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Comments 53901 to 53950:

53901. KR at 01:51 AM on 15 September 2012
       It's not bad
       AHuntington1 - "...my claim is that increasing atmospheric Co2 (by any means, to a certain extent) can have positive effects on animals via increased respiratory efficiency. I never made an overall cost-benefit judgement. I just want it added to the list of potential benefits." I would point to the opening post, which states that

       Negative impacts of global warming on agriculture, health & environment far outweigh any positives.

       You claimed that "More atmospheric C02 is beneficial for plants (as has been described in this thread) and animals" - a statement on net effects. But you have not supported your statement with any significant evidence. In fact, your initial claim of changes in CO2 to O2 ratios improving metabolism appears to be nonsense, which you've abandoned to move on to other arguments/moved goalposts. Again - while there are positive and negative effects from global warming (including the potential effects you have argued, but not supported), the negatives far outweigh the positives.
53902. Eric (skeptic) at 01:43 AM on 15 September 2012
       A vivid demonstration of knee-jerk science rejection
       chuck101, my statement post 2 was much more limited which is that the 97% (or 97.5%) applies to the statement I quoted above. Even if the "significant contributing factor" claim requires models (which I believe it does not), it doesn't require models which estimate sensitivity since those would only be needed for projections into the future. Also to clarify the quote I made, "all the uncertainty in paleo evidence points to lower sensitivity". OTOH, there will be new positive feedbacks that are not part of paleo evidence (e.g. melting permafrost) that may tip sensitivity higher.
53903. zinfan94 at 01:22 AM on 15 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Wyoming: My strategy is customer focused; I put customer needs first; this includes all top level needs (on a customer needs tree), including energy total costs (pricing plus efficiency plus QoL provided), economic benefits (jobs), environmental risks (AGW impacts), national/global security risks, and providing customers with more freedom and more choices. Then I look for the suppliers that would benefit, and who could make money providing products and services to the customers that better meet their needs than existing energy markets. And it turns out, there are some very powerful and influential suppliers that would benefit; but many of them don't realize just how much their companies and organizations would benefit from a transition to green energy. Then we build a powerful green energy group that can push for the transition, and mow down the competition. I am using a story, a parable, to illustrate this. But eventually in the real world, this green energy group can be built, and customers benefit with lower costs, less environmental risks, less global security risks, and more jobs. It can be done. (and later today, I will continue the story…)
53904. zinfan94 at 01:09 AM on 15 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Lets talk about the natural gas market, and the impact of shale gas. Although this discussion is US-centric, the problems with shale gas development will be felt around the world, South Africa, Central and Eastern Europe, etc. Before I continue my "Parable of the All-Powerful Project Management Team", and how they might address shale gas, I have gone back about almost two years ago, and copied some material I wrote at the time about shale gas and natural gas market. Please note that the natural gas market is as screwed up as the oil and electricity markets; none of these energy markets in North America are functioning properly, and that is also true for most places in the world today. Series: Ramping the Green Energy Industry- A Path to Grow America Post 10. What About Shale Gas? Forecasting Energy Prices and Markets In America Highlights: • Shale gas development without a new set of regulatory controls will go through a classic boom/bust cycle. • Natural gas prices will fall below $4 and stay there for years, delaying green energy development and ramp. • Existing regulatory controls on shale gas inadequately protect stakeholders; controlling development of horizontally fractured shale gas fields requires a new types of regulations beyond well spacing and unitization. • Placing a price on carbon emissions, coupled with unregulated free market for natural gas, won’t work. • Placing controls on shale gas development to constrain production rate, coupled with green energy initiatives and direct government action to ramp green energy, will work. Read the draft memo (almost two years old) at Google docs, What About Shale Gas?. Unfortunately, the necessary controls and regulations weren't even discussed, let alone implemented, and once again a free market collapse occurred in an energy market. This kind of free market excess doesn't benefit anyone over the long haul.
53905. Stephen Baines at 01:06 AM on 15 September 2012
       It's not bad
       AHuntington "...but they don't cancel out. " This is just an assertion. You haven't provided any evidence. The papers your cite can't be evaluated as they are only abstracts of papers in Russian. You could try to make a theoretical case using heamoglobin-O2 saturation curves, taking into account the effects of ambient CO2 on uptake of CO2 in lungs and tissue CO2. Experimental evidence would be more convincing, however. My guess is that the influence of ambient CO2 variations on O2 uptake in the lungs and release in tissues will be relatively small, and are likely to offset. It doesn't seem sensible that the effect of increasing ambient CO2 on CO2/O2 ratios in the lungs would be smaller than the effect on CO2/O2 ratios in the tissues. I could be convinced otherwise, but I would need to see evidence. You are not really providing any.
53906. Dikran Marsupial at 00:39 AM on 15 September 2012
       It's not bad
       AHuntington1 Firstly appologies for mis-spelling your name. Secondly, while exhaled air my be something like 35,000 ppm of Co2, but the volume of a breath is negligible compared to the volume of the atmosphere. The CO2 in exhaled air only has a significant effect on the air we breathe in if we are indoors (this is now the third time I have pointe dthis out), and if you are indoors, CO2 levels are not controlled by the background CO2, but by local sources (such as your exhalations), and hence rising atmospheric CO2 levels will have not have any significant effect on CO2 levels in the room, and hence no significant effect on metabolosim. You claimed that increasing CO2 levels would have beneficial effect on metabolism, but only present evidence that one element of the causal chain can be observed. This is pretty weak evidence, and in my opinion, the way you are presenting your case (i.e. overclaiming and ignoring counter-arguments) does you no favours whatsoever.
53907. Riccardo at 23:16 PM on 14 September 2012
       Vanishing Arctic Sea Ice: Going Up the Down Escalator
       It's typical. However wrong you may be, never admit a mistake. I found this trait relatively common. For a real professional it would be the end of the career but apparently this simple concept does not apply in certain quarters. It's a mistery.
53908. Bernard J. at 23:04 PM on 14 September 2012
       It's not bad
       AHuntington1 said at #250:

       High altitudes provide a real life example of a population that breathes a higher Co2 [sic] to O2 ratio.

       I'm curious to know on what basis you make this claim. Is the ratio of the partial pressure of carbon dioxide to the partial pressure of oxygen at altitude significantly greater than at lower altitude?

       It is also interesting that people who live in high altitudes (and are exposed to a higher Co2 [sic] to O2 ratio) [sic] experience lower mortality rates, in general.

       I suspect that the phenomenon to which you refer has more to do with the fact that non-essential metabolism is more likely to be reduced at higher altitude. There is a credible suggestion that calorie/joule use (which has an effect on metabolic rate) in humans is proportional to life span, just as it is in so many other species.
53909. anon1234 at 22:53 PM on 14 September 2012
       It's not bad
       Dikran Marsupial, with each breath we exhale something like 35,000 ppm of Co2. A much higher percentage of Co2 than current atmospheric levels. I thought I did say this, but I have not come across any peer reviewed papers that espouse the theory that increases in atmospheric Co2 provide a net benefit. The fact that this study is hard to find/NA does not reflect a lack of evidence on the benefits of Co2 (as there are many studies) as much as it reflects the mentality of most biological scientists (especially nutritionists). ps. It's funny that you spell my name Huntingdon- this was common way to spell the name before words became more standardized. Stephen Baines, but they don't cancel out. The Bohr effect is a bit counter intuitive; A higher Co2 to O2 ratio provides a lower affinity for O2 in the blood, and more ability to transfer O2 to the tissues(plus Co2 is a vasodilator, thus allowing more blood to flow in general). A lower Co2 to O2 ratio provides a higher affinity for O2 in the blood, and less O2 transfer to the tissues (plus O2 is a vasoconstrictor). KR, interesting article. Remember, my claim is that increasing atmospheric Co2 (by any means, to a certain extent) can have positive effects on animals via increased respiratory efficiency. I never made an overall cost-benefit judgement. I just want it added to the list of potential benefits.
53910. adelady at 22:12 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       chriskoz "As we know Arctic is melting faster than most models predict." And so are the land based glaciers. Extreme weather is also running well ahead of the modelling. I'm not at all reassured by a "limit" of 750 billion tonnes emitted in the next 40 years. (Unless you're proposing an equivalent tonnage of CO2 extracting materials.) The most important objective in those 40 years is that we have to increase agricultural productivity. My view is that we will be very hardpressed to maintain current productivity.
53911. gws at 22:07 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       The necessary leadership, or demand for leadership, comes from guys like weatherman Paul Douglas, e.g. here. IMHO, guys like him are perfect for multiplication, and could swing large amounts of the voting population in a short time if promoted through the right channels. @Wyoming I agree that GW is what has been called the "perfect problem", and that the envisioned personal changes are not going to happen fast enough (any more). But the existing carbon prizing schemes have been shown to be effective, aka they are "doable in practice". What needs to be done now is to learn from that and drastically increase the prizing (or lowering the cap). A strong progressive increase has been suggested. I think there is generally less concern (in industry) about the prize itself than about how realible it is for planning (see zinfan94's parable): If you don't know what's going to happen, you will potentially be confronted with economic problems or even disaster. The question then becomes: How do you achieve a majority consensus on such progressive prizing? Only via rewriting the tax code I think. It worked in Germany in 2000 and is supported across parties these days. However, then and now it is much too low of a prize to pay. I am with Wyoming here, not Dana: It's gotta hurt (in your pocket book), at least a little, before one can expect to see changes that actually have an impact. You can try selling it in a positive manner, maybe you have to. But in doing so, we should not feign that it is easy to achieve change.
53912. chriskoz at 21:29 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Appologies for wrong link in my comment abvove. This is the correct link to Jim Hansen's paper.
53913. chriskoz at 21:23 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       In terms of carbon pricing, everybody talks about ETS and Carbon Tax (at point of use). I want to bring Jim Hansen's model of fee at the source and 100% divident. The model is already 3y old and no-one seems to be able to implement it, even though Hansen proved its superiority over ETS in situation that becomes urgent crisis now. Do you think this impass is due to political reasons only, or there are some economic/psychological reasons?
53914. chriskoz at 21:22 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       adelady @26, you said:

       decreasing emissions alone has no chance at all of reducing accumulated CO2 concentrations at the rate needed

       You're right and wrong, depending on the actual target and allowances. Assuming allowance of 1000GtC, the "smooth" target, with emissions peaking at 2012 or shortly thereafter (the EU crisis deepening globally would help us) the FF exit is only 3%/y until 2050 and the "residual emissions" of 5GtCO2/y are allowed thereafter, as indicated on fig.1 here. But if we burn BAU until 2020, then a sharp drop to 0 emissions before 2040 is required. The estimates may be a bit optimistic if they assume earth system response according to current iceshelf melting models. As we know Arctic is melting faster than most models predict.
53915. Robert Murphy at 21:10 PM on 14 September 2012
       Vanishing Arctic Sea Ice: Going Up the Down Escalator
       The "Climate Realists" website has republished Bastardi's claims about the "rapid recovery" of Arctic sea ice this month, along with his picture. Even after I pointed out the picture was not what he claimed it is, the site moderator yelled "Squirrel!!" and changed the subject, but the picture still stands. They really don't care if it's correct or not, as long as it fools enough people. http://climaterealists.com/index.php?id=10209
       Moderator Response: [Sph] Link added by request.
53916. Kevin C at 20:49 PM on 14 September 2012
       Climate Change and the Weightier Matters: a Christian view on global warming
       villabolo: I couldn't find any kind of international survey on eschatological views, which was a surprise, but does support my impression that the different kinds of millenialism are mainly a US concern. But your analysis at @23 seems very plausible to me.
53917. chuck101 at 20:46 PM on 14 September 2012
       A vivid demonstration of knee-jerk science rejection
       Thanks Eric, I really do not wish to rehash all the previous comments, but it seems to me that you also put a caveat on that previously, namely that you accept the 97% scientific consensus except where it is based on models. Further more, you put a further constraint on climate sensitivity namely: "all the uncertainty points to lower sensitivity" which virtually invalidates most of the models which are based on middle ball park estimates. Though why uncertainty should point in any general direction, I do not know. It is accepted scientific practice that uncertainty is dealt with by saying + or - 5% (or whatever), so equal weighting in both direction. So hence you are loading the dice against the models as well for no good reason, thereby guaranteeing that you won't accept those bits of the scientific consensus. Do I have it right so far?
53918. Dikran Marsupial at 20:08 PM on 14 September 2012
       It's not bad
       AHuntingdon1 wrote "People at high altitudes breathe less O2 (and Co2), but continue to metabolize glucose, which produces water and Co2. Thus, people at high altitudes are exposed to a higher ratio of Co2 to O2 internally. But yes, the atmosphere is less dense all around." I very much doubt this is correct. The amounts of CO2 produced from glucose metabolism are going to be very small compared with the amounts in the atmosphere already. Unless of course you are indoors in which case CO2 levels are not primarily determined by background CO2 levels and so your initial hypothesis is invalid anyway.
53919. Dikran Marsupial at 20:02 PM on 14 September 2012
       It's not bad
       AHuntingdon1 I asked you for a peer-reviewed* study that supported your hypothesis that increasing atmospheric CO2 has a significant metabolic benefit. You were only able to provide papers supporting some of the component parts of the hypothesis. Ideally one would like to see the self-skepticism that would be indicated by a straight answer that clearly stated that there were no papers that supported the hypothesis itself. No regarding the obesity paper, as you said I used logic as the basis for my skepticism of that hypothesis. The same logic underpins my skepticims of your hypothesis, I doubt rising background levels of CO2 have a great effect on CO2 levels indoors or in urban environments, where CO2 levels are likely to be determined by local source and sinks. You did not address that issue. If CO2 levels did have a significant effect on metabolism (i) we would be able to see those benefits in human health and (ii) it would be easy to perform the experiments to confirm the link and there would be a paper on the subject by now. *yes, I do know that peer-review is no guarantee of correctness, however it does at least mean that the paper has passed the preliminary sanity check of peer review.
53920. Falkenherz at 17:54 PM on 14 September 2012
       Solar cycles cause global warming
       Thanks for taking up my question. IMO, this is the first real observation which I found and could finally lead to a sound sceptical argument about AGW. I think we can agree that, no matter how accurate that graph in the WP is drawn, it does match the generally observable trend from other TSI records: No matter how we might find issues with the WP-graph, the graph "historical TSI reconstruction" on http://lasp.colorado.edu/sorce/data/tsi_data.htm does also show a correllation of TSI and global (not only USA) rising temperature trend. Now, if I understand correctly, that correllation is not really being challenged as concerning the first half of the 20th century, right? According to what KR did quote, we look merely at the time since 1985, where TSI goes downwards. Others say we need to look at the time since about 1960. So, it is only from that point of time that GHG could really take over as a driver, right? But, atmospheric temp seems again to align to the weaker TSI, by keeping moreless its level since 1998. However, we then argue that it is the global oceanic temp, which continues to rise. Correct? If I go by simplified logic, it should be like that: +TSI +GHG = strong raise of global temperature -TSI +GHG = weaker raise of global temperature (if at all, if you look at the lag at the climax shown by the ice core curves...) If we observe merly atmospheric global temperature, this simplified logic seems to apply and our AGW Theorie seems to fail. Atmospheric temperatur does indeed not rise for about 10 years! But if we put emphasis on the oceanic global temperature, we instead observe a continued strong raise of global temperature, right? Which is odd, too. If it should be mainly GHG as responsible factor, could that raise really be that strong? It should be weaker than a bundled raise of TSI and GHG together, right? Or do we commit an error by taking into account oceanic temperature somehow in a wrong way? Or do we still not understand TSI, or other influences and its effects on earth correctly? This seem at least to be possibilities. Along these lines, another observation: I always understood IPCC arguing that climate is a long term issue, and that we observe a rather strong raise of 0,8 degree since 1850. But suddenly, I see here that most of the raise can be aligned with historical TSI-data (as far as we know...) and it is only 1960 or 1985 where GHG really could kick-in. This does not seem consistent, do we have AGW by GHG emissions since 1850 or since 1960/1985??? I am confused.
53921. JasonB at 15:16 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       I think it's worth pointing out that the key difference between an ETS and a simple carbon tax is that the latter relies entirely on price signals to control emissions while in the former the critical point is the cap — the price of the carbon is simply a by-product of how easily the cap is met. The disadvantage of an ETS is that it makes it harder for business to plan for the future because they don't know how expensive emissions will be, but let's not forget its advantages!
53922. Stephen Baines at 13:21 PM on 14 September 2012
       It's not bad
       "More CO2 means less O2 is absorbed immediately into the hemoglobin, but the O2 that is picked up is easily distributed." Yes, my point exactly. For all you know, the two things cancel out, or worse. You've provided no real evidence that increasing ambient CO2 has a net positive impact on O2 use efficiency. It could just as easily be a negative impact. In any case, even if you were correct, it is besides the point. As KR notes, the point of the OP is not that increasing CO2 is always bad for everything under all circumstances. It's that, taken together, the effects of increasing CO2 on organisms and human society will be on balance very negative. That's true even when we acknowledge the positive effects of increasing, including CO2 fertilization of plants. By focusing on a few physiological processes, you're missing the forest for a few cherry trees.
53923. adelady at 13:15 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       wyoming@22 "... it is obvious that the solution to our situation 'requires' a dramatic reduction in the scope and complexity of industrial civilization or we will never lower carbon emissions sufficiently in time to prevent catastrophe." We've already lost the time we needed 'to prevent catastrophe' if you're thinking in terms of getting the work done soon enough in the way that the computer industry put their heads down and eliminated the Y2K threat. Even if we'd started properly 25 years ago with building standards, vehicle efficiency and renewable energy we'd still have a lot to do. The 'scope and complexity' of our industrial and commercial activities can be redirected or refocused to achieve better objectives much more easily than they can be halted. We don't stop mining - we start mining (or reopen worked out mines) to extract olivine and similar materials that can be milled into gravels and dusts to remove CO2. If we cut our capacity to perform such activities effectively, we cut off our best chance to reverse some of the damage we've already done. We don't stop building houses and businesses. We build them better and we fix the ones we've got. 'we will never lower carbon emissions sufficiently' is absolutely right. Let's face it, decreasing emissions alone has no chance at all of reducing accumulated CO2 concentrations at the rate needed. Cutting the rate of further accumulation will not be enough. We have to do a lot more than that if the data we're now getting about extreme weather events and loss of glaciers and sea ice is anything to go by. And we have to maintain our capacity to deal with adaptation. Education and training for different industries performing different activities does not mean 'a dramatic reduction' in the size of industry. It just means different industries with different priorities. We've left it too late for a Y2K type success. The best we can hope for is a CFC type operation. When you look at how long it's taken to stabilise the SH ozone hole, let alone reduce it, we're going to have to work a lot harder.
53924. Doug Bostrom at 13:09 PM on 14 September 2012
       Postma disproved the greenhouse effect
       Seconding DSL's pointer to Science of Doom, the gold standard of "working it out" step-by-step. If you want to get comprehensively, deeply schooled, head to SoD.
53925. DSL at 13:00 PM on 14 September 2012
       Postma disproved the greenhouse effect
       Ed, I'm not going to try to do the math, because . . . well, because I just don't want to spend the time on Venus. I will point you to Science of Doom, though: Venusian Mysteries Part 1 Venusian Mysteries Part 2 Convection, Venus, Thought Experiments and Tall Rooms Full of Gas – A Discussion SoD is quite willing to discuss the fine details to the nth degree.
53926. Mark-US at 12:37 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       We have to start attacking the demand side. Only once we stigmatized smoking did 2nd hand smoke regulations start popping up all over the place. Most folks are patriotic souls. We need to really sneer at their fossil fuel usage, all the time, so they start to doubt their own knowledge and choices. One possible Tshirt in this campaign: Image of walker passing by gas station yelling "You're burning your kids' FOOD in your CAR?? Are you a COMMUNIST or just nuts?"
53927. Dale at 12:04 PM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       dana & KR: They've developed biological hydrogen production over the "economically feasible" barrier of 10% efficiency, and improving constantly. It won't be too far in the future (matter of years probably) that the technology will be to the point where algae hydrogen could replace all transport fuel. For instance, at 10% efficiency, to replace transport fuel in the US, 0.003% of the US land area (25,000km2) of algae farms would be required. That's a tenth of the area dedicated to soya. Like I said, the power to replace all energy sources with hydrogen is in the palms of our hands. We just need to "do it".
53928. KR at 11:56 AM on 14 September 2012
       It's not bad
       AHuntington1 - I would point to Gonzilez et al 1996, "Direct lnhibition of Plant Mitochondrial Respiration by Elevated CO2", among others. When considering elevated CO2 it is vital to consider the full spectrum of effects - heat, ocean acidity, C3 versus C4 plant responses, and the fact that other aspects of the environment may be the limiting effects on biology. You claim elevated CO2 is, overall, beneficial - that's really not supported by the evidence available.
53929. dana1981 at 11:45 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Wyoming, your comment @22 confuses me because we do have many carbon pricing systems in place, and they are working in the real world. See Figure 1 above and this post. For example, the EU has had a carbon pricing system in place for 7 years now. I also think the panic style of language you're advocating contributes to the frustration you're expressing. Climate change isn't an all or nothing proposition - the more we mitigate, the less we have to adapt and suffer. If we start to panic, we turn people off and they give up. If we keep a positive message going, I think we will have more success in maximizing mitigation.
53930. anon1234 at 11:24 AM on 14 September 2012
       It's not bad
       As for plants, I certainly concede the point that other factors (outside the greenhouse) might negate the benefit of Co2 as an aerial fertilizer. I have read the page and am still on the fence regarding overall cost-benefit analysis regarding the aerial fertilizer argument. But, just as the potential benefits of aerial fertilization is listed in the above pros and cons, I would like to see potential benefit to mitochondrial respiration in fauna listed as well.
53931. Wyoming at 11:23 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Dana, Thanks for the response, but perhaps you miss my point. My contention is that solutions, like Carbon Pricing, the other ideas I mentioned above and Paul's solution above, cannot work in the real world. Technically possible in theory does not equal doable in practice. They are not going to be possible to execute in any timeframe that will solve the problem. If your solution requires a change in human nature then you actually do have to figure out how to change that nature or you do not have a solution. I understand completely the reluctance of using fear to motivate. It has potential unpredictable downsides. I believe, however, that it is the last option available. Solutions which will take decades to execute are not solutions, but rather a kind of salve which makes one feel as if they are pursuing a noble option in the face of great odds. People are already resigning themselves to fate so if you lose a few more it does not really matter. Many of those you are losing are the very ones you have convinced that AGW is a critical problem. They/me see proposed solutions like those described by you, Paul and Dale above and we just throw up our hands in frustration as it is obvious that the solution to our situation 'requires' a dramatic reduction in the scope and complexity of industrial civilization or we will never lower carbon emissions sufficiently in time to prevent catastrophe. The information you detail on this site every day brings us to those conclusions. We simply are out of time. The tool box is pretty empty at this point and we appear to be down to our final options. It is not always appropriate to keep telling people not to worry and that we can fix things. Sometimes you have to holler that it is time to abandon ship to save those you still can. The collective 'you' cannot keep telling us how fast we are sinking and then stand on the sidelines or in the background. Sorry to be so stark, but there are a lot of us out there that are giving up on working on fixing AGW because of what I have described above. Every day we delay the situation worsens, the end result becomes less tolerable, and the chances of finding our way through this mess less likely.
53932. anon1234 at 11:16 AM on 14 September 2012
       It's not bad
       Stephen Baines, a higher affinity for O2 in the hemoglobin results in less oxygen transfer out of the blood, to tissues. More Co2 means less O2 is absorbed immediately into the hemoglobin, but the O2 that is picked up is easily distributed. Philippe Chantreau, that is a good point, and I did mis-type. People at high altitudes breathe less O2 (and Co2), but continue to metabolize glucose, which produces water and Co2. Thus, people at high altitudes are exposed to a higher ratio of Co2 to O2 internally. But yes, the atmosphere is less dense all around.
53933. KR at 10:35 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Hydrogen is very easy to use once produced - but the production of hydrogen is (currently) very inefficient, storage and transport is not realistic (the hydrogen tank required for a reasonable range is just huge), etc etc. Fuel cells, while efficient, are extremely expensive due to catalysts, and quite sensitive to contaminants. A more realistic method of replacing fossil fuels would be to use renewable energy to generate methane, enthanol, or other renewable fuels that are more easily transported and stored.
53934. dana1981 at 10:31 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       I'm not a big fan of hydrogen as a transportation fuel. It's not as efficient as EVs, more expensive, and most hydrogen comes from natural gas. Electrolysis is very inefficient. You're better off powering the vehicle directly with electricity than using the electricity to create hydrogen fuel for the car. It's an extra inefficient step. There's a reason all automakers are pursuing EVs while few are pursuing hydrogen cars.
53935. zinfan94 at 10:24 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Parable of the All-Powerful Project Management Team continues… We take out coal! OK, we still have some loose ends to deal with. What do need to do with the coal plants? Personally, i would preferred to put a team of mothers on this project, because I have found mothers particularly effective as project managers taking care of problems like this. They would make a list (mothers love lists) of the coal plants, then they would go talk to the owners; and talk… and talk some more. They would ask "What's it gonna take?" And then they start bargaining, and they negotiate, and they rap a few knuckles at times, and eventually, they get all women want… they get their own way! It took a little money, some replacement green power project participation, some ownership in some big transmission projects, but in the end, most of the coal plants caved. A few coal plant owners foolishly held out, but then dana's carbon tax came in handy. it took a while (over ten years) but eventually, we got enough transmission capacity into their territories, and slashed prices below their op costs. Coal plant op costs are over $40 per MWh, and by adding $25 per MWh of carbon tax on top, all the green power had to do to undercut the remaining coal plants was to deliver electricity under $65 for a few years… and that was the end of the coal plants. Although I must admit, in order to make the deals go, we did end up funding some carbon capture and sequestration projects coupled with clean coal power plants. Those two projects sliced into our profits to the tune of about $6B, but enabled us to get rid of the old plants. So dana's carbon pricing wins one here, the carbon tax came in handy dealing with coal plants. Next comment: Which finally leaves natural gas, particularly shale gas.
53936. Dale at 10:01 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       zinfan94: I know it's not "peer reviewed science" ;) but here is a link explaining a bit about Toyota's hydrogen fuel cell car. http://www.caradvice.com.au/177707/toyota-fuel-cell-hybrid-car-coming-in-2015/ 700km per fillup, more power than electric, and produce only water and speed as by-products. The concept car also looks really cool!
53937. zinfan94 at 09:37 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       The Parable of the All-Powerful Project Manager continues: We finish the second year of our project, and the green vehicle ramp continues. GM and the other vehicle makers are making money on their green vehicle manufacturing, and investing more into new models and increased manufacturing capacity. And as global oil demand begins falling even faster, the price goes into a "death spiral". Some of my ex-buddies at the oil companies pay our team a visit. "Stop, already, what ya trying to do?" So we tell 'em: "we are trying to reduce the carbon emissions from all fossil fuel sources 80% within thirty years…. our target in America is to reduce crude oil use 50% in fifteen years." "Reduce America's oil demand 50% in fifteen years? Wow, thats a lot… no, that's unspeakable!" " How are going to do that?" And so we tell them than now we are getting over $100B annually from our half share in the savings due to the drop in crude oil prices. And we are trying to invest all of it in green vehicles and biofuels, but it simply isn't possible. All the suppliers in that space are doing everything they can do, and throwing more money at that space won't do any good. Then they ask, how low do you intend to take oil prices? And I ask, when are they going to start shutting down fields, and curtailing oil supply? They tell us that they stopped drilling in the Arctic, curtailed deepwater drilling in the Gulf, and overseas they have scaled back development plans… But we ask, what about the tar sands? Hmmm… hems and haws. No reductions in production yet. When, then? At what oil price do the tar sands shut down? And that's when we find out that it will take oil prices below $30 per barrel to completely shut in tar sands production. Ok, then. It will take us several more years to get there, but we, the project management team, intend to drive oil prices below $30 per barrel. After they leave, it hits us. if we drive oil prices just to $40 per barrel, our team's share of the oil cost savings will exceed $200B annually just 8 years into the program. What can we do with all that money? Even now, we are having a hard time investing $100B annually in the green vehicle and biofuel incentives. Somebody is going to get mad about all the billions piling up in the bank. So we look around, hoping to find something to invest the money in, and find out that the green power guys need money to get their projects built. We decide to go talk to them. They tell us about their projects, and then we ask them what do they need? It turns out that they need to borrow money at low interest rates, less than 4% would be nice. But we tell them that only the government (or some homeowners) can borrow money at those interest rates. After banging our heads together, they capitulate, and agree to build projects owned by various governments and public co-operatives, using public financing. Our project management team will give $30B annually, and public financing provides another $100B, and thus they can build green power projects ten times faster than currently. This solves a problem for us, what with all the money coming in from the tax on the drop in oil price. We manage to offload a big chunk into building green power projects. Next comment: Cleaning up loose ends.
53938. zinfan94 at 09:32 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Dale: I don't think the latest work on hydrogen is as good as you say, but I am not opposed. Bring your team of manufacturers into the All-Powerful Project Management Team, and we can throw a few billion their way, if it makes sense. But remember, they have to deploy, and deploy fast, to drive down oil demand.
53939. villabolo at 08:56 AM on 14 September 2012
       Climate Change and the Weightier Matters: a Christian view on global warming
       Scaddenp @21 "I suspect most of this is post-hoc rationalization of a position, where actual views on the environment formed from other influences." Yes, it began that way but now, particularly with a new generation being brought up on denialism, it's become an integral part of their religious views.
53940. Dale at 08:51 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       zinfan94: If you're the "All Powerful Project Manager", why wouldn't you just tell the auto makers to convert to hydrogen fuel cell cars? At present they're commercially viable using natural gas (and produce half the emissions of oil-based cars) with just the final kinks to work out before "clean" fuel sources can be used (storage of hydrogen is pretty trick). And the best thing with hydrogen fuel cells are they are easily scalable so could easily become a personal household energy source. Quite seriously, we're not too many years off being able to pour water (or some "better" clean fuel source) into an energy converter which powers our house and cars. Proof of that is Toyota, Daimler and Hyundai all have production roadmaps for the first hydrogen fuel cell car in 2015. And hydrogen is the "ultimate clean energy" which is literally on our fingertips. Why waste time on hybrid technology, or technology that still uses fossil fuel energy to "recharge"?
53941. Stephen Baines at 08:33 AM on 14 September 2012
       Climate Change and the Weightier Matters: a Christian view on global warming
       John, Thanks for this. I often get students claiming that a scientific viewpoint and a religious viewpoint are incompatable, and that topics like climate change and evolution force one to choose between one or the other. It's nice to have an example of someone using science to act upon moral principles. It should generate some interesting discussion.
53942. Riccardo at 08:27 AM on 14 September 2012
       Do we know when the Arctic will be sea ice-free?
       People at The Cryosphere Today probably need to change the y-axis lower bound. And note that red line showing up in the upper-right corner here. Time for a change, a change for the worse.
53943. Philippe Chantreau at 08:21 AM on 14 September 2012
       It's not bad
       AHuntington1, how does high altitude increase the CO2 to O2 ratio? As pressure decreases, the mass of any given atmospheric element per unit of volume decreases and that applies to all of them: oxygen, nitrogen, carbon dioxide, all other well mixed gases. CO2 concentration within the range of altitudes at which humans can live does not vary in any significant way.
53944. scaddenp at 08:19 AM on 14 September 2012
       Climate Change and the Weightier Matters: a Christian view on global warming
       "An example of American fundamentalist thinking on the environment " I suspect most of this is post-hoc rationalization of a position, where actual views on the environment formed from other influences. (eg. distaste for environmentalistists/Al Gore, perception that environmental care restricts freedom, distaste for taxes etc).
53945. Stephen Baines at 08:09 AM on 14 September 2012
       It's not bad
       AHuntingdon I don't think you understand how the Bohr effect works. It's the difference in affinity of haemoglobin for O2 in the lung (low CO2) and in O2-starved (high CO2) tissues that increases efficiency of O2 supply to O2-starved tissues. If you increase CO2 in the lungs, you decrease the ability of haemoglobin in the lungs to take up O2 due to the very same chemistry. That will not increase O2 supply to internal tissues. You may also reduce the differential in O2 affinity between the lungs and O2-starved tissues, which will reduce effiency of supply of that O2 to O2-starved tissues. And no, CO2 is not considered a "major" factor affecting plant growth. Nutrients and water are far more important in nature. Only when the latter are in sufficient quantities (as in a greenhouse) do you see a substantial CO2 effect. That effect decreases as CO2 concentrations increase -- i.e., there is a law of diminishing returns. It is far less obvious for C4 than for C3 plants. You should read the CO2 is plant food thread in detail before commenting here. BTW...You should be aware the IPCC accounted for the fertilization by CO2 when assessing the effects of increasing CO2 on crops. They predicted an initial increase in production followed by substantial decreases after further increases due to effects on climate.
53946. villabolo at 07:58 AM on 14 September 2012
       Climate Change and the Weightier Matters: a Christian view on global warming
       @John Cook #5 "...I've never really taken the time to investigate eschatology and pre/post millenial theology. As for the age of the earth, this blog post should make my views clear. I know realize that was a silly question, I guess I got up too early in the morning. :-)
53947. zinfan94 at 07:15 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       Project Management, continued… OK, this is good, we have something started, we have a bunch of green vehicle guys looking for ways to ramp their production and sales, and investing to do this, but…. we need to come up with the bucks to pay them. Now as an all-powerful project manager, I call in our bankers, and say we need $80B. They look and say, well, no. No? We are all powerful. Still no, but… they will lend it to us, with interest. Even though this a rude awakening about the limitations of "all-powerfulness" , we agree. So now we have a host of green vehicle manufacturers, and even some biofuel suppliers out there rapidly ramping production and selling vehicles that don't use gasoline or diesel or jet fuel into the vehicle fleet. But our borrowed money is going out the door. Then one day a few months later, I drive by the gas station, and notice that gasoline price has fallen over 30 cents per gallon, and this is even though dana and his carbon taxers put a seven cent carbon tax on gasoline. I call in our commodity traders, and ask "What's Up?". They tell us that crude oil prices have fallen 12 bucks a barrel from $96 to $84, and the crack spread (refining margin) has fallen ten cents a gallon. Wow, that seems like a lot, and indeed it is. American crude oil products customers are saving $110B annually. The commodity traders tell me that the EU and India and China copied our green vehicle incentives, and world-wide oil demand has dropped about one percent. We ask, is that normal? And the commodity traders explain about the oil market price elasticity of demand, and how in late 2008 the world oil demand temporarily fell 2.7%, causing oil prices to fall over $60 per barrel. I am amazed, but now I know how to pay those pesky bankers back… we'll show them who is all-powerful! We call Congress and the POTUS in and tell them we want half the oil price savings, so we can pay back our bankers (and investors?). Currently that would be over $50B annually. Now I know, in real life, there is no way that the congress and the president are going to put a tax on crude oil to capture some of the price drop, but humor me… lets say we get half the crude oil price drop (that we caused with our substitution investments). We, the project management team, now have access to $50B annually. So we invest more in green vehicles, and drive oil demand down more, and guess what? Oil prices keep falling. Next comment: How low can they go?
53948. zinfan94 at 07:03 AM on 14 September 2012
       How to Solve the Climate Problem: a Step-by-Step Guide
       dana, thanks, I agree to some extent, but remember I want to make the difference, and get the change underway… so let's try this: Instead of an economist sitting in front of his blackboard, hypothesizing about a perfect market, lets instead imagine ourselves as a project manager, who has access to all the energy companies, researchers, financial and investment institutions, and…. huh … wait for it… who will have the politicians support anything that you feel is necessary to do to solve the problem (AGW) while at the same time optimizing customer satisfaction. What would you do? Lets take the vehicle fuels market as an example. I would ask the vehicle manufacturers and the researchers for a plan to reduce GHG emissions at least 80% in thirty years, perhaps with an even more aggressive objective of achieving a 50% reduction within fifteen years (plan for a faster ramp). Now the vehicle fuel guys (oil companies) would tell me that it can't be done. In fact, I have actually had oil company engineers that I have known for years, tell me exactly that, with a long-winded lecture as well. But remember, as project manager, we have all the resources available at our disposal… so if the oil companies don't want to participate, then fine; lets talk to the other guys. Lets ask the vehicle manufacturers. Mr. GM, you can currently manufacture 60k Volts per year, but currently selling only about 30k. Whats it gonna take to get to three million annually? Answer: Well, we can make money with a price at $40k per vehicle, currently the government pays the customer $7500, but this still leaves us about $10k above equivalent vehicles. If you (project manager) can get us another $5k per vehicle, we can narrow the cost difference to less than $5k, and the customer saves over $1200 per year, so the vehicles will sell out at that price. So as project manager, you ask Mr. GM, you can sell the vehicles out and ramp to three million annually if we get you another $5k per vehicle? "Yes, we can." As project manager, we can get this going, and adjust the details later, so we want to immediately say "Go do it." But we remember our carbon pricing dictums, and ask instead, what if we give you seven cents per gallon ($25 per ton of carbon), can you do it? They whip out their calculators, and come back and say, that's only $40 a year… our customer couldn't even buy his Starbucks coffees for two weeks with that measly amount. So now we have a dilemma, do we let Mr. GM go off and do what they do best, and hope we find the $5k per vehicle to pay for his ramp? Since we are the all powerful project manager, we say: "Go, and Just Do It!" And we can set up similar deals with other vehicle manufacturers, motorcycles, bicycles, airplanes, etc. And in the next comment, I will explain where we are going to find the extra $5k per vehicle.
53949. anon1234 at 07:02 AM on 14 September 2012
       It's not bad
       KR, the first statement is backed up by the Bohr effect, and the fact that Co2 helps prevent acute hypoxia (potentially deadly lack of oxygen supply). These two facts show how Co2 (and especially a higher ratio of Co2 and O2) does indeed increase oxygen distribution throughout the body significantly. Co2 also displays antioxidant activity. I don't see the comments in the plant food thread that you are referring to. Do you deny that one major positive factor in plant growth (among others, such as soil type, and water quantity) is the quantity of Co2 in the area? Do you disagree with the litany of studies that show crop yield increases when Co2 increase was the only changing variable?
53950. KR at 06:30 AM on 14 September 2012
       It's not bad
       AHuntington1 - I believe the issue is that you have made numerous assertions without backing evidence, such as "...increasing the ratio of Co2 to 02 significantly increases the distribution of 02 throughout the body..." and "More atmospheric C02 is beneficial for plants (as has been described in this thread) and animals." I haven't seen the latter in this thread, and in fact if you look at the relevant CO2 is plant food thread you will see that this is actually not the case - heightened CO2 has mixed, and in general negative, effects on plants due to effects such as changes in the hydrological cycle. You have then moved the goalposts - raising separate points (lactate mechanisms, antioxidants, hypoxia) - using references showing that insufficient CO2 is harmful, but not producing any evidence that excess CO2 is helpful. The term "Gish Gallop" applies to the rhetorical tactic of raising many unrelated points without fully addressing (or completing a reply to critiques) any of them, and it does seem to apply to your posts so far. If you are going to make claims, you need to support them. You have not.

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