joe_schmoe All American 18758 Posts user info edit post |
I found this linked to DrunkNLoaded's oil citation
http://www.energybulletin.net/14416.html
summary: you're an oil consumer. you eat oil for breakfast. and lunch and dinner. and the amount of energy in the oil you consume at meals is anywhere from 2 to 10 times the caloric value of the meal itself. and guess who''s next? China and India. They want to eat Oil for Breakfast, too.
Quote : | "The oil in your oatmeal - A lot of fossil fuel goes into producing, packaging and shipping our breakfast
by Chad Heeter
Please join me for breakfast. It's time to fuel up again.
On the table in my small Berkeley apartment this morning is a healthy-looking little meal -- a bowl of imported McCann's Irish oatmeal topped with Cascadian Farms organic frozen raspberries, and a cup of Peet's Fair Trade Blend coffee. Like most of us, I prepare my breakfast at home, and the ingredients for this one probably cost me about $1.25. (If I went to a cafe in downtown Berkeley, I'd probably have to add $6 more, plus tip, for the same.)
My breakfast fuels me up with about 400 calories, and it satisfies me. So for just over a buck and half and an hour spent reading the morning paper in my own kitchen, I'm energized for the next few hours. But before I put spoon to cereal, what if I consider this bowl of oatmeal porridge (to which I've just added a little butter, milk and a shake of salt) from a different perspective. Say, a Saudi Arabian one.
Then what you'd be likely to see -- what's really there, just hidden from our view (not to say our taste buds) -- is about 4 ounces of crude oil. Throw in those luscious red raspberries and that cup of java (an additional 3 ounces of crude), and don't forget those modest additions of butter, milk and salt (1 more ounce), and you've got a tiny bit of the Middle East right here in my kitchen.
Now, let's drill a little deeper into this breakfast. Just where does this tiny gusher of oil actually come from? (We'll let this oil represent all fossil fuels in my breakfast, including natural gas and coal.)
Nearly 20 percent of this oil went into growing my raspberries on Chilean farms many thousands of miles away, those oats in the fields of County Kildare, Ireland, and that specially raised coffee in Guatemala -- think tractors as well as petroleum-based fertilizers and pesticides.
The next 40 percent of my breakfast fossil-fuel equation is burned up between the fields and the grocery store in processing, packaging and shipping.
Take that box of McCann's oatmeal. On it is an inviting image of pure, healthy goodness: a bowl of porridge, topped by two peach slices. Scattered around the bowl are a handful of raw oats, what look to be four acorns and three fresh raspberries. Those raw oats are actually a reminder that the flakes require a few steps 'twixt field and box. In fact, a visit to McCann's Web site illustrates each step of cleaning, steaming, hulling, cutting and rolling that turns the raw oats into edible flakes. Those five essential steps require significant energy.
Next, my oat flakes go into a plastic bag (made from oil), which in turn is inserted into an energy-intensive, pressed wood-pulp, printed paper box. Only then does my breakfast leave Ireland and travel 5,000 fuel-gorging, carbon-dioxide-emitting miles by ship and truck to my grocery store in California.
Coming from another hemisphere, my raspberries take an even longer fossil-fueled journey to my neighborhood. Though packaged in a plastic bag labeled Cascadian Farms (which perhaps suggests birthplace in the good old Cascade mountains of northwest Washington), the small print on the back, stamped "A Product of Chile," tells all -- and what it speaks of is a 5,800-mile journey to Northern California.
If you've been adding up percentages along the way, perhaps you've noticed that a few tablespoons of crude oil in my bowl have not been accounted for. That final 40 percent of the fossil fuel in my breakfast is used up by the simple acts of keeping food fresh and then preparing it. In home kitchens and restaurants, chilling in refrigerators and cooking on stoves using electricity or natural gas gobbles up more energy than you might imagine.
For decades, scientists have calculated how much fossil fuel goes into our food by measuring the amount of energy consumed in growing, packing, shipping, consuming and finally disposing of it. The caloric input of fossil fuel is then compared with the energy available in the edible product, the caloric output.
What they've discovered is astonishing. According to researchers at the University of Michigan's Center for Sustainable Agriculture, an average of more than 7 calories of fossil fuel is burned up for every calorie of energy we get from our food. This means that in eating my 400-calorie breakfast, I will, in effect, have consumed 2,800 calories of fossil fuel energy. (Some researchers claim the ratio is as high as 10 to 1.)
But this is only an average. My cup of coffee gives me just a few calories of energy, but to process 1 pound of coffee requires more than 8,000 calories of fossil-fuel energy -- the equivalent energy found in nearly a quart of crude oil, 30 cubic feet of natural gas or about 2 1/2 pounds of coal.
So how do you gauge how much oil went into your food?
First check out how far it traveled. The farther it went, the more oil it required. Next, gauge how much processing went into the food. A fresh apple is not processed, but Kellogg's Apple Jacks cereal requires enormous amounts of energy to process. The more processed the food, the more oil it requires. Then consider how much packaging is wrapped around your food. Buy fresh vegetables instead of canned, and buy bulk beans, grains, and flour if you want to reduce that packaging.
You may think you're in the clear because you eat strictly organically grown foods. When it comes to fossil-fuel calculations though, that isn't relevant. However it is grown, a raspberry is shipped, packed and chilled the same way.
There is some energy savings in growing organically, but it's probably slight. According to a study by David Pimentel at Cornell University, 30 percent of fossil-fuel expenditure on farms growing conventional (nonorganic) crops is found in chemical fertilizer.
This 30 percent is not consumed on organic farms, but only if the manure used as fertilizer is produced very close to the farm. Manure is a heavy, bulky product.
If farms have to truck bulk manure more than a few miles, the savings is eaten up in diesel-fuel consumption, according to Pimentel.
One source of manure for organic farmers in California is chicken producer Foster Farms. Organic farmers in Monterey County, for example, will truck tons of Foster's manure from their main plant in Livingston (Merced County) to fields more than 100 miles away.
So the next time we're at the grocer, do we now have to ask not only where and how a product was grown, but how far its manure was shipped?
Well, if you're in New York City picking out a California-grown tomato that was fertilized with organic compost made from kelp shipped from Nova Scotia, maybe it's not such a bad question.
But should we give up on organic? If you're buying organic raspberries from Chile each week, then yes. The fuel cost is too great, as is the resulting production of the greenhouse gases.
But if there was truth in packaging, where my oatmeal box now tells me how many calories I get from each serving, it would also tell me how many calories of fossil fuels went into the product.
On a scale from one to five -- with one being nonprocessed, locally grown products and five being processed, packaged imports -- we could quickly average the numbers in our shopping cart to get a sense of the ecological footprint of our diet.
What appeared to be my simple, healthy meal of oatmeal, berries and coffee looks different now. I thought I was essentially driving a Toyota Prius hybrid by having a very fuel-efficient breakfast, but by the end of the week, I've eaten the equivalent of more than two quarts of Valvoline.
From the perspective of fossil-fuel consumption, I now look at my breakfast as a waste of precious resources. What I eat for breakfast connects me to the planet, deep into its past with the fossilized remains of plants and animals which are now fuel, and into the future, when these nonrenewable resources will probably be in scant supply.
Maybe these thoughts are too grand to be having over breakfast, but I'm not the only one on the planet eating this morning. My meal traveled thousands of miles to reach my plate.
Then there's the rise of perhaps 600 million middle-class Indians and Chinese, already demanding the convenience of packaged meals and foreign flavors.
What happens when middle-class families in India or China decide they want their Irish oats for breakfast and topped by organic raspberries from Chile? They'll dip more and more into the planet's communal oil well. And someday soon, we'll all suck it dry. " |
5/25/2006 2:56:21 AM |
jbtilley All American 12797 Posts user info edit post |
I'm doing my part. I don't eat breakfast. 5/25/2006 7:16:12 AM |
LoneSnark All American 12317 Posts user info edit post |
There are also a lot of dead animals in your breakfast too. Do you have any idea how many animals get run down by trucks every year? 5/25/2006 9:11:42 AM |
joe_schmoe All American 18758 Posts user info edit post |
this is from 2003, another article on oil and agriculture.
problems with agriculture, total energy productivity of the plant, how our consumption increases, and how our efficiency is decreasing
Quote : | "the total amount of plant mass created by Earth in a given year, the total budget for life ... is called the planet's "primary productivity." There have been two efforts to figure out how that productivity is spent, one by a group at Stanford University, the other an independent accounting by the biologist Stuart Pimm. Both conclude that we humans, a single species among millions, consume about 40 percent of Earth's primary productivity, 40 percent of all there is. This simple number may explain why the current extinction rate is 1,000 times that which existed before human domination of the planet. We 6 billion have simply stolen the food, the rich among us a lot more than others." |
Quote : | "Energy cannot be created or canceled, but it can be concentrated. This is the ... context of a national-security memo George Kennan wrote in 1948 ... about how the United States was to deal with its newfound role as the dominant force on Earth. "We have about 50 percent of the world's wealth but only 6.3 percent of its population," Kennan wrote. "In this situation, we cannot fail to be the object of envy and resentment. Our real task in the coming period is to devise a pattern of relationships which will permit us to maintain this position of disparity without positive detriment to our national security. To do so, we will have to dispense with all sentimentality and day-dreaming; and our attention will have to be concentrated everywhere on our immediate national objectives. We need not deceive ourselves that we can afford today the luxury of altruism and world-benefaction."
"The day is not far off," Kennan concluded, "when we are going to have to deal in straight power concepts." " |
basic 2nd law of thermo:
Quote : | "Every single calorie we eat is backed by at least a calorie of oil, more like ten. In 1940 the average farm in the United States produced 2.3 calories of food energy for every calorie of fossil energy it used. By 1974 (the last year in which anyone looked closely at this issue), that ratio was 1:1. And this understates the problem, because at the same time that there is more oil in our food there is less oil in our oil. A couple of generations ago we spent a lot less energy drilling, pumping, and distributing than we do now. In the 1940s we got about 100 barrels of oil back for every barrel of oil we spent getting it. Today each barrel invested in the process returns only ten, a calculation that no doubt fails to include the fuel burned by the Hummers and Blackhawks we use to maintain access to the oil in Iraq." |
Quote : | " David Pimentel, an expert on food and energy at Cornell University, has estimated that if all of the world ate the way the United States eats, humanity would exhaust all known global fossil-fuel reserves in just over seven years. Pimentel has his detractors. Some have accused him of being off on other calculations by as much as 30 percent. Fine. Make it ten years." |
Quote : | "The grinding, milling, wetting, drying, and baking of a breakfast cereal requires about four calories of energy for every calorie of food energy it produces. A two-pound bag of breakfast cereal burns the energy of a half-gallon of gasoline in its making. All together the food-processing industry in the United States uses about ten calories of fossil-fuel energy for every calorie of food energy it produces." |
and the author hits on ethanol:
Quote : | "That number does not include the fuel used in transporting the food from the factory to a store near you, or the fuel used by millions of people driving to thousands of super discount stores on the edge of town, where the land is cheap. It appears, however, that the corn cycle is about to come full circle. ... Fuel alcohol already ranks second as a use for processed corn in the United States, just behind corn sweeteners. According to one set of calculations, we spend more calories of fossil-fuel energy making ethanol than we gain from it. The Department of Agriculture says the ratio is closer to a gallon and a quart of ethanol for every gallon of fossil fuel we invest. The USDA calls this a bargain, because gasohol is a "clean fuel." This claim to cleanness is in dispute at the tailpipe level, and it certainly ignores the dead zone in the Gulf of Mexico, pesticide pollution, and the haze of global gases gathering over every farm field. Nor does this claim cover clean conscience; some still might be unsettled knowing that our SUVs' demands for fuel compete with the poor's demand for grain. " |
apparently vegetarians dont have the answers:
Quote : | "On the moral issues, vegetarians claim their habits are kinder to animals, though it is difficult to see how wiping out 99 percent of wildlife's habitat, as farming has done in Iowa, is a kindness. ... Animal rights aside, vegetarians can lose the edge in the energy argument by eating processed food, with its ten calories of fossil energy for every calorie of food energy produced. " |
but US grain-fed beef is worse:
Quote : | "Chances are, though, any meat eater will come out on the short end of this argument, especially in the United States. ... Eighty percent of the grain the United States produces goes to livestock. Seventy-eight percent of all of our beef comes from feed lots, where the cattle eat grain, mostly corn and wheat. So do most of our hogs and chickens. The cattle spend their adult lives packed shoulder to shoulder in a space not much bigger than their bodies, up to their knees in shit, being stuffed with grain and a constant stream of antibiotics to prevent the disease this sort of confinement invariably engenders. The manure is rich in nitrogen and once provided a farm's fertilizer. The feedlots, however, are now far removed from farm fields, so it is simply not "efficient" to haul it to cornfields. It is waste. It exhales methane, a global-warming gas. It pollutes streams. It takes thirty-five calories of fossil fuel to make a calorie of beef this way; sixty-eight to make one calorie of pork. " |
the author does have an answer, which obviously involves killing your own food personally.
-- http://www.energybulletin.net/30.html5/26/2006 12:52:37 AM |
The Coz Tempus Fugitive 26098 Posts user info edit post |
Ted Nugent is all for it. 5/26/2006 12:54:26 AM |
LoneSnark All American 12317 Posts user info edit post |
Even if it is true that mankind dominates the planet's "primary productivity" this author has excluded important information. As in countries, not all plants are of equal efficiency. The vast majority of the planet's biomass is rediculously inefficient, ranking in at a paltry 0.1% efficiency. Meanwhile, you see something completely different when it comes to the plants harvested by humans. For example, one of the most efficient plants on Earth is sugar-cane, meansuring in at a whopping 8% efficiency, 80 times the average. Meanwhile, our other crop plants still manage 1 to 2% efficiency, 10 to 20 times normal for plant's in nature.
http://www.life.uiuc.edu/govindjee/whatisit.htm
Get this, for every square foot occupied by sugar-cane field, just to match the human race would require 80 square feet of natural biomass. As such, even if we do consume 40% of the earth's "primary productivity" it is because natural plants do not care about productivity, they are too busy just surviving. Meanwhile, human farmed plants don't need to worry about survival because humans will provide all the necessary protection, all these plants need to do to be selected by humans for survival is become more productive.
Thus, land farmed by humans will tend to produce more "life budget" than land that is allowed to go natural. Thus, in a world occupied by some land that is farmed and other that is fallow it is only surprising to see how little of the "life budget" we humans are producing.
[Edited on May 26, 2006 at 3:29 AM. Reason : lnk] 5/26/2006 3:29:04 AM |
TKE-Teg All American 43410 Posts user info edit post |
Oh wow, and here I thought that my breakfast just magically appeared out of nowhere into my kitchen.
Sure that article goes into detail, but any idiot should realize to some degree what enegery is expended to get him/her those things.
Whats next, a breakdown of energy spent bringing our clothes to us? I better hurry up and learn how to knit for myself. 5/26/2006 1:28:29 PM |
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