From Duke University and the Department of Obvious Science comes this study partially funded by NASA:
Standing trees better than burning ones for carbon neutrality
DURHAM, N.C. — The search for alternatives to fossil fuels has prompted growing interest in the use of wood, harvested directly from forests, as a carbon-neutral energy source.
But a new study by researchers at Duke and Oregon State universities finds that leaving forests intact so they can continue to store carbon dioxide and keep it from re-entering the atmosphere will do more to curb climate change over the next century than cutting and burning their wood as fuel.
“Substituting woody bioenergy for fossil fuels isn’t an effective method for climate change mitigation,” said Stephen R. Mitchell, a research scientist at Duke’s Nicholas School of the Environment. Wood stores only about half the amount of carbon-created energy as an equivalent amount of fossil fuels, he explained, so you have to burn more of it to produce as much energy.
“In most cases, it would take more than 100 years for the amount of energy substituted to equal the amount of carbon storage achieved if we just let the forests grow and not harvest them at all,” he said.
Mitchell is lead author of the study published in the peer-reviewed journal Global Change Biology Bioenergy. Mark E. Harmon and Kari E. O’Connell of Oregon State University co-authored the study.
Using an ecosystem simulation model developed at Oregon State, the team calculated how long it would take to repay the carbon debt – the net reduction in carbon storage – incurred by harvesting forests for wood energy under a variety of different scenarios.
Their model accounted for a broad range of harvesting practices, ecosystem characteristics and land-use histories. It also took into account varying bioenergy conversion efficiencies, which measure the amount of energy that woody biomass gives off using different energy-generating technologies.
“Few of our combinations achieved carbon sequestration parity in less than 100 years, even when we set the bioenergy conversion factor at near-maximal levels,” Harmon said. Because wood stores less carbon-created energy than fossil fuels, you have to harvest, transport and burn more of it to produce as much energy. This extra activity produces additional carbon emissions.
“These emissions must be offset if forest bioenergy is to be used without adding to atmospheric carbon dioxide concentrations in the near-term,” he said.
Performing partial harvests at a medium to low frequency – every 50 to 100 years or so – could be an effective strategy, O’Connell noted, but would generate less bioenergy.
“It’s a Catch-22,” she said. “Less intensive methods of harvesting release fewer emissions but yield less energy. The most intensive methods, such as clear-cutting, produce more energy but also release more carbon back into the atmosphere, prolonging the time required to achieve carbon sequestration parity.”
Given current economic realities and the increasing worldwide demand for forest products and land for agriculture, it’s unlikely that many forests will be managed in coming years solely for carbon storage, Mitchell said, but that makes it all the more critical that scientists, resource managers and policymakers work together to maximize the carbon storage potential of the remaining stands.
“The take-home message of our study is that managing forests for maximal carbon storage can yield appreciable, and highly predictable, carbon mitigation benefits within the coming century,” Mitchell said. “Harvesting forests for bioenergy production would require such a long time scale to yield net benefits that it is unlikely to be an effective avenue for climate-change mitigation.”
The research was funded by a NASA New Investigator Program grant to Kari O’Connell, by the H.J. Andrews Long-term Ecological Research Program, and by the Kay and Ward Richardson Endowment.
This paper seems to suffer a case of fatal confusion between the idea of using wood to substitute for fossil fuels and the idea of using wood to sequester carbon. The two are completely different, with different objectives and incompatible strategies. The paper offers a confused mishmash skipping back and forth between them as if they were the same thing. No wonder it doesn’t make sense.
I was astonished to read the other day that the UK plans to convert coal fire power stations to biomass and import much of the biomass, since they don’t have enough themselves. Canada and Australia were mentioned as sources.
http://www.reuters.com/article/2012/05/25/us-britain-biomass-power-idUSBRE84O0WR20120525
Shipping low a density energy source from the other side of the world. What a great idea (NOT).
When you think this thing can’t get more idiotic, it does.
This is one of those OMG moments. People got paid for this?
Interstellar Bill says:
May 31, 2012 at 2:42 pm
All this pious hand-wringing for a non-worry: CO2, a third-order ‘forcing’, beefed up in a padded super-villain costume & paraded to the world as the latest Wizard-of-Oz-style midget-behind-the-curtain.
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So would Hansen or Mann play the Wizard of COz?
Even driving Fred Flintstone mobiles will not mitigate climate change.
David V Goliath is the reason for studies like the above. A well funded Climate Liarlist machine.
http://joannenova.com.au/2012/05/does-climate-money-matter-is-a-monopoly-good-for-a-market/
Ken in Beaverton, OR says:
May 31, 2012 at 3:13 pm
Partially funded by NASA! Were they thinking of using wood to launch rockets? What ever happened to common sense??
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Since berylium spheres and dilithium are in short supply they’re doing research into treelithium. Apparently, it’s not going to well. More green is needed.
Our civilization is in decline.
What this Stephen guy majored in? I hope it wasn´t in biology or chemistry. I cannot believe that a person who studied plant physiology can talk seriously about carbon neutrality. And he gets a grant to study that.
Anybody who knows a little bit about plant physiology should know that CO2 is scarce. That is why RuBISco, the CO2 harvesting enzyme, is the most abundant enzyme on Earth. (Well, because of that and because it is really slow at fixing CO2)
I look forward to the day when it is generally realized that “emissions” are not worth consideration and that radiation is not the only means of heat transfer.
IanM
So is it better to pick up dead wood lying on the ground and burn it or let it decompose naturally?
Did someone say “pass us some more grant money and we’ll find out” ?
“Who would have thunk it? Standing trees better than burning ones”
Anthony, that has got to be one of your best headlines ever. I read it. I laughed. I closed the page. I opened it and laughed again. I’m still smiling. It’s perfect.
Be nice. Not every professor is blessed with a 100+ IQ, but they still have to publish something.
Huh? … a university study?
Some of these people will hold positions of influence in the future. That is a shocking realization.
Let’s save the world for the grandkids. Well if this is an indication of what the grandkids produce in university studies, then it can’t be saved.
Wow!
They have figured out how photosynthesis works!
The whole premise of burning every bit of the tree is stupid. Sawmillers can sequester carbon in homes and furnishings for hundreds of years offsetting emissions from use of alternatives such as plastics and steel – the sawdust and chips byproduct from sawmilling could be burnt for energy or even gassified (wood producer gas) and used to power vehicles. Every cycle of forest growth in this model sequesters more and more carbon in our homes in the form of wood and the growing trees take more carbon from the air than a mature forest.
Younger trees sequester more carbon than older trees.
Why not harvest them when they are mature and build something with them? Construction contributes to the economy and improves society. Maybe that’s why the study could not consider that option. Some corporation or small business might make a profit from construction. Comfortable homes might encourage folks to reproduce and raise more nasty humans.
Cave dwelling is so much more sustainable.
I have seen many studies like this that focus on the false dichotomy of clear-cuts versus un-touched wilderness, whereas neither approach maximizes carbon sequestration. As a forest land manager, I cultivate large, vigorous trees to optimize carbon, timber and biodiversity values simultaneously. This is achieved through repeated and timely thinning. We are harvesting all the time, right at the point a given stand starts to stagnate due to over-crowding, so the growth is phenomenal. From a carbon perspective, it doesn’t matter whether the cull trees are left standing dead, on the ground, or hauled away for lumber or biomass – they are all on an inevitable path to full CO2 emission. Might as well get some human value out of it before it gets recycled. What matters is that the remaining live trees have room to thrive, and are furiously sucking CO2 out of the atmosphere, doubling in volume per acre every 20 years or so in our neck of the woods (Pacific NW).
The pathetic state of our suppressed and retrogressing “no-touch” National Forests overwhelmingly repudiates this nonsense in the study:
“In most cases, it would take more than 100 years for the amount of energy substituted to equal the amount of carbon storage achieved if we just let the forests grow and not harvest them at all,”
Strategic harvesting is the KEY to optimum tree growth. Nature does the same culling process in her own sweet time. Properly manage a young forest for 100 years and it will steadily approach the maximum carrying capacity for its site – the volume equivalent of old-growth – and all the while you will be extracting valuable material. Leave the same second and third-growth forest alone for 100 years and you will see widespread overcrowding, disease & insect infestations, along with intense, soil-destroying wildfires that cause the carbon volume to gyrate wildly at low levels as the ecosystem attempts to re-establish its historical balance – all with no (or negative) economic benefit.
Oregon State U seems a bellweather for strange climate-related studies. Where’s Kari when we need her? Leave the forests standing! No more harvesting! Let the understory grow unchecked, and create a humungous fire hazard! Then, when it burns, wring hands! Blame it on unmitigated climate change! Send unemployed loggers in for treatment! Blah!
Cut down trees, coat them in plastic, CO2 sequestered. Build large raft cities from those and let the greens swirl around in them at the Grand Garbage Pacific Patch.
Poor sods in academia with a life that lacks purpose. Are there not enough quarries to put them to use? Have we run out of of chains and pick-axes?
And somehow it is ‘green’ to use metal studs and concrete for building, but not green to use a renewable source like trees. But I think I’ve figured it out. The mine and quarry owners are replanting for iron and rock growth looking to a later harvest, but of course the forest owners aren’t. That must be it. The science is now settled. Just send more money.
I wonder if the same researchers were making an analysis of corn based ethanol as a good way to mitigate C02, whether they would come to the same conclusion. Somehow, I think not.
Good grief. I submit LOTS of forests of Southern Pine are managed for carbon storage – with a sideline benefit called ‘lumber’. And they even renew the carbon sink by replanting!
This is embarrassing. X-/
Just think of all the money they could have saved if they’d just asked our resident member of the Union of Concerned Scientist.
Kenji, what do you think?
“The take-home message of our study is that…”
…these people sing hosannas at the obvious and can’t see the significant: man-made global warming is a canard. Was Sam Walter Foss speaking of Florida? Because here are those men.