Who sends out press releases on a Sunday? UCLA does when the content is expected to match Obama’s draconian climate announcement planned for Monday.
Reducing emissions will be the primary way to fight climate change, UCLA-led study finds
A new report by professors from UCLA and five other universities concludes that there’s no way around it: We have to cut down the amount of carbon being released into the atmosphere. The interdisciplinary team looked at a range of possible approaches to dissipating greenhouse gases and reducing warming.
Forget about positioning giant mirrors in space to reduce the amount of sunlight being trapped in the earth’s atmosphere or seeding clouds to reduce the amount of light entering earth’s atmosphere. Those approaches to climate engineering aren’t likely to be effective or practical in slowing global warming.
“We found that climate engineering doesn’t offer a perfect option,” said Daniela Cusack, the study’s lead author and an assistant professor of geography in UCLA’s College of Letters and Science. “The perfect option is reducing emissions. We have to cut down the amount of emissions we’re putting into the atmosphere if, in the future, we want to have anything like the Earth we have now.”
Still, the study concluded, some approaches to climate engineering are more promising than others, and they should be used to augment efforts to reduce the 9 gigatons of carbon dioxide being released each year by human activity. (A gigaton is 1 billion tons.)
The first scholarly attempt to rank a wide range of approaches to minimizing climate change in terms of their feasibility, cost-effectiveness, risk, public acceptance, governability and ethics, the study appears in the latest issue of the peer-reviewed scholarly journal Frontiers in Ecology and the Environment.
The authors hope the information will help the public and decision-makers invest in the approaches with the largest payoffs and the fewest disadvantages. At stake, the study emphasizes, are the futures of food production, our climate and water security.
Cusack, an authority on forest and soil ecology, teamed up with experts in oceanography, political science, sociology, economics and ethics. Working under the auspices of the National Science Foundation, the team spent two years evaluating more than 100 studies that addressed the various implications of climate engineering and their anticipated effects on greenhouse gases.
Ultimately, the group focused its investigation on the five strategies that appear to hold the most promise: reducing emissions, sequestering carbon through biological means on land and in the ocean, storing carbon dioxide in a liquefied form in underground geological formations and wells, increasing the Earth’s cloud cover and solar reflection.
Of those approaches, none came close to reducing emissions as much as conservation, increased energy efficiency and low-carbon fuels would. Technology that is already available could reduce the amount of carbon being added to the atmosphere by some 7 gigatons per year, the team found.
“We have the technology, and we know how to do it,” Cusack said. “It’s just that there doesn’t seem to be political support for reducing emissions.”
Of the five options the group evaluated, sequestering carbon through biological means — or converting atmospheric carbon into solid sources of carbon like plants — holds the most promise. One source, curbing the destruction of forests and promoting growth of new forests, could tie up as much as 1.3 gigatons of carbon in plant material annually, the team calculated. Deforestation now is responsible for adding 1 gigaton of carbon each year to the atmosphere.
Improving soil management is another biological means of carbon sequestration that holds considerable promise because soils can trap plant materials that have already converted atmospheric carbon dioxide into a solid form as well as any carbon dioxide that the solids give off as they decompose. Since the dawn of agriculture, tilling land has led to the loss of about half (55 to 78 gigatons) of the carbon ever sequestered in soil, the team reports. But such simple steps as leaving slash — the plant waste left over after crop production — on fields after harvests, so it could be incorporated into the soil, could reintroduce between 0.4 and 1.1 gigatons of carbon annually to soil, the study says. The approach would also improve soil’s ability to retain nutrients and water, making it beneficial for additional reasons.
“Improved soil management is not very controversial,” Cusack said. “It’s just a matter of supporting farmers to do it.”
The study also advocates a less familiar form of biological sequestration: the burial of biochar. The process, which uses high temperatures and high pressure to turn plants into charcoal, releases little carbon dioxide into the atmosphere. Under normal conditions, decaying plant life inevitably decomposes, a process that releases carbon dioxide into the atmosphere. But charred plant material takes significantly longer — sometimes centuries — to decompose. So the approach can work to keep carbon that has become bound up in plant life from decaying and respiring as carbon dioxide. And like working slash into the soil, adding biochar to soil can improve its fertility and water retention.
“Charcoal has been used as an agricultural amendment for centuries, but scientists are only now starting to appreciate its potential for tying up greenhouse gases,” Cusack said.
But not all biological sequestration would be so beneficial. The researchers evaluated the idea of adding iron to oceans in order to stimulate the growth of algae, which sequesters carbon. The approach ranked as the study’s least viable strategy, in part because less than a quarter of the algae could be expected to eventually sink to the bottom of the ocean, which would be the only way that carbon would be sequestered for a long period of time. The study predicted that the rest would be expected to be consumed by other sea life that respire carbon dioxide, which would end up back in the atmosphere. Additionally, increasing the algae blooms would likely wreak havoc by decreasing the oxygen available for other marine life.
The study’s second most promising climate engineering strategy, after carbon sequestration, was carbon capture and storage, particularly when the technique is used near where fuels are being refined. CCS turns carbon dioxide into a liquid form of carbon, which oil and coal extraction companies then pump into underground geological formations and wells and cap; millions of tons of carbon are already being stored this way each year. And the approach has the potential to store more than 1 gigaton permanently each year — and up to 546 gigatons of carbon over time — the study says.
However, a liquid carbon leak could be fatal to humans and other animals, and the risk – while minimal – may stand in the way of public acceptance.
“With CCS we’re taking advantage of an approach that already exists, and big companies pay for the work out of their own pockets,” Cusack said. “The hurdle is public perception. No one wants to live next to a huge underground pool of carbon dioxide that might suffocate them and their children – no matter how small the risk.”
Reducing the amount of sunlight that is heating up the atmosphere through measures such as artificially increasing the earth’s cloud cover or putting reflectors in outer space ranked as the study’s second least viable approach. While cloud seeding is cheap and potentially as effective as improving forestry practices, the approach and its potential impacts are not well enough understood for widespread use, the team concluded.
“Cloud seeding sounds simple,” Cusack said. “But we really don’t understand what would happen to the climate if we started making more clouds.”
Cusack’s collaborators were Jonn Axsen, assistant professor of resource and environmental management at Simon Fraser University in British Columbia, Canada; Lauren Hartzell-Nichols, acting assistant professor in the program on values in society and the program on environment at the University of Washington; Katherine Mackey, a postdoctoral researcher at Woods Hole Oceanographic Institution and the Marine Biological Laboratory in Woods Hole, Mass.; Rachael Shwom, assistant professor in human ecology at Rutgers University; and Sam White, assistant professor of environmental history at Ohio State University.
Of course, these conclusions are obviously derived from the standard CO2 climate models which greenies worship but have already been proven completely and utterly wrong.
Garbage in, garbage out.
The absence of professional engineers or economists is surprising.
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not surprising at all. no engineer would propose reducing CO2 as a solution to rising sea levels.
An engineer would tell you the solution to rising sea levels is to stop building in low lying areas. Buildings and infrastructure only lasts 50 years at most. By the time sea levels rise high enough, the threatened building will be need to be torn down anyways. Let the sea do it for you. Problem solved.
The economist would tell you that since the engineers have a solution that doesn’t cost anything, only that the bureaucrats and politicians stop giving out building permits in low lying areas, that for all practical purposes it will never work. Politicians and bureaucrats only approve grand sweeping solutions involving billions of dollars, so that they can look important.
“………..increasing the Earth’s cloud cover and solar reflection.”
They want to reduce the amount of sunlight coming in to deal with CAGW. Then, at the same time, we are supposed to switch to using solar panels for our electricity instead of fossil fuel and nuclear power plants.
With “brilliant” light bulbs like these people, the country doesn’t need any idiots.
Reducing man-made CO2 by 78% is absurd.
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Not only that, but it would not stop CO2 from increasing.
To stop CO2 from increasing, man-made CO2 needs to be reduced by 100%. If we want to return to per-industrial levels, man-made CO2 needs to be reduced by more than 100%. How can we do this?
Human activity produces 9 gigatons of CO2 each year. However, human’s produce 3 gigatons of CO2 each year simply by breathing. Thus, if we got rid of all humans on earth, this would reduce man-made CO2 by:
(9+3)/9 = 133%
Houston, we have a plan.
They lie and then steal our freedom, will to fight, money and personal power. Then concentrate it in the hands of a few in government and universities. That is what they mean by co2 capturing technology…after they are done with this they will go after fracking and the remaining oil. In the end it will not make any difference in the world climate except the world will be a much uglier place to live with out the US leading and being the hope for others to fight on.
notice how they effortlessly switch between saying “carbon” and “CO2” as if they were the same. this is a pure PR/marketing dept tactic. also notice how all of the reports out recently do the exact same thing, as well as with their overall feel. its almost like they have been synchronized by some higher authority….hmmm
emsnews says:
June 1, 2014 at 7:03 am
And unlike right wingers who talk about global cooling, we must understand humans cannot proliferate eternally.
Somehow you’ve linked adherents of smaller government and fiscal sanity, with a cooling planet and humans proliferating eternally??? Just wow.
Maybe you were still waiting on your morning cup of joe while writing this?
What climate change??????????????????????????????????????????????????????
the team spent two years evaluating more than 100 studies that addressed the various implications of climate engineering and their anticipated effects on greenhouse gases.
IOW, they studied studies and didn’t do any original work. That’s called data mining.
emsnews says:
June 1, 2014 at 7:03 am
“And unlike right wingers who talk about global cooling, we must understand humans cannot proliferate eternally. There is an upper limit to growth.”
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The most basic tenet of left wing ideology is that too many human beings exist and that measures must be taken to reduce human populations. Nearly all left wing political maneuverings are rooted in that assumption and are designed to implement population control. What would you propose is the upper population carrying capacity of the planet?
Actually this is quite brilliant, politically.
The LIV believer their lying leaders.
They believe there is global warming.
Therefore the Liar In Chief will impose “action” to stop Global Warming.
There being none= Mission Accomplished.
Liar in Chief can now claim to have stopped global warming, saving us all.
A brilliant cover for the most odious theft from the (poor)many, to enrich the few.
A cover for the reemergence of that ugly stupidity, Eugenics.
A brilliant cover for the parasites from our bureaucracies to establish permanent “Rights to Loot”, unseen since the abolishment of feudal lords and kings.
When we finally tally up the money and the lost opportunities this CAGW lie has cost us, the question will be; Will the useful idiots share the gallows with their bandit friends?
“We found that climate engineering doesn’t offer a perfect option,” said Daniela Cusack
Thank fcuk for that !
The rest is complete hogwash of course.
“Working under the auspices of the National Science Foundation, the team spent two years evaluating more than 100 studies that addressed the various implications of climate engineering and their anticipated effects on greenhouse gases.”
Two years to produce this? And they finish their study THE DAY BEFORE Obama announces his climate plan???
“The perfect option is reducing emissions. We have to cut down the amount of emissions we’re putting into the atmosphere if, in the future, we want to have anything like the Earth we have now.”
Patently incorrect on multiple levels. No need to control co2 levels or even maintain the current emission rates. Try viewing some original data presented here by Dr. Easterbrook (all presented is peer reviewed… about one hour):
[ http://www.youtube.com/watch?v=4LkMweOVOOI ]
They want to “reduce global warming”. Except that global temperturess have been declining for the last 6 or 7 years, about when the PDO went negative (yes / no ? Bob Tisdale? ). If the current solar cycle is lower than the level required to maintain temperatures or make temperatures climb then continued global cooling is already baked in to the system. Add to that an expectation that solar cycle 25 will be the lowest witnessed in modern science, then although we may see some sort of brief additional temperature rise just due to variability, the medium term (20 + years) outlook is more likely to be prolonged cooling. This will make discussion of “climate engineering” mute.
I believe the Obama Admin realizes AGW is dead, both in the public consciousness and scientifically. What we are seeing is the first shot across the bow of a replacement; that CO2 is a dangerous pollutant because of health concerns, not because of global warming.
Regulating CO2 means regulating just about everything. And rising CO2 from human sources is the only part of AGW that all sides agree on. So we keep that part, and just swap out the consequences.
It changes everything; a whole new battle to fight. Climate drops out of the equation entirely. Sure, funding for AGW science will fade, but also “climate skeptics” will no longer be relevant either.
If I wanted to be an Evil Overload, and I could see the handwriting on the wall, that’s how I’d approach it.
“With CCS we’re taking advantage of an approach that already exists, and big companies pay for the work out of their own pockets,” Cusack said.
So companies never would raise the price of a product to account for the added cost of CCS. These boys have lost the bubble.
Wrong audience. Tell the Chinese and Indians.
Is this correct? If the US completly stopped emitting human caused c02 the temperature would only drop .05 degrees in 50 years
mark my words…he’s going to double down on this
Obamacare was a flop…..and he has to be important
nc says:
June 1, 2014 at 8:54 am
Is this correct? If the US completly stopped emitting human caused c02 the temperature would only drop .05 degrees in 50 years
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only in Miami
It’s going to be a trifecta: the Sunday press release; O’s speech on Monday; and don’t overlook tonight’s episode of Cosmos, which promises to be wholly devoted to Climate Change (I think we all know how that will go . . . ), and which will repeat on Monday. The PR machine is going into overdrive.
Carbon capture and storage?
We can do it cheaply, in a relatively stable form, that will effectively remove the risk of CO2 leaks.
We just stop recycling paper. Instead of sending old paper stock off to the recycling plants, we send it off to old strip mines and cover it with a big pile of dirt. We can even include all of the old wood products we don’t need any more. Seed it with methane-eating bacteria, if you want to be thorough.
That would be good for a solid 50-100 million tons per year for the US alone. Sure, it’s probably only good for a fraction of that, CO2-equivalent, but it would be pretty damned stable for a few hundred years at least, and would cost a tiny fraction of what we’d spend on those silly CO2 sequestration boondoggles.
Storing CO2 underground as a liquid is not the only way to sequester CO2. Skyonic Corp from Austin, Texas, has a tested, patented process with a commercial plant currently under construction in San Antonio. see http://skyonic.com/ Skyonic was founded by chemical engineer Joe Jones, who also patented the process.
I think the reason is more likely special interests of some sort. It seems to me to be a struggle between coal and oil/gas or something like that, because the message is:
Coal bad, gas good
and is akin to “Two legs bad, four legs good.”