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Resilient form of plant carbon gives new meaning to term 'older than dirt'
November 27, 2006A particularly resilient type of carbon from the first plants to regrow after the last ice age - and that same type of carbon from all the plants since - appears to have been accumulating for 11,000 years in the forests of British Columbia, Canada.
It's as if the carbon, which comes from the waxy material plants generate to protect their foliage from sun and weather, has been going into a bank account where only deposits are being made and virtually no withdrawals.
"Our results about the resilience of this particular kind of carbon suggest that the turnover time of this carbon pool may be 10,000 to 100,000 years," says Rienk Smittenberg, a research associate with the University of Washington School of Oceanography and lead author of the paper. He did the work while at the Royal Netherlands Institute of Sea Research.
Soils harbor the third-largest pool of carbon in the world behind the carbon locked deep in the Earth as fossil fuel oils and coal and the carbon that is dissolved in the world's oceans.
In soils, the more edible kinds of carbon from plants are quickly digested by bacteria and turned back into carbon dioxide. But about half the organic carbon in soils is less edible or protected from the bacteria, making it ultimately responsible for long-term carbon storage on land, the authors say.
This carbon pool is not likely to have a role in offsetting increased greenhouse carbon dioxide in the atmosphere any time soon because of the very slow processes at work, Smittenberg says. Instead a better estimate of how long that carbon persists in soils is important for modelers interested in carbon reserves on a timescale of 1,000 years or who are interested in changing carbon storage on land through time as vegetation changes.
For this work, the researchers obtained sediment cores from Saanich Inlet, a fjord on Vancouver Island in British Columbia. There low-temperature oxygen-starved bottom waters help preserve annual layers of sediments, some no less than a half-inch thick, that include matter from forest soils carried by water into the inlet.
Smittenberg used organic chemistry to isolate the plant wax molecules from other kinds of carbon, such as that derived from marine algae. Co-author Tim Eglinton of Woods Hole Oceanographic Institution did the radiocarbon testing.
Today's soils are comprised of a mix of organic matter that is 11,000 years old, zero years old from today's input and every age in between, Smittenberg says. The average age of the resilient waxy carbon is 5,500 years right now.
"It is likely that at least some of the resilient carbon has disappeared from the soils," he says. "It wouldn't be possible, for instance, to measure any in the fjord sediments if some of it hadn't eroded away," he says. "But this loss is relatively small compared to what is staying in the soils and the addition of more resilient organic matter.
"Thus the system is far from equilibrium as current models assume,\\\
University of Washington
Early hominid first walked on two legs in the woods
Among the many surprises associated with the discovery of the oldest known, nearly complete skeleton of a hominid is the finding that this species took its first steps toward bipedalism not on the open, grassy savanna, as generations of scientists - going back to Charles Darwin - hypothesized, but in a wooded landscape.
Study critiques corn-for-ethanol's carbon footprint
To avoid creating greenhouse gases, it makes more sense using today's technology to leave land unfarmed in conservation reserves than to plow it up for corn to make biofuel, according to a comprehensive Duke University-led study.
Dried mushrooms slow climate warming in Northern forests
The fight against climate warming has an unexpected ally in mushrooms growing in dry spruce forests covering Alaska, Canada, Scandinavia and other northern regions, a new UC Irvine study finds.
Earthworm activity can alter forests' carbon-carrying capabilities
Earthworms can change the chemical nature of the carbon in North American forest litter and soils, potentially affecting the amount of carbon stored in forests, according to Purdue University researchers.
Adapting agricultural practices to reduce the greenhouse effect
More than one-third of the greenhouse gases emitted into the atmosphere stem from agriculture and forestry. One of the current concerns is to find ways of managing agriculture differently in order to increase the level of carbon storage in soils and limit emission of gases that contribute to global atmospheric warming.
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Plant Litter: Decomposition, Humus Formation, Carbon Sequestration by Björn Berg (Author), Charles McClaugherty (Author) This fully revised and updated 2nd edition of Plant Litter focuses on decomposition processes in natural terrestrial systems such as boreal and temperate forests. The availability of several long-term studies from these forest types allows a more in-depth approach to the later stages of decomposition as well as to humus formation. It further briefly explores how processes are modified due to anthropogenic influences. Earlier findings are re-evaluated in light of recent research and with relevance to current areas of investigation. New concepts that modify or go beyond those already presented are covered and a new chapter on patterns of decomposition and accumulation on a regional scale was introduced. |
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Man Walking Down Dirt Road as Sky Fills with Dark Clouds From a Carbon Black Plant Photographic Poster Print by Alfred Eisenstaedt, 18x24 by Art.com Art.com is the world's largest retailer of art prints, posters, photographs, and framed artwork. With our huge selection of over 400,000 prints, you'll easily find the perfect piece for your home, office, or classroom. Our art is printed on quality paper. When you order framed artwork, the piece is built by our team of in-house professionals. Visit our Amazon store today at www.amazon.com/artdotcom to find Special Offers and search for products based on 'Artist Name' and 'Subject Categories' such as Movie, Music, Vintage, TV, Children, Travel, Kitchen, Museum Art, Animals, Floral, Motivational, and Sports. Art.com is dedicated to providing you with high quality products and service by offering you 100% satisfaction guaranteed. We ship internationally to over 80 countries. Decorate your... |
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Vintage Photosynthesis Biochemistry Science Film DVD: Classic Water, Oxygen Cycle, Plant Life, Sunlight & Carbon Video Photosynthesis is pretty much the most important biological process that takes place on this planet, because almost everything living depends on photosynthesis to survive. Gift of Green is a vintage science film dealing with the process of photosynthesis. Now, this digitized film is available on DVD for the first time ever! Table Of Contents: (1) Gift of Green (1946) - This is a vintage science class film featuring animation that shows the process of photosynthesis. Highly recommended and well-made for its era! - 16 Minutes |
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Nature Wonders ETNA Italy Directed By: TravelVideoStore.com Also With: TravelVideoStore.com (Producer) |
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Carbon Monoxide Detector by First Alert/Jarden First Alert. Monitors and detects carbon monoxide gas. It measures the concentration and sounds a loud alarm (85dB) when a potentially harmful level is reached. 2 silent features: Unwanted alarms and low battery silence. Instant test/reset button. UL list |
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Physiological Plant Ecology II: Water Relations and Carbon Assimilation; Encyclopedia of Plant Physiology, New Series, Volume 12B (Encyclopedia of Plant Physiology New Series) by O. L. Lange (Editor), Park S. Nobel (Editor), C. B. Osmond (Editor), H. Ziegler (Editor) | |
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Nitrogen and Carbon Metabolism (Developments in Plant and Soil Sciences) by J.D. Bewley (Editor) |
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How Plants Grow: Plant Parts and Their Functions Are Introduced [Grades K-5] Also With: Debbie Greenthumb (Narrator) This program discusses the growth of plants, from sprouting seeds to adult plants capable of producing food. Plant parts and their functions are also introduced. Debbie conducts some experiments to observe the sprouting of seeds and the movement of water through the stem of a plant. Roots, stems, leaves, and flowers and their functions are described. Photosynthesis and fertilization are also presented. Excellent tool to be used by those parents homeschooling their children. |
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Man Walking Down Dirt Road as Sky Fills with Dark Clouds From a Carbon Black Plant Photographic Poster Print by Alfred Eisenstaedt, 12x16 by Art.com Art.com is the world's largest retailer of art prints, posters, photographs, and framed artwork. With our huge selection of over 400,000 prints, you'll easily find the perfect piece for your home, office, or classroom. Our art is printed on quality paper. When you order framed artwork, the piece is built by our team of in-house professionals. Visit our Amazon store today at www.amazon.com/artdotcom to find Special Offers and search for products based on 'Artist Name' and 'Subject Categories' such as Movie, Music, Vintage, TV, Children, Travel, Kitchen, Museum Art, Animals, Floral, Motivational, and Sports. Art.com is dedicated to providing you with high quality products and service by offering you 100% satisfaction guaranteed. We ship internationally to over 80 countries. Decorate your... |
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Stable Isotopes and Plant Carbon-Water Relations (Physiological Ecology) by James R. Ehleringer (Editor), Anthony E. Hall (Editor), Graham D. Farquhar (Editor), Bernard Saugier (Editor) This 33-chapter volume presents a critical examination of the importance of stable isotopes in understanding key plant metabolic processes. Key Features * Carbon isotope analyses for estimates of plant water use and metabolism * Integrated estimates of stress impacts and life history in ecological systems * Hydrogen and oxygen isotope analyses for evaluating water sources and transpiration * Use of stable isotopes in scaling from leaf to global levels * Sections include: * History and Theoretical Considerations * Ecological Aspects of Carbon Isotope Variation * Agricultural Aspects of Carbon Isotope Variation * Genetics and Isotopic Variation * Water Relations and Isotopic Composition |
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