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Biofuels Make Greenhouse Gases Worse
vortex2.71 sends us to the Seattle Times for an account of two studies published in the prestigious journal Science pointing to the conclusion that almost all biofuels used today cause more greenhouse-gas emissions than conventional fuels if the full emissions costs of producing these "green" fuels are taken into account. "The benefits of biofuels have come under increasing attack in recent months, as scientists took a closer look at the global environmental cost of their production. These plant-based fuels were originally billed as better than fossil fuels because the carbon released when they were burned was balanced by the carbon absorbed when the plants grew. But that equation proved overly simplistic because the process of turning plants into fuels causes its own emissions — for refining and transport, for example. These studies... for the first time take a detailed, comprehensive look at the emissions effects of the huge amount of natural land that is being converted to cropland globally to support biofuels development."
So an effort to fix global warming made things worse? How surprising.
The article cites no references nor names any of the "eminent" scientists. I smell political propaganda.
Just callin' it like I see it.
While I've always thought that using cropland to produce biofuels is unethical and ineffective. On the other hand, small scale production can make a huge amount of sense.
For example, the biodiesel I run in my Jetta is made locally at a rendering plant out of waste fats. So, not only am I being a little more carbon neutral compared to buying fossil fuels that have been transported long distances, I'm also keeping what would otherwise be wastes from going into the landfill.
...si hoc legere nimium eruditionis habes...
so, either we kill ourselves by burning coal and oil, or we kill ourselves chopping forests.
you know what ? fuckit!!!
if we're so stupid we can't find a stable balance to ensure the survival of the specie, so be it. let mass extinction come. and in 60 million years from now, some form of land dweling squid will be unearthing our bones, just like we do with the dinosaurs.
What ? Me, worry ?
Yes, corn ethanol has a very low yield and has no business being used for fuel - this is very well known. As the article states, "Searchinger said the only possible exception he could see for now was sugar cane grown in Brazil, which takes relatively little energy to grow and is readily refined into fuel." which is entirely unsurprising to anyone who's looked at this stuff before. Corn is only popular in the US, and only because it's subsidized.
How about a discussion on SVO (Straight Vegetable Oil) from crops like Chinese Tallow, and the newer algae production processed instead.
Forget thrust, drag, lift and weight. Airplanes fly because of money.
Use of U.S. Croplands for Biofuels Increases Greenhouse Gases Through Emissions from Land Use Change
Timothy Searchinger 1*, Ralph Heimlich 2, R. A. Houghton 3, Fengxia Dong 4, Amani Elobeid 4, Jacinto Fabiosa 4, Simla Tokgoz 4, Dermot Hayes 4, Tun-Hsiang Yu 4
1 Woodrow Wilson School, Princeton University, Princeton, NJ, USA. German Marshall Fund of the U.S., Georgetown Environmental Law and Policy Institute.
2 Agricultural Conservation Economics, Laurel, MD, USA.
3 Woods Hole Research Center, Falmouth, MA, USA.
4 Center for Agricultural and Rural Development, Iowa State University, Ames, IA, USA.
How Green Are Biofuels?
Jörn P. W. Scharlemann and William F. Laurance
Mit der Dummheit kämpfen Götter selbst vergebens
Both papers are published in Science Express rather than the regular journal yet. Here are the abstracts:
Land Clearing and the Biofuel Carbon Debt
Joseph Fargione Jason Hill David Tilman Stephen Polasky, Peter Hawthorne
Increasing energy use, climate change, and carbon dioxide (CO2) emissions from fossil fuels make switching to lowcarbon fuels a high priority. Biofuels are a potential lowcarbon energy source, but whether biofuels offer carbon savings depends on how they are produced. Converting rainforests, peatlands, savannas, or grasslands to produce food-based biofuels in Brazil, Southeast Asia, and the United States creates a 'biofuel carbon debt' by releasing 17 to 420 times more CO2 than the annual greenhouse gas (GHG) reductions these biofuels provide by displacing fossil fuels. In contrast, biofuels made from waste biomass or from biomass grown on abandoned agricultural lands planted with perennials incur little or no carbon debt and offer immediate and sustained GHG advantages.
Use of U.S. Croplands for Biofuels Increases Greenhouse Gases Through Emissions from Land Use Change
Timothy Searchinger, Ralph Heimlich R. A. Houghton, Fengxia Dong, Amani Elobeid, Jacinto Fabiosa, Simla Tokgoz, Dermot Hayes, Tun-Hsiang Yu
Most prior studies have found that substituting biofuels for gasoline will reduce greenhouse gases because biofuels sequester carbon through the growth of the feedstock. These analyses have failed to count the carbon emissions that occur as farmers worldwide respond to higher prices and convert forest and grassland to new cropland to replace the grain (or cropland) diverted to biofuels. Using a worldwide agricultural model to estimate emissions from land use change, we found that corn-based ethanol, instead of producing a 20% savings, nearly doubles greenhouse emissions over 30 years and increases greenhouse gases for 167 years. Biofuels from switchgrass, if grown on U.S. corn lands, increase emissions by 50%. This result raises concerns about large biofuel mandates and highlights the value of using waste products.
While this work is very useful, the immediate concern would seem to be that grain carryover stocks are becoming quite low as a result of ethanol production. They are now at about 54 days worth of world consumption compared to over 100 days in 2000. Much lower stocks would mean making a choice between starvation of people or reducing feedlot operations and meat availability.
That is biomass rather than biofuel. The issue in the US is that taking up cropland here means plowing up marginal land elsewhere. This disturbs soils which hold carbon and thus that carbon is released. With your firewood, this is not the case. The soil is not disturbed and your use of the wood is not causing others to be hungry. You should mention the benefits of excercise in splitting and hauling wood as well.
I'm sick of following my dreams. I'm just going to ask where they're goin' and hook up with 'em later.
...that basically starts with a pre-conceived conclusion and looks for evidence to back it up, I suspect.
The problem is that the net emissions from biofuel production cannot ever be determined accurately---it is totally impossible ot absolutely quanitfy it because it is always a moving target.
The article goes on about rainforest being clear-cut to make way for the production of fuel plants. That kind of land makes really poor land for growing and there is no evidence at all that shows biofuel production has been cited as a reason for clearing a significant amount of new land. The "biofuel lobbyists" are right about one thing; the study is too simplistic to be an accruate assesment of the real net impact of biofuel production. What if the farm equipment itself was powered by biofuels? What if the waste biomass from preparing farmland and growing the crops was recovered and used for power generation? What if we used biomass from the ocean (this is already done on an experimental scale)? Have there been studies on the efficiency of biofuel-powered engines and on the overall emissions (sulphur, particulates and things that not only afect the climate but actually harm our health)? What about the impact of making fuel out of tarsands vs middle-east light sweet crude vs. crude drilled in the Gulf of Mexico? How can they put a number like "92 years of emissions"? It all smells pretty fishy to me.
It's like the argument that biofuels threaten foodstocks. Well, we used Soybeans extensively for food products...and it makes a good biofuel...and plastic...and industrial lubricants...and a host of other things. What is wrong with doing that using corn too? Corn production in the US actually exceeds what the world NEEDS for food by quite a margin, as do the production of many other crops (wheat, etc). These crops have been very cheap since the depression (in fact for decades they went down significantly when adjusted for inflation) and only in the last few years have grain prices been coming up to where they really should be. Sometimes I wonder if there are lobbyists out there for the processed food undustry putting resistance out to any competing demand in order to ensure they can name their own bargain prices for high-fructose corn syrup, bleached and enriched white wheat flour and hydrogenated vegetable oil and keep the margins on twinkie sales up.
Anyways, what is the big surprise here? Burning fuel creates emissions...surprise surprise! When you drive an electric car you are indirectly burning natural gas, or coal, or splitting uranium atoms. When you are using biodiesel you are burning soybeans or canola, along with whatever the equipment used to grow it uses. Same with ethanol except it's corn or switchgrass or sugarcane. Hello...if you want to reduce emmissions DON'T DRIVE SO DAMN MUCH! Get rid of your suburbans and buy a hatchback (a VW Golf diesel is better than a Prius if you don't live in a big city). Better yet, get off your ass and WALK once in a while.
Actually having worked in power plants and refineries and such...I have a hard time believing ANY sort of fuel doesn't have a significant environmental impact. These guys obviously haven't seen how tarsands ar mined, or how much fuel an oil tanker uses, or how much power an offshore drilling platform uses.
still in development; no current production
Sources of Cellulosic Ethanol:
Energy Balance
Fossil-fuel energy used to make the fuel (input) compared with the energy in the fuel (output)
1 to 2-36
Greenhouse gas emissions (production and use)
Gasoline=20.4, Cellulosic ethanol 1.9 (lbs/gallon)
Sources: U.S. DOE; U.S. EPA; Worldwatch Institute
I'm sick of following my dreams. I'm just going to ask where they're goin' and hook up with 'em later.
The key discussion is the current primary biodiesel production is on crop land. They're right. We're going to be needing all our crop land to grow food to feed a rapidly growing population.
Biodiesel production from high oil content algaes doesn't need to use crop land. From a University of New Hampshire study...
"...NREL's research focused on the development of algae farms in desert regions, using shallow saltwater pools for growing the algae. Using saltwater eliminates the need for desalination, but could lead to problems as far as salt build-up in bonds. Building the ponds in deserts also leads to problems of high evaporation rates. There are solutions to these problems, but for the purpose of this paper, we will focus instead on the potential such ponds can promise, ignoring for the moment the methods of addressing the solvable challenges remaining when the Aquatic Species Program at NREL ended.
NREL's research showed that one quad (7.5 billion gallons) of biodiesel could be produced from 200,000 hectares of desert land (200,000 hectares is equivalent to 780 square miles, roughly 500,000 acres), if the remaining challenges are solved (as they will be, with several research groups and companies working towards it, including ours at UNH). In the previous section, we found that to replace all transportation fuels in the US, we would need 140.8 billion gallons of biodiesel, or roughly 19 quads (one quad is roughly 7.5 billion gallons of biodiesel). To produce that amount would require a land mass of almost 15,000 square miles. To put that in perspective, consider that the Sonora desert in the southwestern US comprises 120,000 square miles. Enough biodiesel to replace all petroleum transportation fuels could be grown in 15,000 square miles, or roughly 12.5 percent of the area of the Sonora desert (note for clarification - I am not advocating putting 15,000 square miles of algae ponds in the Sonora desert. This hypothetical example is used strictly for the purpose of showing the scale of land required). That 15,000 square miles works out to roughly 9.5 million acres - far less than the 450 million acres currently used for crop farming in the US, and the over 500 million acres used as grazing land for farm animals.
The algae farms would not all need to be built in the same location, of course (and should not for a variety of reasons). The case mentioned above of building it all in the Sonora desert is purely a hypothetical example to illustrate the amount of land required. It would be preferable to spread the algae production around the country, to lessen the cost and energy used in transporting the feedstocks. Algae farms could also be constructed to use waste streams (either human waste or animal waste from animal farms) as a food source, which would provide a beautiful way of spreading algae production around the country. Nutrients can also be extracted from the algae for the production of a fertilizer high in nitrogen and phosphorous. By using waste streams (agricultural, farm animal waste, and human sewage) as the nutrient source, these farms essentially also provide a means of recycling nutrients from fertilizer to food to waste and back to fertilizer. Extracting the nutrients from algae provides a far safer and cleaner method of doing this than spreading manure or wastewater treatment plant "bio-solids" on farmland.
These projected yields of course depend on a variety of factors, sunlight levels in particular. The yield in North Dakota, for example, wouldn't be as good as the yield in California. Spreading the algae production around the country would result in more land being required than the projected 9.5 million acres, but the benefits from distributed production would outweigh the larger land requirement. Further, these yield estimates are based on what is theoretically achievable - roughly 15,000 gallons per acre-year. It's important to point out that the DOE's ASP that projected that such yields are possible, was never able to come close to achieving such yields. Thei
Solar technology is about as good as it gets at this point and there are some really exciting developments coming out of it. Wind and sea-based power sources are all promising as well. But the problem with all these solutions is that they are treating the symptoms of overconsumption by reducing the impact of that behavior, rather than reducing overconsumption in its own right.
I think the fundamental question is that if we were to find the hypothetical perfect clean, cheap, local, and renewable source of energy, would we be able to stop worrying about our energy consumption? I frankly have no idea and I think there is a lot of room for debate there. However, I'm becoming increasing convinced that even if our energy source was perfect, our species would still run into numerous other choke points, such as raw material shortages, food shortages, and so forth, not to mention the fact that many energy-consumption-facilitated activities can be seriously harmful to our health: driving (accidents), tv (sedentary lifestyle), etc. Plus, diminishing returns says it's going to be harder and more expensive to use technological means to reduce our energy consumption in the future.
When I look at it that way it makes a whole lot more sense from a practical point of view to modify my behavior to simply use less energy. I could spend a few hundred bucks on a super-efficient water heater, or I could take shorter showers. I could invest in a fuel efficient car, or I could just drive less. I'm constantly amazed at how much energy I can save just by completely turning off my devices. Doing this is cheaper and easier than upgrading to newer technology, and fights the root of the problem of overconsumption. It's even better if I can do both.
'Every story, if continued long enough, ends in death.' --Ernest Hemingway
First off, the concerns raised by the original article only apply to some biofuels, not all. The corcerns only apply to some biofuel crops and to some farming practices.
Secondly, the original article had a 'might' in it and was of the form "Biofuels might make greenhouse gases worse". Deleting 'might' combletely changes the meaning and esculates the threat.
Slashdot editors are getting to be like regular journalists ((hint: this is not a compliment) and looking for a new inflammatory headline where they can. Junk journalism!
Engineering is the art of compromise.
No offense, but most people don't understand economics. So I don't see how having a lot of people agree with you is relevant.
First, because the externalized damages at issue are the result of... guess what... overconsumption of resources. Saying that overconsumption doesn't exist is like saying that chickens don't exist, only eggs.Bad analogy. "Overconsumption" is a conveniently vague term. It could be a chicken, could be an egg. How much consumption is too much consumption? Who gets to decide? The point is that the current markets already allocate scarce resources in a sensible manner. In a market without externalities, we don't need to care if someone consumes more because they automatically have paid for the cost of the additional consumption. It doesn't even make sense to speak of "overconsumption". There's no rational criteria for deciding a certain level of consumption is too much.
Second, if there really isn't enough to go around, then the "correct cost" is starving to death. At that point, civilized society breaks down, and you can forget about whatever regulatory mechanism you're using to internalize the externalities.What do you mean "enough to go around"? That's the key problem here with your claims. Humanity has plenty of room for feeding itself. So "starving to death" isn't an issue. As I see it, if things did get that close, then there will be mass starvation due to the inefficient societies of the world that are already starving many of their citizens.
"Overconsumption" is akin to "overspending". If you have an income of $2000 and $100K in the bank, and you're spending $10000 a month, you're overspending. You can get away with it until your "banked" resources run out, at which case you will be spending only $2000 a month. The only question at that point is whether you've prepared your finances for that sudden change, or whether things will crash and burn (i.e., your home and car get reposessed, you have to pay exhorbitant cancellation costs for cell phone contracts, &c).
If your income is from your capital (i.e., if your income is dividends from stocks, &c), you have an even worse problem: that the more of your savings you spend, the less income you have. If you keep spending at your "overspending" rate, you'll eventually have no capital at all. Moderation early on may mean a sustainable income of $2000, but the longer you wait to adjust to your sustainable income, the lower your sustinable income will be when you finally get your head on straight.
Oil, coal, copper, steel, and other non-renewable resources are like money in the bank. Right now our energy consumption, as a society, is several times what our "income" is from renewable energy sources. We're running on our "bank" of oil, coal, &c. What happens when the oil & coal run out, if we don't find a renewable energy source that can provide us energy at the rates we're used to? "The market will adjust", certainly, but it's likely that it will "adjust" by massive wars, anarchy, starvation, and societal collapse. (See "Collapse", by Jared Diamond for a history of many such past societies that have had exactly that happen.)
Renewable resources like ocean fish, trees, and soil are like the stock market. If fishing and logging happen at replacement rate, then you have a sustainable renewable resource indefinitely. But if you fish or log at more than replacement rates, then your stock of reproducing fish or trees goes down, meaning a lower rate of the sustainable resource, until the resource is finally exhausted and cannot be renewed.
With these kind of fixed resources, "overconsumption" definitely has a well-defined meaning that has nothing to do with "externalities".
TCP: Why the Internet is full of SYN.