From a press release of Oak Ridge National Laboratory.
Key new ingredient in climate model refines global predictions
OAK RIDGE, Tenn., Oct. 9, 2009 — For the first time, climate scientists from across the country have successfully incorporated the nitrogen cycle into global simulations for climate change, questioning previous assumptions regarding carbon feedback and potentially helping to refine model forecasts about global warming.
The results of the experiment at the Department of Energy’s Oak Ridge National Laboratory and at the National Center for Atmospheric Research are published in the current issue of Biogeosciences. They illustrate the complexity of climate modeling by demonstrating how natural processes still have a strong effect on the carbon cycle and climate simulations. In this case, scientists found that the rate of climate change over the next century could be higher than previously anticipated when the requirement of plant nutrients are included in the climate model.
ORNL’s Peter Thornton, lead author of the paper, describes the inclusion of these processes as a necessary step to improve the accuracy of climate change assessments.
“We’ve shown that if all of the global modeling groups were to include some kind of nutrient dynamics, the range of model predictions would shrink because of the constraining effects of the carbon nutrient limitations, even though it’s a more complex model.”
To date, climate models ignored the nutrient requirements for new vegetation growth, assuming that all plants on earth had access to as much “plant food” as they needed. But by taking the natural demand for nutrients into account, the authors have shown that the stimulation of plant growth over the coming century may be two to three times smaller than previously predicted. Since less growth implies less CO2 absorbed by vegetation, the CO2 concentrations in the atmosphere are expected to increase.
However, this reduction in growth is partially offset by another effect on the nitrogen cycle: an increase in the availability of nutrients resulting from an accelerated rate of decomposition – the rotting of dead plants and other organic matter – that occurs with a rise in temperature.
Combining these two effects, the authors discovered that the increased availability of nutrients from more rapid decomposition did not counterbalance the reduced level of plant growth calculated by natural nutrient limitations; therefore less new growth and higher atmospheric CO¬2 concentrations are expected.
The study’s author list, which consists of scientists from eight different institutions around the U.S. including ORNL, the National Center for Atmospheric Research, the National Oceanic and Atmospheric Administration Earth System Research Laboratory, and several research universities, exemplifies the broad expertise required to engage in the multidisciplinary field that is global climate modeling.
“In order to do these experiments in the climate system model, expertise is needed in the nitrogen cycle, but there is also a need for climate modeling expertise, the ocean has to be involved properly, the atmospheric chemistry . . . and then there are a lot of observations that have been used to parameterize the model,” said Thornton, who works in ORNL’s Environmental Sciences Division.
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ORNL’s Peter Thornton is helping climate scientists incorporate the nitrogen cycle into global simulations for climate change.
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“The biggest challenge has been bridging this multidisciplinary gap and demonstrating to the very broad range of climate scientists who range everywhere from cloud dynamicists to deep ocean circulation specialists that [incorporating the nitrogen cycle] is a worthwhile and useful approach.”
The ability to handle the increase in complexities of these models was facilitated by the capabilities of ORNL’s Leadership Computing Facility, which currently houses the world’s fastest supercomputer for civilian research. Jim Hack, director of the National Center for Computational Sciences, emphasizes that Thornton and his team were not limited by computational resources in the construction of his model. “It’s one of the laboratory competencies, so we want to make sure we enable leadership science,” he said.
This breakthrough is one more step toward a more realistic prediction for the future of the earth’s climate. Nevertheless, potentially significant processes and dynamics are still missing from the simulations. Thornton also stresses the importance of long-term observation so scientists can better understand and model these processes.
A 15-year study of the role nitrogen plays in plant nutrition at Harvard Forest was an important observational source used to test their mathematical representation of the nitrogen cycle–a long experiment by any standards, but still an experiment that, according to Thornton, could improve the accuracy of the simulation if conducted even longer.
Other shortcomings of climate simulations include the disregard of changing vegetation patterns due to human land use and potential shifts in types of vegetation that might occur under a changing climate, although both topics are the focus of ongoing studies.
The research was funded by the DOE Office of Science. Additional resources were contributed by NASA Earth Science Enterprise, Terrestrial Ecology Program; National Center for Atmospheric Research through the NCAR Community Climate System Modeling program and the NCAR Biogeosciences program.
UT-Battelle manages Oak Ridge National Laboratory for the Department of Energy.
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Having been raised on a farm and ranch in NE Oregon, when I moved to Albany, Oregon, I promptly added 5 chickens to my in- town house. Within days. No slugs. No sow bugs. No ear wigs. No flowers either but the chickens were lots of fun and my lawn was crayon green in color.
My G-ma came to visit one summer, admired my chicken-fenced garden, and chastised me, as in nearly put me in the corner like she used to, for trying to kill blackberry vines. You can take the girl out of the country but you can’t take the country out of the girl.
Cascades. Isn’t that a ride at Six Flags?
I plant soybeans when I want to fix my nitrogen.
speaking of bean counters
Jeff! You can’t do that! If a man drinks red wine and eats chocolate, as in dark chocolate, in about 2 hours you will get man boobs!
“In this case, scientists found that the rate of climate change over the next century could be higher than previously anticipated when the requirement of plant nutrients are included in the climate model. ”
Well, that makes the improvements to the program output an even wronger result. At this rate of change, we’re not looking at boiling & drowning, we’re facing a melted Earth. By 2100, the Earth will be a blob of molten rock.
Oh, it’s much worse than anyone thought.
The computer model is set to jack up the warming prediction upon any change of input.
If they keep messing with it, pretty soon the Earth will turn into a black hole and swallow the Solar System whole, including the Sun, then go Supernova II.
…”as in nearly put me in the corner like she used to, for trying to kill blackberry vines…”
I thought she would get you for trying to kill Marionberry vines.
Let me see if I’ve got this right. Their models have been underestimating vegetative uptake of CO2 all along, so they’re now going to fix them by introducing a subroutine to reduce the estimates further. Yeah, I can see how that will work just fine.
Deborah (20:24:32) :
Got a remedy for gophers/moles etc.?
Remember that computer in Whiz Kids? The GCM is networked into the world, and it’s gone bonkers and will try to kill us all.
Unplug it. Whatever you do, don’t let it think you know what’s going on.
It’s evil.
LOVE the Fullbright Commission study mentioned above. (http://soyface.illinois.edu/results/AAAS%202004%20poster%20Leakey.pdf) My family owns lots of farmland in IL…can’t wait for the increased CO2!! I’ll be rich!
PS..just finished helping my daughter with her 7th grade plant report where we learned that plants can’t grow tall in the tundra because it is too cold and the growing season is too short, plus that pesky permafrost…so I guess the science book is all wrong that plants thrive in warmer weather…Oh, and won’t there be so much more water when it is warm from all those melting glaciers? And more space for growing the plants where the glaciers used to be?
Pamela,
if it is too cold up there, come and visit in SoCal!!!
Somehow, I don’t think these bozo’s ever took an agronomy course.
Soils either.
Nutrient management?
Ag Systems management?
rbateman (21:06:45) :
Unplug that b***h!!
Clunk. (The sound of the cord being yanked away).
Chris
Norfolk, VA, USA
Pamela, you are cracking me up!
Red or White?
Love it!
“They illustrate the complexity of climate modeling by demonstrating how natural processes still have a strong effect on the carbon cycle and climate simulations.”
This statement is astounding in its arrogance. the implication being that even though humans are now all-powerful ‘natural processes still have strong effects’! Who knew?
This article appears to assume that soil nutrient availability is the growth constraint. It does recognize a greater decomposition rate if temperatures are above freezing for more days per year but we have not actually witnessed that happening recently. As for higher temperatures overall causing more decomposition, when you have temperature change of 1 degree per century or maybe 1.5 degrees per century, the change in temperature over human’s lifetime is negligible.
More importantly, in studies I have seen with CO2 enrichment in the actual habitat and not greenhouses, growth was greatly stimulated by the enhanced CO2. There was no evidence of soil nutrient starvation. And given that the biomass creation would also result in a greater accumulation of decaying biomass, the initial increase in nutrient depletion should be compensated for later in the time line when a larger amount of biomass is decaying.
So lets say trees grow 3 times faster and they grow 2 times larger. They produce twice the leaf litter. The nutrients taken out are eventually replaced. And while the uptake rate increases first, the replacement rate also increases later so the system will find equilibrium at a higher rate of growth.
So what I would expect to see is an increase in growth, possibly some “overshoot” in areas that lack enough nutrients, followed by some die-back but eventually reaching equilibrium with more living biomass in the system.
Yes, the nitrogen cycle will be a limiting factor but other cycles such as phosphate play as well.
More BS underway:
Food production has to increase by 70%:
http://news.bbc.co.uk/2/hi/europe/8303434.stm
World Water Crises:
http://news.bbc.co.uk/hi/english/static/in_depth/world/2000/world_water_crisis/default.stm
The Looming Phosphate Crises
http://sei-international.org/index.php/-press/1698-the-page-has-been-moved?option=com_content&view=article&id=1618&catid=35&Itemid=86
Remedy for gophers/moles – as observed:
Get thyself a good field cat or small hunting-type dog…spayed/neutered of course…wouldn’t want there to be an overpopulation problem…
No models here though in ecology/bio classes we did do modeling of predator/prey relationships, so maybe it could be done…but I’m not sure I’d trust the models to predict the solution…especially not when plain old observation seems sufficient…
Now…if only the AGW modelers would look outside…
Pamela: What is the mindset in NW Oregon? My father came from Klamath Falls.
Phytoplankton Bloom in the Bering Sea
http://earthobservatory.nasa.gov/NaturalHazards/view.php?id=40716&src=eorss-nh
None of it matters:
http://climate.rutgers.edu/snowcover/chart_daily.php?ui_year=2009&ui_day=285&ui_set=2
Blue is snow anomoly above normal. Forget nitrogen, snowy weather is putting an end to this season.
I eye balled the positive snow anomoly this year to equal the size of the US. But, no point lingering on it, it ain’t news, move right along, nothing here.
Pamela Gray (18:33:24) :
September on the West coast from Mexico border to Canadian border during El Nino years: Drink up. The wine is in the caskets and everybody can get drunk on a dime. Bit o’ advice: Men should drink only white wine, women should drink the darkest red wine they can find. With chocolate.
Pamela, you are making me laugh! Thanks for being a bit cheeky tonight. Following your own advice…”Drink up?”
But please let me have some of the Red stuff.
Oh, BTW, the darkest red wine you can find….Robert Foley Petite Sirah….darkest wine you can find, if you can find any! The Black Hole of wine!
Big storm headed for Calif. Remnants of a typhoon off Japan fueling a N.Pacific low. The local news agencies are raising the red flags.
As this runs downhill, after hitting CA and passing the Great Basin, the Rockies & Plains are going to presumably get blasted.
I’ve worked with the O.R.N.L. crowd in years past. They are the geniuses who once lost an entire railroad-tank-car load of radioactive mercury, right there in the middle of a secured complex (they apparently didn’t appreciate how relentlessly the heavy stuff seeks a lower elevation). They also left a great part of the countryside immediately surrounding Oak Ridge, TN hot as a firecracker and unsafe even for “critters”.
After watching this crowd chase scientific butterflies for decades, including the dead-end Russian tokamak fusion design, I have little confidence in their collective scientific judgment.