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Comments 48501 to 48550:

  1. Ocean acidification: Some Winners, Many Losers

     

    I have a question.  I have heard that the oceans are under saturated by CaCO3 because the average concentration of Ca++ in the oceans is much lower than the sum of all carbonate, bicarbonate, and carbonic acid concentrations.  However,  when concerned with the solubility of the CaCO3 shells of living organisms, I would expect that the more relevant question is - is the sea water in the immediate vicinity of these living species saturated with respect to CaCO3?   If so, one would observe a gradient of Ca++ concentration as one moves from the region of shelled species out towards the depths am remote regions of the oceans.  Certainly such measurements have been made.    

     

    Note that Matt Ridley has suggested that increased atmospheric CO2 levels will actually facilitate the growth of CaCO3 shells (in his misnamed book, Realistic Optimist) - an argument that has meaning only if the sea water in the vicinity of shelled critters is not saturated w.r.t. CaCO3.   

     

    Any insight on this point would be apprecited.

     

  2. No alternative to atmospheric CO2 draw-down

    meb58:

    Note that this discussion of how increasing CO2 cause changes in climate is starting to get off-topic for this thread. If you wish to continue some of these discussions, it would be a good idea to look for a more appropriate thread. Look through the View All Arguments link (beside the thermometer bulb at the top left section of page) to find places that discuss many topics. Any comments you place on any topic you find there will show up on the Comments page that everyone can access using the link in the menu bar under the main header, so it will be seen.

  3. No alternative to atmospheric CO2 draw-down

    Meb58@ 30: " What prevents that extra heat from escaping into space faster?"


    In essense, it does escape faster. A hotter atmosphere will lose energy faster, via increased emission of infrared (IR) radiation, but the followup to that is the question "at what point is a new balance reached?" A new balance is nto reached instantaneously - it takes time. If you want to think of it in a stepwise fashion, the steps are:

    a) energy, as sunlight, is absorbed by the earth-atmosphere system, mostly at the surface (but don't worry about that for now).

    b) energy is lost to space, from the earth and atmosphere, by IR radiation.

    c)  the earth-atmosphere system will be at equilibrium (i.e., a stable climate/temperature) when a) and b) balance.

    d) adding CO2 to the atmosphere makes the process in b) less efficient (IR is less easily transfered through the atmopsphere), so b) decreases and a) is now greater than b).

    e) as long as a) is greater than b), the earth-atmosphere system accumulates energy, and will heat up.

    f) as the earth-atmosphere heats up, it will lose more IR to space (step b)), because hotter objects give off more IR.

    g) the system will continue to heat up until a) and b) balance again, which will be at a warmer temperature than it was before the extra CO2 was added.

    An analogy would be a house with a fixed heater inside, and a fixed temperature outside. The heater will warm the house until the rate of heat loss matches the output of the heater. If you add insulation to the house walls (the equivalent of adding CO2 to the atmosphere), the heat loss will initially decrease, and the house will start to warm up. As the house warms, the increased temperature difference between the inside and outside of the house will cause the heat loss from the house to increase, until it again matches the heater output. The hosue will no longer continue to warm, but the new stable temperature inside the house will be warmer than it was before you added the extra insulation.

  4. Philippe Chantreau at 02:15 AM on 18 February 2013
    No alternative to atmospheric CO2 draw-down

    meb58, the basic reaction is  CH + O2 -> CO2 + H2O

    I doubt that the mass of the atmosphere can vary in any significant way. Water vapor content is a function of atmospheric temperature, any excess will precipitate as liquid or solid water.

  5. 16 years - Update and Frequently Asked Questions

    KR: That's a good rigorous statement of the situation. Also well done for avoiding the null hypothesis fallacy, an easy mistake commonly made by people on both sides of the discussion.

  6. No alternative to atmospheric CO2 draw-down

    Tom Curtis,

    I missed what I think is an important detail in your #26 reply above.  I had not realized that the H2O was a by product of the combustion process, or perhaps forgot.  If I understand this correctly then would this extra H20 affect latent heat?  I see this extra H2O as water vapor...?  ...add more heat to more water vapor and bang!

  7. No alternative to atmospheric CO2 draw-down

    Tom curtis, Jose_X,

    Thank you very much!  Your explanations are very helpful.

    ...then, the consumption of O2 occures at the point of combustion?  And forgive my own intillectual density,  even though O2 is consumed to form CO2, doesn't the mass  of the atmosphere now stay the same following the law of conservation?  I am aware that my previous question was quite the opposite...your helpful descriptions are clearing up my own mis-conceptions.

    Still, in my conception of the atmosphere, I see an atmosphere that is growing hotter.  What prevents that extra heat from escaping into space faster?  I equate my question to this example.  Let's take a one square foot cube of steel heated to 150 deg F and place it in a room set at 0 deg F.  I suspect the heat loss will follow some particular and repeatable time frame until the two reach the same temperature.  I uderstand, I think, that the heat loss may be rapid in the beginning and slow as the two begin to reach equilibrium.  However, if we now add heat doesn't the steel block lose heat faster?  ...hmmm may have just answered my own question...the source of heat we are providing is increasing over time and over-runs the ability of our atmospher to dissipate the extra heat...?


    Thank you...I would love to go back to school and revisit physics and chemistry.

  8. 2013 SkS Weekly News Roundup #7

    Interesting recap of the history of Most Influential Climate Science Paper which is this paper. Evidently mostly quoted paper in the history of climate science, not because it describes some break-through but because it links the climate modeling to the future of fosil fuel industry.

    The interesting piece is, that according to the article, no skeptics nor FF industry have ever denied the numbers in the paper. Instead, they've critiqued that the paper and the activists supporting it "do not understand the economic reality that FF are needed as energy source". In other words, "we are so much dependant on FF, like a drug user that is doomed & must die, such paper does not change it". I can only make one comment here: to draw such conclusion, one must be in a very sickly state of mind...

    Moderator Response: [DB] It is relatively unknown than an openly-available copy of that paywalled paper can be found here.
  9. No alternative to atmospheric CO2 draw-down

    meb58, I should also mention that hot->cold happens "unquestionably" only in the absence of work, but adding work changes the equation. Humans are engineering chemical reactions that, along with gravity, apply work to the atmosphere as we change its composition.

    Sorry, I am not being more mathematically precise, but the point is that we may need to understand these contributions if we wanted to accurately verify/analyze the Second Law of Thermo.

    [Wikipedia: "heat always flows spontaneously from regions of higher temperature to regions of lower temperature, and never the reverse, unless external work is performed on the system."]

  10. No alternative to atmospheric CO2 draw-down

    I think CO2 has been used (laboratory level) as a source of fuel along with sunlight in a soup of some semiconductors and various organisms. This isn't sequestration +producing energy needs in a CO2 neutral process. This is 0 sequestration + producing energy by drawing down CO2... which has the same effect.

     

  11. No alternative to atmospheric CO2 draw-down

    meb58, a higher temperature gradient is the result of changing the material across which the gradient exists into a new material that allows a higher gradient to exist. In other words, more CO2 makes the old atmosphere into a new one that has higher insulative properties. If we replace a thin coat with a thick one, we can have a higher gradient. A paradox would exist if the material remained the same material, but changing the composition of the atmosphere is de facto creating a new intermediate material between space and the earth's surface.

  12. No alternative to atmospheric CO2 draw-down

    meb58 @25, CO2 concentration has only increased 110 parts per million by volume since the pre industrial era.  Further, that increase has been accompanied by a loss of oxygen.  Not only does each molecule of CO2 formed draw one molecule of O2 from the air, but much of the CO2 comes from hydrocarbons.  That means approximately (for oil and gas) for each molecule of CO2 formed, two molecules of O2 are lost to the atmosphere, to form 1 x CO2 plus 2 x H2O.  The H2O then precipitates out of the atmosphere for a net reduction.  Further, CO2 dissolves in water more easilly than does O2, so while nearly all the O2 consumed in the reactions is lost (a small part is made up by ocean outgassing), around 50% of the CO2 formed is then dissolved in the ocean.

    The net effect, if any, will be a reduction in pressure.  However, as we are talking about changes in atmospheric composition of about 0.01%, the effect is negligible.

  13. No alternative to atmospheric CO2 draw-down

    Hello all. I am not a research scientist but I have some basic knowledge of physics and chemistry.


    I have a question about th greenhouse affect from a heating and cooling perspective.  I understand the a hot body will give heat off or transfer heat to a cold body if it the hot body is hot enough - entropy?   I think that I also understand the concept of partial pressure and that as a gas heats up it expands. 

    As we add more co2 to the atmosphere are we not increasing the pressure of the lower atmosphere?  If so, I would expect to see extra heat from generated from pressure as well.  In addition, since space is so cold, why does this extra heat escape faster into ooutser space due to the increased temperature gradient?   I've read that our upper atmospher is cooling and constricting.  Does this effect  help to keep the heat at lower altitudes?  Does  gravity play a role on co2 here?

    Thank you in advance.

  14. Charles08537024 at 10:48 AM on 17 February 2013
    There is no such thing as climate change denial

    It has been gratifying to see how many have pointed out Mr. Taylor's egregious interpretations of the Lefsrud and Meyer study, including seeing the authors of the study politely but firmly insist his interpretation was erroneous. Taylor has tried this tactic before, most recently with his "analysis" of a suvey of members of the American Meteorological Society.

    The editors of Forbes should be aware that Mr. Taylor's articles are providing rich fodder for those of us in the academy who wish to teach our students how not to interpret science.

  15. No alternative to atmospheric CO2 draw-down

    @Ger, #21:  Very good point.  If we generated electricity from biomass, displacing fossil fuel combustion and producing biochar in the same process, that would be a significant contribution to carbon sequestration.

  16. There is no such thing as climate change denial
    Howdy Cara, welcome to SkS. Interesting and gratifying that the authors of the study actually posted a comment on Taylors post saying that he couldn't make the claims he has about their study. It was in the polite language of science but actually it was quite a slap down. And, a Forbes staffer, Alex Knapp posted a few hours ago, pointing out that the title of his article was misleading. Maybe Forbes might start to take an interest in the quality (not) of what Taylor is putting upon their site.
  17. There is no such thing as climate change denial

    As has been pointed out many times, consenses amongst scientists doesn't make it true.  There is an ever shrinking possibility that we have it wrong and this is simply a natural (not human) phenomenon.  However, even if the whole theory of climate change is in error, there are a lot of other reasons to cease our use of fossil fuels.

    http://mtkass.blogspot.co.nz/2010/10/forget-climate-change.html

  18. No alternative to atmospheric CO2 draw-down

    The issue of geoengineering raises an interesting conundrum. Acceptance that it's required means that advocates must believe that...

    1) Climate change is real and a threat to humanity.

    2) Concerted global action is required by the world's governments.

    3) CO2 emissions incur a cost to society—a cost directly related to the price of countering their effect through geoengineering, as well as costs of dealing with the impacts of climate change (in other words; a huge amount).

    Given these factors it would be illogical to continue with 'business as usual' at the same time as adopting geoengineering measures, unless we can find a method of geoengineering that precisely removes the CO2 that burning fossil fuels dumps in the atmosphere. In fact, given that—by winding up the climate warming 'flywheel'—we've put ourselves already well on course for at least 2o of warming and several metres of sea level rise, we actulally need to remove all the additional carbon we've put into the atmosphere over the last 150 years or so, as well as any we will need to contnue putting in the atmosphere in the future: a big ask.

    So, overall, getting countries to all agree to geoengineering will only happen at the same time as they all wake up to the imperitive of stopping burning fossil fuels. We're still far away from any serious action, but it's clear that the two will both occur at the same moment. It will not be an either/or.       

     

  19. There is no such thing as climate change denial

    The phrase 'climate denial' is a perfectly acceptable shorthand for 'climate-change-related denial'.

    Those who choose to make an issue of it by being literal are usually seeking to deflect from the subject under discussion. In other words; if you can't argue the evidence, nit-pick about phraseology.   

  20. There is no such thing as climate change denial

    It is amusing to see the comment right at the top of the page as you open the Forbes site:

    Forbes Thought of the Day

    " Let a man practice the profession which he best knows.

    — Cicero

    It is obvious which profession Taylor belongs to.

  21. There is no such thing as climate change denial
     
    The perceived discrepancy is because John takes the average over 16 years, while Dana contrasts the endpoints of a 15 year interval.
     
     
    Thanks for the prompt & cordial reply.
  22. There is no such thing as climate change denial

    Cara #8,

    Mark Hoofnagle on the denialism blog has a good takedown of James Taylor. The paper Taylor reports on contains these statements:

    First and foremost, our study is not a representative survey. Although our data set is large and diverse enough for our research questions, it cannot be used for generalizations such as “respondents believe …” or “scientists don’t believe …”

    In addition, even within the confines of our non-representative data set, the interpretation that a majority of the respondents believe that nature is the primary cause of global warming is simply not correct.

    http://scienceblogs.com/denialism/2013/02/15/denialism-from-forbes-courtesy-of-heartland-hack-james-taylor/

  23. There is no such thing as climate change denial

    "Consequently, a key strategy of opponents of climate action for over 20 years has been to cast doubt on the scientific consensus and maintain the consensus gap."


    As a recent example of this, please see the Forbes editorial written by James Taylor of the Heartland Institute, posted this week and entitled "Peer-Reviewed Survey Finds Majority Of Scientists Skeptical Of Global Warming Crisis."

  24. Dikran Marsupial at 00:59 AM on 17 February 2013
    We're heading into an ice age

    Tom, yes you are absolutely right about the cause of the decline in European populations, doh!  The info on English wine growing was also very interesting, ISTR there is something about it in the book on the British Climate compiled a few years ago, I think in honour of Hubert Lamb, but it is back in the library now, so I can't check. I hope Kevin learns from this exercise that perhaps his information on the topic of climate isn't perhaps all it could be, and will moderate the attitude in his posts somewhat.  We are all happy to discuss science here, but generally those who arrive with a bit of an attitude tend to provoke a correspondingly confrontational response.

  25. There is no such thing as climate change denial

     

    It is a shame that this article falls for the manipulation of public opinion that has been so successful in branding all conspiracy theorists as somehow lacking the intellect to see the mainstream or official line on a topic. This is especially so when one considers the discrepancy between the scientific consensus and public support for action on climate change. Something close to the hearts of all who post articles here and the vast majority of those who comment on them I assume.

     

    I have always tried to follow the science of any issue that I choose to take an opinion on. That is as true of my stance on climate change as it is on 9/11. When someone can show me that climate change is not going to be a major problem by reference to the science, I might change my opinion. But there is a lot of evidence to contradict before I do so. Until then, I will campaign for the need to act and act now, if not sooner.

     

    Similarly, (-snip-).

     

    Moderator Response: [DB] Off-topic snipped.
  26. There is no such thing as climate change denial

    use of language plays some havoc in these situations. It's natural for people to use short hand of one form or another. So climate change denial is short hand for rejection of the consensus view of the social problem created by emissions of GHGs. Unfortunately that gives disinformationists room to play on the ambiguity of meaning. But this isn't really any different when some people say scientiic theory X (e.g. general relativity) can't be 'proven'. The word prove has different associations depending on who is saying it and what the context is.

  27. A Glimpse at Our Possible Future Climate, Best to Worst Case Scenarios

    Composer99 - the current rate of CO2 rise is unparalleled in the last 300 million years. See Honisch (2012). I've almost finished a post on Foster & Rohling (2013), but based on their research, global warming and consequent sea level rise will persist for many centuries. With atmospheric CO2 levels between 300-400 ppm (parts per million) sea level in the last 40 million years typically reached around 24 metres (+7/-15) higher than today. With CO2 now over 390ppm long-term sea level rise from greenhouse gases already emitted is going to be substantial.

    If the low climate sensitivity people are right, it implies extraordinary sensitivity of global land-based ice to small amounts of warming. I doubt they are right, but the basis for this is too lengthy to fit into a comment. Even keeping under the 2°C limit effectively dooms the coral reefs. A collapse of that ecosystem is going to have profound effects on the hundreds of millions of people whom depend on the reefs for protein. This will have significant repercussions for all humanity, especially so when industrial fishing methods are simultaneously emptying the oceans of fish. The future is going to very different to how many people imagine it will be. And not in a good way.

  28. There is no such thing as climate change denial

    Clyde @4, from Nucitelli et al, 2012, Table 1 the average increase in heat at the Earth's surface from 2002 - 2008  was 0.73 W/m^2.  In contrast, the average heat accumulation from 1990 to 2008 was 0.46 W/m^2.  Clearly for those figures to make sense, the heat gain from 1990-2002 must have averaged 0.3 W/m^2.  The perceived discrepancy is because John takes the average over 16 years, while Dana contrasts the endpoints of a 15 year interval.

  29. There is no such thing as climate change denial
    Importantly, it also ignores the fact that over the last 16 years, our planet has been building up heat at a rate of over three Hiroshima bombs worth of energy every second. To deny global warming is to deny the basic fact that our planet is building up heat at an extraordinary rate.

    From <a href="dana1981's"></a> article it says -


    In fact, heat is accumulating in the Earth's climate system due to the increased greenhouse effect at a faster rate today than it was 15 years ago, and the energy is equivalent to detonating four Hiroshima atomic bombs per second, every second over the past 15 years.

    Which is it 3 or 4? When you consider their detonating every second that makes a difference.

  30. No alternative to atmospheric CO2 draw-down

    https://fortress.wa.gov/ecy/publications/summarypages/1107017.html for nice overview on the advantages of re-instating a clean charcoal industry based on biomass residues.

  31. No alternative to atmospheric CO2 draw-down

    @#12, Icarus. Charcoal making does produce a lot of excess energy. Most retorts use the excess energy for producing steam. Pelletizing the charcoal dust from biomass residues takes a lot less energy than raw biomass, another energy saver. 

  32. A Glimpse at Our Possible Future Climate, Best to Worst Case Scenarios

    With regards to the best vs worst-case scenarios, I'm curious how they stack up against paleo evidence.

    The danger limit agreed upon by policymakers is 2°C increase compared to pre-industrial times.

    Basically, apart from the best-case emissions scenario combined with best-case sensitivity, we can look forward to a minimum 2° increase, pretty much no matter what, by the end of the century.

    As far as I can see, a 2°C change in global mean temperature in approximately 250 years is almost without precedent in the period for which we have any remotely reliable paleoclimate data, that is, the past 550-600 million years.

    The only episodes I can think of with climate changes that are comparably rapid are the end-Permian and end-Cretaceous periods. So even the change that is considered under the danger limit involves the climate changing at a rate that is only seen in entirely undesirable circumstances, at least as far as I can see.

    But I'm a musician: anyone who knows this stuff care to comment?

  33. There is no such thing as climate change denial

    @Composer99: In self-perceived critical movements, I dislike the non scientific bias towards criticism (sometimes leading to esoteric or unscientific conclusions and sometimes even climate change denial). On the other hand, I do not like uncritical belief of science, if the source of the money and along with it the research goals and limitations are clear: being skeptical is especially useful, if research is driven by big business, as is the case for GMOs (no checks due to revlving doors legislation) and pharmaceutical products ...

    So, I am a science skeptic and especially a climate skeptic, but I did not find anything to complain about in climate science, up to now: it's not business driven (view the oil company benefits and you see where the majority of the money interests are), it's independent, open, scrutinized, multinational. But I remain skeptic on genetic engineering and pharmaceuticals   and I have (non scientific) reasons to remain so, because business is at least partially involved in what is researched.

    ---

    @Initial (re)post: I agree: I am not a climate scientist, but I read a lot on it, including books on climate science (currently blackbody radiation and placks law, phew!), but I try to communicate the scientific consensus, and I can see all sorts of excuses for not wanting to change, which all boil down to one of the top 10 arguments of denial listed in Sks, which basically go back to the genuine, independent scientific consensus. This is why I absolutely like the scientific guide to global warming skepticism, which draws a complete model of reality and points to the failure of skptics of having a consistent model of reality and the escalator graphics, which brings at least questionmarks into peoples minds who are unwilling to read the 12 pages they don't like ... This is a "constructive" approach, together with real life examples that communicate that even a big change need not be a loss in quality of life, only a change in habits, with a hard transition period, we all know that. 

    But I think we also need to cover who brings in the money to deny science consensus: http://www.pbs.org/wgbh/pages/frontline/climate-of-doubt

    Also, the former tobacco harm deniers are now in the climate denial business, e.g.
    http://www.sourcewatch.org/index.php/S._Fred_Singer

    Apparently, it 's the same strategy over and over again ...

  34. There is no such thing as climate change denial

    I prefer the term "climate science denial" over "climate change denial" for the reason that John outlines in the first paragraph.

  35. We're heading into an ice age

    Kevin pretty much scored an own goal here.

  36. No alternative to atmospheric CO2 draw-down

    @Daniel Bailey (15), please see, e.g., http://www.cosmosmagazine.com/news/forests-soak-third-fossil-fuel-emissions/ 

    Moderator Response: [DB] Thank you.
  37. A Glimpse at Our Possible Future Climate, Best to Worst Case Scenarios
    That link to the new dataset for greenland bedrock seems to be garbled. The correct link should behttp://www.the-cryosphere-discuss.net/6/4829/2012/
  38. No alternative to atmospheric CO2 draw-down

    Icarus @12: You may be excessively gloomy about the potential for CO2 sequestration via biochar. An Australian company, Pacific Pyrolysis has developed a slow pyrolysis technology which (so they claim) takes an incoming biomass waste stream and converts about half of its carbon content to biochar. The other half is more than enough to drive the process (no need for fossil fuels after startup) and generates enough electricity to export a surplus from the plant. More information is available here.

    It's true that I am not aware of any independent verification of Pacific Pyrolysis's claims, and a full life cycle analysis would have to include fossil fuels burned during the aggregation and transport of the waste to the pyrolysis plant; however, pyrolysing waste which would otherwise be burned or allowed to rot would seem to be positive.

  39. A Glimpse at Our Possible Future Climate, Best to Worst Case Scenarios
    The Greenland image was constructed from the Bamber data. There is a better dataset than Bamber these days.see www.the-cryosphere-discuss.net/6/4829/2012/Griggs et al.As far as abrupt melt goes, how are you going to get a mole of Joules into the ice ? sidd
  40. We're heading into an ice age

    Dikran Marsupial @291, the very sharp decline in population in the 14th century has almost nothing to do with climate, and everything to do with the Bubonic Plague.  Much of the increase before that had little to do with climate, and much to do with the adoption of the horse collar in Europe.

  41. No alternative to atmospheric CO2 draw-down

    Haha, KR, that trailer was great, thanks!  Now I know where all the HAARP conspiracies originated.

  42. We're heading into an ice age

    If I can end the game between Kevin and the Moderators, this is evidence of viticulture in Roman Britain:

    "This article presents stratigraphic and palynological data from Wollaston in the Nene Valley, England, which provides conclusive evidence of viticulture on an large scale. The spread of Viticulture through the Roman World and the extent to which it supplanted beer brewing can be seen as an essential element in the consideration of the Romanization of northwest Europe. The pollen assemblage suggests hoeing or ploughing was used, presumably to reduce grass and weed growth around the vines. The distribution of known and probable sites and of suitable pruning tools has a distinct southeastern bias, as might be expected from the spatial variation of climate in the British Isles."

    (My emphasis)

    So also does this article about the same site, but note that while "...the apparent lack of viticultural tools and wine presses in the archaeological record in Britain is not reliable evidence for the absence of viticulture at that time", it must be considered evidence that viticulture was not widespread.

    Regardless, as I have noted on other occassions, the presence or absence of vinyards is a poor proxy of climate as human and economic factors play too large a role.  Is the decline (but not absence) of viticulture in Anglo-saxon Britain and indication of cooler climates, or just an indication that the Anglo-saxons has a taste for ale in preference to wine?  Does the post norman decline in viticulture in England reprsent a decline in climate or the fact that improvements in wine manufacture and transport made French wine cheaper in Britain?

    More importantly, if you are going to use viticulture as a proxy for climate in the past, then you must be consistent and do so in the present.  So, if viticulture in England in Roman and Norman times is evidence of warm climates at that time, then viticulture in Scotland and Sweden now must be considered evidence that it is warmer now than in Roman or Norman times.  The extent to which deniers cherry pick data rather than following evidence is shown by their refusal to follow the clear logic of this argument.

  43. No alternative to atmospheric CO2 draw-down

    rpauli - Induced volcanism? Quick, to The Core!

  44. No alternative to atmospheric CO2 draw-down

    Induced volcanism would require the least effort.  But unpredictable and uncontrolable.  

  45. No alternative to atmospheric CO2 draw-down

    @ saileshrao:

    "In fact, Josep Canadell at CSIRO had estimated that if the world stopped deforestation today, let alone regenerate any forests, then forests would be sequestering 50% of the anthropogenic carbon emissions starting today, not just 25%."

    Do you have a link for this?

  46. No alternative to atmospheric CO2 draw-down

    Icarus, I respectfully submit that biological sequestration would be fast enough for our purposes. In fact, Josep Canadell at CSIRO had estimated that if the world stopped deforestation today, let alone regenerate any forests, then forests would be sequestering 50% of the anthropogenic carbon emissions starting today, not just 25%. And all that deforestation is occurring mainly to support the growth in meat and dairy consumption, which is truly a voluntary activity that is entirely unnecessary for human well-being.

    I would urge reputed climate scientists to set examples, by going vegan themselves. At the moment, I don't know of a single climate scientist who's vegan.

  47. No alternative to atmospheric CO2 draw-down

    No argument with the thesis that we must reduce atmospheric carbon dioxide but any technological system we adopt will likely be too little too late and if deployed at a sufficient level to actually have an effect will trash our economy.  Worse still, we will run into unexpected consequenses such as releasing already sequestered carbon as we try to sequester more carbon.  No one would argue against the fact that our first priority is to stop putting more already sequestered carbon into the atmosphere and this is well within our technological capacity.  Already, wind is competitive with fossil fuels and solar is just about there.  The main barrier in the way of solar is legislative, not technological.  However, has anyone noticed that atmospheric CO2 goes up and down 7ppm each year or more accurately, 8 up and 6 down.  Natural processes are far more powerful than anything we could devise.  We need to, for instance:  1.  Selectively log, sequester the wood in well built houses and furniture, use all the waste wood to produce organic urea, liquid fuel and any other product that will displace fossil fuel 2. completely stop whale harvesting and let the whale pump recover with it's ability to suck carbon out of the atmosphere. 3. stop the use of palm oil and let the jungles re-form.  A mature jungle doesn't absorb any net CO2.  A jungle growing from scratch is a huge carbon sink (dry wood is 50% carbon or put another way, the amount of carbon dioxide sequestered in wood is close to the wet weight of the wood) 4. Completely change our fisheries policy, 5. Adopt Jim Hansen's system of tax and Dividend and so forth. 

    http://mtkass.blogspot.co.nz/2009/10/wood-waste-and-urea.html

    http://mtkass.blogspot.co.nz/2009/09/german-fit-system-brilliant.html

    http://mtkass.blogspot.co.nz/2011/09/whale-poo.html

    http://mtkass.blogspot.co.nz/2009/12/jim-hansens-climate-change-solution.html

    http://mtkass.blogspot.co.nz/2010/12/fisheries-policy-lets-change-tacks.html

  48. We're heading into an ice age

    Here is one for the Roman Optimal

    www.english-wine.com/history.html

    The last source was for the Medieval Period, for grain.

    Moderator Response:

    [DB] It is noted that your referenced source does not support your earlier contention. Therefore, the conclusions reached in this comment apply and you tacitly agree to its conclusion:

    "So the climate today in England is much more conducive to wine-making than during the Roman occupation of England, consistent with the proxy reconstructions of temperatures covering those times."

    By agreeing, you concede you earlier comment was in error and therefore invalid. If you disagree, you will need to then further support it here before being allowed to comment elsewhere on this site.

  49. Dikran Marsupial at 04:41 AM on 16 February 2013
    We're heading into an ice age

    As far as I can see, that source provides no real evidence (references to primary sources?) and provides only rather equivocal support for your assertion, e.g.:

    "More people meant smaller acreage of land per person and this led to "harvest sensitivity." In years of poor harvests (such as the wet summers of 1315-1316) insufficient grain was grown and the poor starved."

    "English agricultural methods and productivity remained stagnant throughout the Middle Ages. The "strip" system of farming was equitable and extremely inefficient. Yields of grain per acre remained stagnant."

    "Food production was only increased by bringing more land under the plow - a process that stopped once all available waste land had been improved."

    Also the graph of population (reproduced below) suggests that a fair proportion of the population didn't adapt to the LIA (except perhaps by dying).


    Regarding grain abundance, your source emphasises a point I was making: "More people meant smaller acreage of land per person and this led to "harvest sensitivity." In years of poor harvests (such as the wet summers of 1315-1316) insufficient grain was grown and the poor starved." That sitation is far worse now in a world with 9 billion mouths to feed.  As far as I can see you have provided very little evidence to suggest that the past suggests we can adapt to future climate change without substantial hardship.

    Moderator Response: [DB] Nor does it cover his claimed time period of the Roman optimal.
  50. Increasing CO2 has little to no effect

     

     

    The data from The European Project for Ice Coring in Antarctica shows results that are inconsistent with those presented here.  I did a scatter plot of CO2 vs. temperature for the 800,000 years represented by that study.  The first thing I noted was that the current point is way, way, way far away from the other 799.  That suggests by itself that there is a fundamental structural difference in what’s going on today vs. the past. Next, I plotted the climate equation using the maximum value of λ, 1.2.  It was way below the actual data points.  Then I estimated the value of λ which  would best fit the historical data (leaving out the current point because it is so far off).  The result was a value of 20.7 which is an order of magnitude larger than the maximum value stated here of 1.2.  Finally, I fit the best linear relationship.  It’s R square, .79, was better than that of the log fit, .76.  Can anyone give me a scientific explanation of what’s going on here?

     

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