-tech science reserved for a few specialists. Laser Cutting Guide for Manufacturing presents practical information and troubleshooting and design tools from a quality manufacturing perspective. Equally applicable to small shops as it is to large fabricator companies, this guide is a... |
| © 2008 BrightSurf.com |