Rocky,

You make my case ...

Canadian tar sand producers cannot tax like the US government and don't issue the world's reserve currency.

So they have to make it work on the basis of profits and well functioning capital markets.

To raise $500 billion to $2 trillion will be difficult.

In any case, tar sands will not delay the peak of world oil production because too many of the world's giant oil fields are in decline.

As regards water draws on the Athabasca River basin, focusing on the oil sands exclusively is a red herring as well; total use for oil and gas extraction was somewhere around 80% last time I checked.

State of the Environment - Water Indicators As can be seen these draws are far from the total volume of the river's flow, but they are increasing, and the source glaciers for the Athabasca are shrinking with time, leading to lower peak summer flows; at Fort McMurray these declined by 29% between 1970 and 2005. Running out of Steam? (PDF)

When isn't water an issue? Tar Sands production is certainly an environmental impact that is quite devastating. Consider this general information:

http://oilsandstruth.org/

The site notes that many environmental groups have been, themselves, impacted by corporate money and are no longer playing a watchdog role, just as has happened with the corporate media. The level of corruption forces us to not only consider our sources, but to wonder whether previously reliable sources have become corrupted.

[What is the EROEI for tar sands, for example? I've seen everything from 1.5 to 6. At this site (above) which is focused on the environmental damage, they toss out a range from 1.5 to 3. (http://oilsandstruth.org/topics/energy).

Elsewhere, I've had debates here on TOD with those who have provided sources arguing from 4 to 7.
See, for example,
http://www.homerdixon.com/articles/20061129-nytimes-endofingenuity.html ]

ON WATER:
http://www.dominionpaper.ca/articles/1480
Water

For each barrel of oil produced from the tar sands, between two and 4.5 barrels of water is needed. The water is used in the process of extracting bitumen from the naturally occurring the tar sand. The bitumen is later "upgraded" into synthetic crude oil.

In 2007, the government of Alberta approved the withdrawal of 119.5 billion gallons of water for tar sands extraction, of which an estimated 82 per cent came from the Athabasca River. Of that, extraction companies were only required to return 10 billion gallons to the river.

Most of the water used ends up in giant, toxic tailing ponds. As of 2006, tailing ponds covered 50-square kilometers of former boreal forest. By 2010, according to the Oil Sands Tailings Research Facility, the industry will have generated 8 billion tons of waste sand and 1 billion cubic metres of waste water--enough to fill 400,000 olympic-sized swimming pools. Today, the largest human-made dam by volume of materials is the Syncrude tailing pond, a few kilometres from the Athabasca river.

The waste sand and water contain naphtha and paraffin, which are used in the extraction process, and oil leftovers like benzene, naphthenic acid and polyaromatic hydrocarbon, among others. Chemicals found in the tailing ponds are known to cause liver problems and brain hemorrhaging in mammals, and deformities and death in birds.

downstream...lupus, multiple sclerosis and other diseases in recent years...
--snip--

swampland in the North East. Where would that be?

If you think the discovery channel scriptwriters who I am quoting were lying about the location, then ask them to clarify. They offered nothing further, but it appeared likely to be somewhere just south of Quebec.

I think you need to get out in the woods some day ... seen tree harvesting production in person

In my youth before university I worked full time as a logging machine operator, both northern Ontario and northern BC. I also grew up on a farm in N. Ontario north of Minnesota where I could walk south from our back yard and encounter nothing but boreal forest for 100 miles, still in Canada of course. I've spent a LOT of time walking and studying it, fishing trips, hunting, guiding prospectors etc. The nearby town, Dryden, supported itself with a huge sulphate pulp mill and sawmill operation, and logging was everywhere around. I do know relative growth rates of boreal softwoods and northern temperate hardwoods, we studied forestry in highschool, did tree planting both as school projects and on dad's farm. Stick with my estimates, or use yours, makes no difference. BTW, you haven't had adrenaline until you're assigned to run a Timberjack 404 (a logging tractor so big you can walk standing under its blade when lifted) up and down the side of a BC mountain in winter on night shift. It's more "interesting" than skydiving, and I know, I've had licenses for both. I've also operated Cat D7 and D6 crawlers as skidders, and Timberjack 330's, Treefarmer C4's and C1 skidders, and a variety of wheel loaders. I've owned my own John Deere 1010 crawler loader w/backhoe. And I've been assigned to work with a crew to extract a Cat D9 roadbuilder, which is the weight of an Abrams tank with a blade the size of a 2-car garage door, from a swamp area where it got itself stuck. Takes a skid tractor just to pull the winch cable off it, and when winching itself it can haul a pair of Cat D7's sideways uprooting trees and everything else. I know exactly the effects of preparing soft ground to have logging haul trucks operated on it. (and BTw, logging companies typically didn't purchase culverts for creek fords, they simply filled the fords in with waste timber and let the water run between the logs. Makes an awful mess but its nothing like getting a large hydraulic slasher on crawler tracks stuck in a swamp.. Thankfully the practice has been stopped here, but they had a grapple loader moving around a lot of suspiciopusly muddy crooked trunks with no explanation for why... Perhaps these crews were buying proper culverts, but it sure looked like an undisciplined operation, small and private. From what I saw this crew doing, they were nowhere near as tightly regulated as logging operations in Canada. They were leaving 2 or 3 foot stump cuttoffs lying all around their landings, never collected and no evidence of a truck which could have hauled them. Probably hollow sections, which sawmills hate. In Canada, every part of the trunk or branches of every tree over 2 1/2" diameter must be removed from the forest by truck and taken to the mill. Inspections were tight, to the point where the company in BC, where we worked piecework, was paying us the same price (30 cents per tree, 1970) for bringing out the broken bits as for bringing out 80 foot trees with two foot stumps. They had to operate a special "chunk truck" with solid bed and sides just to haul them out to the sawmill where I think they were simply run through the chip-n-saw or dumped into the chipper and trucked on out to a pulp mill, but that was the government rules strictly enforced.

A typical load in BC used logging trucks with 13' wide bunks, 10 foot stakes and a 50 foot reach. In Ontario they use 50' trailers with 8.5 foot bunks and 10' stakes. The trucks in the discovery show were hauling 8.5 foot bunks, 10' stakes and two settings of 16' or 20' logs. I'll let you calculate the tonnage at 1.25 tons per 8' x 4' x 4' cord softwood, 1.5 tons for hardwood, I'm not interested enough.

And no I was not overly impressed with the operation. Strictly amateur with too much money in equipment for the production and neither enough regulations or brains.

I know what I'm talking about and you don't.

And there's a difference between using softwood lumber studs, joists and rafters to build the frame of a house, and using hardwood planks to decorate your floors. Its the same difference as between using deerskin for moccasins or the walls of a teepee, and mink fur for a decorative stole.

Claiming that clear cutting in the northeast (US?) should be more of a concern than environmental damage caused by tar sand production is comparing apples to oranges.

Actually, it's more of an apples versus apples comparison.

The "Swamp" they're logging in the northeast US is the same thing as we would call "Muskeg" in Canada, except that in Canada we have much, much more of the stuff. It's not really swamp, its a form of organic soil that you get under cold, wet forest conditions when organic material does not decay fast enough. You can't drive on it except with special equipment.

The trees are different species, however. Northern Alberta tends to black spruce and jackpine, with few hardwoods other than aspen and birch. No really valuable hardwoods such as you find in the NE US. It's too bad, really, but good hardwoods can't survive the extremely cold winters.

You have to realize that the oil sands areas are all designated as commercial forest, and lumber companies have leases on most of the land. The forests will be logged. Then they will grow back and be logged again. It will be just like "Swamp Loggers", but with more rules.

If an oil sands mine moves in, they will just log it earlier, and replant it again after the mine is gone. There will be a gap in the middle when the mine is operating.

The tar sands are found beneath boreal forest, a complex ecosystem that comprises a unique mosaic of forest, wetlands and lakes. {yadda yadda yadda yadda yawn}

In Canada there are about 500,000 sq. miles of boreal forests. Perhaps 1/2000th of it overlies active oilsands mining projects, whereas at least 1/4 of it is within activly harvested timber leases which are primarily used to provide lumber and paper to the US.

That's the thing about these Americans and also Europeans, for some reason they think that Northern Canada is some kind of pristine wilderness that should never be touched. No! It's mostly commercial forest which has been earmarked to provide lumber for McMansions that they can live in and fuel for SUV's so they can drive to work. Lumber operations, oil mines, diamond mines, uranium mines, whatever provides work for Canadians.

If they want pristine wilderness, we have that too, in fact we have some of the world's largest national parks. Of course they can't get their except by canoe or bush plane, so they'll never see them, but if they did I'm sure they would like it. Unless something there killed them, but that's a different issue (I wish the tourists would stop getting themselves killed).

Unsupportable nihilistic nonsense. Logging those swamps is also worse than leaving them alone, just ask the beavers. When I notice you yelling as loudly for stopping that logging, I'll re-evaluate your motives.

Gad, I love it!!!!!

You don't challenge me on the central premise of 300BB of oil beneath Iraq.....Thank you for graciously conceding the point...

Then, you note the Iraq production will only be 8 to 12MBD....

How do you KNOW????.....Maybe it will be 20MBD or 30MBD or 40MBD!!!!

Next up....will the world REALLY lose 36MBD of production capacity in
ONLY NINE YEARS???????!!!!!????....Dear God, even the apparently addled
Matt Simmons doesn't make that claim!!!!

Are you saying there will never, ever be another oilfield found or produced EXCEPT in Iraq??????

On the other hand, the good old U S of A STILL had the world's largest military....Bet that alone assures us of a continuing supply of 20MBD...

Gee, I guess that means someone else takes it in the shorts....

Toooooooooo Baaaaaaaddddd

Soooooooooooo Saaaaaaaaaad

Majorian what in heavens name are you talking about.

The ratio of production to reserves(P/R) would be P/(URR- cummulative production) which equals K, the logistic growth rate x cummulative production/ URR. This P/R rate would decline depending on the inferred K rate, which varies by oil field, and the URR which is only inferred over a period of time.

No, that is not what production to reserves ration is at all. The term is far more often used in the inverse, reserves to production ratio, or R/P ratio. But either way it means exactly the same thing. One way it is expressed in years, the inverse is expressed as a percent of reserves produced each year. It has absolutely nothing to do with cummulative production or K. You are just making things up. All you had to do was Google the term and you would have gotten hundreds of hits that explained it. Reserves to production ratio is one of the most commonly used terms in the oil industry. And the fact that you do not have a clue as what it means... means...

Wikipedia: Reserves-to-production ratio

The Reserves-to-production ratio (RPR or R/P) is the remaining amount of a non-renewable resource, expressed in years. While applicable to all natural resources, the RPR is most commonly applied to fossil fuels, particularly petroleum and natural gas. The reserve portion (numerator) of the ratio is the amount of a resource known to exist in an area and to be economically recoverable (proved reserves). The production portion (denominator) of the ratio is the amount of resource used in one year at the current rate.

RPR = (amount of known resource) / (amount used per year)

You wrote:

IOW, it seems that X is confusing the logistic curve which describes production versus reserves with a statistical normal distribution for sets of data. Has someone actually attempted to 'normalize' P/R or decline rates?

No X was not confusing anything. H stated exactly the same thing I said in my first post today at 12:21 PM. I wrote:

OPEC has a reserves to production ratio of about 87. The six Middle East OPEC nations of Iran, Iraq, Kuwait, Qatar, Saudi and the UAE have a combined reserve to production ratio of about 100. The entire non-OPEC world has a combined reserves to production ratio of conventional oil of about 20.

The Middle Eastern nations I named have a combined R/P ratio of 100 while all of non-OPEC has a R/P ratio of 20, or orders of magnitude greater for the OPEC nations. X correctly says: " For there to be orders of magnitude in the range discussed above shows that somebody is lying. "

If that is not enough to explain who is confused, you or X, then go here:

Global Oil Reserves-to-Production Ratios, 2004

Notice that the map shows that the only nations with R/P ratios from 43 to 100 and over 100 are Middle Eastern OPEC nations, OPEC nations of Libya and Nigeria and Venezuela, another OPEC nation. Middle Eastern non-OPEC nations of Oman, Yemen and Syria have R/P ratios of around 20, exactly the same as the rest of the non-OPEC world. The same can be said of other non-OPEC North African nations, they all have normal R/P ratios. But the OPEC nation of Angola also has a "normal" R/P ratio also. Why? Angola only joined OPEC two years ago. It would have been a dead giveaway if they had suddenly raised their "proven" reserves upon joining OPEC.

Are you still confused?

Ron P.

I think I do understand your point (I could be mistaken---it happens!). I just think that having a few people in power pay attention to, and understand, the problem isn't going to be enough. Those people are unlikely to be able to make any headway on addressing the problem until the public recognizes that the problem exists.

Here in the Southeastern U.S., the public isn't especially impressed with science and scientists right now, regardless of where and how the research is conducted, so the problem is going to have to be brought to the public's attention by some other person/people. In the U.S., the most successful group, in terms of raising awareness of issues, seems to be celebrities--- from television, film, and sports. (Again, I could be mistaken.)

Once the problem is more widely recognized and enough citizens start making a fuss (because they've paid attention to some celebrity who has been convinced and started spreading awareness of Peak Oil), then the people crafting legislation, rules, and guidelines will have a chance to do something worthwhile to address the problem. It just seems terribly unlikely to me that the few people in positions of influence who might pay attention to any work coming out of Cambridge/MIT/etc. will be able to make anything happen before then, regardless of how "convinced" those people are.

I was responding to islandboy's point that suggested that being in the xth percentile meant the scientists should be listened to by pointing out that it's not just cleverness that matters.

I don't know whether you've been a professional scientist or not; if so I may be telling you things you already know. Science is intensely competitive, and I've seen cases involving other people that have been bordering on "stealing of ideas/credit". Just because you're clever doesn't mean you won't do anything to get ahead The only reason that there's not more actual fabrication of results, such as

http://en.wikipedia.org/wiki/Hwang_Woo-Suk

is that it's almost certain to be found out by other experimenters. This is why I believe scientists, not how clever they are.

I'd also suggest that you're exaggerating how obvious it is that CO2 will induce significant global warming. I happen to believe that's true, because that's what the experts predict, but I genuinely don't have the detailed theoretical and experimental background to determine that this is the dominant effect. I did have a look at some of the papers about the data pre-processing to compensate for "experimental" defects, because that's a general area I have some experience in. This is things like "before 1986 these ocean sensors were calibrated by a different procedure, so you have to shift old data in such-and-such a way", technical issues about interpeting ice cores, etc, and my primary reaction was "I'm bloomin' glad I don't work in that field". Making these kind of changes is valid if it genuinely reflects your knowledge, but it would be so easy to pick assumptions in order to get a positive result on the data, particularly given the relatively few "experimental samples" (core samples, etc) that are taken compared to the sheer number of variables in the earth's climatic conditions over the course of a couple of millennia. (For example, I'd be interested to know what physical evidence and theories were used to establish the co-incidence of tropical temperatures in the arctic and 5xCO2. I would think they'd be convincing, but I'd also think that they're going to be much, much more subtle, indirect and theory bound than the confimation of Newton's law's of motion that happen in school physics classes.) Indeed, the climate gate emails that worry me are teh ones that are ambiguous about whether they're "working harder" on legitimate data preprocessing is in order to squeeze out statistical significance, or whether actual directions of preprocessing are being chosen because they'll lead to significance.

To reiterate, I do think there's a significant chance AGW is happening, but I think that that's because scientific experts say that, not because I could actually critically read a climate research paper. And my reason for believing the experts is not that they're clever Oxford people with perfect morals, but because if they were to use their cleverness to fabricate results they'd be skewered by competitors. That's the reaons the general public should believe their results. (The fact the general public doesn't probably does have connections with inherent biaes, as you say.)

the research by these very clever people seems to be saying "somebody is either lying about their reserves or being very careful with their production of said reserves".

Alan, with all respect, but are you not following the critical news about oil on TOD ?

Very careful ? Why then a Saudi Aramco official said that KSA is 'losing' 500.000-1 million bopd every year from their mature fields ? That won't happen when their R/P ration is that high.
Why they are planning a CO2-EOR project in Ghawar, why they start exploring deep under the Red Sea if they just could open up the tap some more this and the next decades ? Why they want $70-80 oilprices now and are not satisfied with $22-28 anymore like from 2002-2004 ?

I was bringing in awh's point about "the climate-gate flap" that you responded to with your point about "Oxford's intake being in the top x percentile". (In the below, please assume I'm replying to points made in the WHOLE of this subthread rather than just the post I'm replying to.)

The big point that I was making is that just because someone is clever does not mean that what they say is accurate (ie, "true") and hence that they should be trusted. One of the virtues of the scientific system, that I explicitly wouldn't expect to apply to "elite university" people in politics and similar areas, is that it should strongly discourage papers touting fraudulent results because discovery almost certainly end a scientific career. I have no knowledge of the background of this paper, and I would hope that it is reliable regardless of the morals of the paper writers (I don't see that calling them "accusers" sheds any light on the issue) because in academia the penalty for skewing results and analysis is so high. In contrast, as is frequently lamented around here, oil company spokesmen, "independent" experts like Daniel Yergin, politicians, journalists, etc, can ride out having made "self-serving proclamations" and make more proclamations.

Basically, I was just irked by islandboy's suggestion that one should take account of "elite university" people just because they're clever. The reason one should be able to trust scientific experts at universities is because in that career there's a stiff penalty for saying things that are motivated by anything other than fitting the facts.