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Comments 28301 to 28350:

  1. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    JvD @20 & 21, I notice from page 17 of the report that onshore wind costs more in Europe than in the Asian countries.  Is this also because of the "demonization" of renewables in Europe?  Apparently that is "the only credible explanation" in this sort of case.

    What is noteworthy is that while the values I quoted are for studies of historical, actually operating plants, the values from the various bar charts are for Gen III nuclear plants; and include a carbon price of $30 a tonne for coal.  The report feels it is necessary to report that " that there are great uncertainties concerning
    the cost of carbon capture, which has not yet been deployed on an industrial scale" but feels no need to report similar uncertainties on the price third gen nuclear reactors, which have also "not yet been deployed on an industrial scale".  The important point, however, is that the bar charts you are rellying on do not reflect historical values and hence are irrelevant to the point I made.

  2. Joris van Dorp at 20:19 PM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Page 19 of this IEA publication clearly shows that nuclear is far cheaper in asia-pacific countries than in the USA.

    https://www.iea.org/publications/freepublications/publication/projected_costs.pdf

    The only credible explanation is the high cost of rabid antinuclearism in the USA and other countries.

    My point is that scientists have spent too much time urging humanity to stop emitting co2, while failing to urge humanity to stop being antinuclear.

    Moderator Response:

    [JH] Unsubstantiated and argumentative assertion stricken. Please cease and desist including statments like this in your posts.

    Please note that posting comments here at SkS is a privilege, not a right.  This privilege can be rescinded if the posting individual treats adherence to the Comments Policy as optional, rather than the mandatory condition of participating in this online forum.

    Please take the time to review the policy and ensure future comments are in full compliance with it.  Thanks for your understanding and compliance in this matter.

     

  3. Joris van Dorp at 20:14 PM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Tom, I believe you are mistaking cause for effect. Demonisation undermines public acceptance of nuclear, which increases the cost of nuclear (the extreme 'negative learning curve' of nuclear as seen in antinuclear countries). In China and other non-antinuclear countries, the exact same nuclear power plant costs only half as much as in antinuclear countries like the USA. Public acceptance is the cause of this difference. Cost is merely a symptom of public acceptance.

    By the way, the 'nuclear is too expensive' argument seems contrived, because solar and wind energy are even more expensive than expensive nuclear. Yet popular 'green' mythology holds that we can solve the climate crisis with wind and solar, never mind the cost. It seems one can't disparage nuclear over cost issues while hailing far more expensive solar and wind as the end-all and be-all of climate protection, no can one?

  4. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    JvD @18, what has kept the world from nuclear has not been demonization but the simple fact that its levelized cost is greater than that of coal (see table 11.1a):

    Nuclear

    LCOE $/MWh 74 56-67 44 51-77 33-74 71

    Pulverised coal
    LCOE $/MWh 47 45 51 36-44 28-75 51-53

  5. Joris van Dorp at 18:02 PM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    If nuclear power hadn't been demonised so successfully, the world could have had a decarbonised electricity supply by now.

    http://www.researchgate.net/publication/270572988_Global_zero-carbon_energy_pathways_using_viable_mixes_of_nuclear_and_renewables

    http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0124074

     

    http://conservationbytes.com/2014/12/15/an-open-letter-to-environmentalists-on-nuclear-energy/

    SKS is a very popular climate science website, and rightly so, but in all the years I've followed this website, I've seen a lot of talk about renewables as a solution to AGW, but almost nothing about nuclear. Indeed, whenever nuclear has come up, it has been attacked and disparaged. That is a pity, because as this article shows, it is now almost too late to prevent 2C of warming.

    I wonder if the decades of antinuclearism which has prevented nuclear power from achieving global hegemony instead of coal could not have been prevented if scientists had spent a little less time advocating for people to reduce co2 emissions, and a little more time on explaining to the public that nuclear power is in fact a bona fide and effective way to achieve credible climate protection, let alone elimination of air pollution from electricity generation.

    P.S. (I have been banned from this website (which I greatly value) for years now, for being a determined pro-nuclear advocate. My first account was "JvD". I hope that re-registering under a new account is acceptable, since I've spent so much time being banned in penance. If not acceptable, please excuse me and just ban this account as well. Thank you.)

  6. Global warming is causing rain to melt the Greenland ice sheet
    Another paper linking the 2012 event to an atmospheric river (among other causes) is Neff(2014) doi:10.1002/2014JD021470
  7. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Whilst I agree with the article and it's undoubtedly gloomy and likely conclusions, there is a form of Carbon Capture which is gaining traction all over the world which I have never seen on this forum, - not that I read the majority of articles, - however, I am referring to Terra Preta, now usuallly called Biochar, which is the practice of mixing charcoal with compost and using this as compost.

    The charcoal part of this mix remains in the soil with the nutrients from the compost and makes the goodies available to plants (becomes 'Permanent Compost' whilst also acting as nurseries for huge populations of soil biota, which also stimulate the plants.

    This has two major effects, one the carbon is sequestered for huge periods of time,- Terra Preta paddocks in South America have had the charcoal measured to be there 7000 years- those paddocks contain 30% charcoal down to 1 metre, in fact it has been calculated that if all the tropical areas of our planet went over to Biochar we would remove all the carbon dioxide added by industrial development since 1800 whatever, - although I have not seen how long estimated.

    Nontheless it is a significant thought.

    The second major effect is the increased, often spectacularly increased soil fertility, which adds a significant element/motivation, economics, ie you make money with it, very hard with CCS

    Less major effects include greatly increasing the water retention ability of the soil, and locking up most toxins in the soil.

    The point is that the Biochar movement is significantly growing all over the world, almost all using waste carbon, which would otherwise have returned to the air and much of it happening at grass roots level and it is a message of hope, whereas requiring the rich and powerful to make the required sacrifices seems to me to be a hopeless.

  8. 2015 SkS Weekly Digest #27

    Moderators - Take note, there may be a sockpuppet in action. 

    Michael Fitzgerald, you are either co2isnotevil/George White, whose views on this site were shown to be nonsense years ago, or you are parroting his views without credit.

    Your last post with "..1.6 W/m^2 of surface emissions per W/m^2 of net solar input..." directly echos many co2isnotevil SkS posts both in phrasing and in claims about short climate response, and both your phrasing "...incremental solar input..."  and arguments here directly match a July 3rd 2015 co2isnotevil post at WUWT

    ---

    Your math is IMO utter and complete nonsense - 4.4*239 is a meaningless and unphysical multiplication, 255K is only of interest as the emissions of a perfect blackbody radiating 239 W/m2 (ie in Gedankenexperiments), while the Earth is a real graybody where emissivity throttles radiative output to space, you confuse cause and effect (TOA imbalances from emissivity or albedo changes lead to changed surface temperatures that can once again radiate the same as incoming - you have the temperature change coming first), Snowball Earth is a red herring in regards to current climate change, etc etc. Nonsense on top of nonsense, complicated arguments without basis that seem (IMO) intended to dazzle and confuse, not science. 

    Moderator Response:

    [RH] Looking into it.

  9. MIchael Fitzgerald at 11:36 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    Moderator (RH)

    You should also remove 2) from post 41) where snowball earth was originally brought up.

    Thanks.

    Moderator Response:

    [RH] The issue is that you're making up your own theory how snowball earth events play out, on the fly. Tom's reference is well substantiated by a great deal of research on the subject.

    Update: Specifically, your explanation doesn't explain cap carbonate deposits. There's a whole website dedicated to snowball earth science at snowballearth.org.

  10. MIchael Fitzgerald at 11:33 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    Moderator (RH)

    Thanks for the reference.  One error is defining the current steady state as the zero feedback result.  The 1.6 W/m^2 of surface emissions per W/m^2 of net solar input must be after feedbacks have been accounted for, otherwise more than 1 W/m^2 per W/m^2 of input violates COE. This is also a multi-decade to multi-century average that varies little from year to year going as far back as we have accurate records, so certainly any feedback that operates on time scales of decades to centuries must alreadly be accounted for in the steady state average and this includes GHG, cloud and weather related feedback.

    It's also interesting that the steady state average includes seasonal transitions which, relative to surface reflectivity from ice and snow, emulates the transitions in and out of ice ages, albeit on a much shorter time scale.  Another test could be crafted to more precisely calculate the most predominant non GHG related component of temperature changes between ice ages and interglacials based on seasonal differences in the response to solar input (i.e. feedback from growing/melting ice/snow).

    The incorrect quantification of feedback didn't seem to affect the specific analysis (I didn't dig too deep), but the sensitivity claimed was 3 W/m^2 per K, which in the units used by the IPCC is a sensitivity of 0.33 K per W/m^2 which is below the IPCC's lower bound of 0.4C per W/m^2 and approximately equal to the SB sensitivity at the planets emission temperature of 255K.

  11. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    The essential point is that the exisiting infrastructure of industrialized civilization irreversibly uses fossil fuels at a high rate, so produces greenhouse gases at a high rate. That is the situation now. Policies to reduce the usage of fossil fuels can only slow down the rate of emissions slowly. The current atmospheric concentration level is 400 ppm and this will continue to increase even as the rate of emissions decreases. The continuing absorption of emissions in the oceans will only slow down the global atmospheric warming but at the expense of the damaging acidification of the oceans. Limiting the warming to 2 deg Celsius is not  feasible even if policies are adopted to reduce the rate of fossil fuels as rapidly as practical.

  12. MIchael Fitzgerald at 10:34 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    PhilippeChantreau, #43

    There's no double standard.  I expect the same degree of rigor from others about anything having to do with science that I expect of myself.  Anyone can assert a hypothesis, but scientific rigor is all about asking questions and testing those hypotheses.

  13. MIchael Fitzgerald at 10:25 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    MA, Tom #40 #41

    It seems that both of you understand the contradiction this test exposes which can be resolved by either finding a way to disqualify the validity and applicability of the test, identifying a function of sensitivity that when the test is applied, produces the correct results or accepting a lower sensitivity. You both also seem to believe that no reasonably supportable function consistent with a sensitivity of 0.8C per W/m^2 at an average surface temperature of 288K exists. Let me address the potential issues you've raised towards disqualifying the applicability of this test.


    Snowball Earth is not a stable state, for if it was, we would still be in it. The most likely events to initiate it would be a large impact event or the explosion of a super volcano that happened to coincide with a natural ice age. Once the dust settles, the planet will warm back up. Of course, this requires that the Earth respond to changes in solar input much faster than currently accepted, as the dust will only persist for a decade or so. A less likely cause would be a dramatic decrease in solar output.

    (snip)


    Hysteresis is not evident in the response to more than a 100 W/m^2 difference in total forcing between summer and winter. If it was, we would see different delays between min/max solar input power and min/max temperature and/or different average temperatures as the planet warms vs. as the planet cools. Delay can masquerade as hysteresis, but the two are not the same. To mitigate the effects of delay on the test, after each step of input, a long enough time must pass for the planet to be in LTE with respect to the total input power. To the extent that feedback from increasing or decreasing reflection changes the input power, the pre-reflected input power will need to be adjusted until 1 W/m^2 of input after reflection (forcing) is received in LTE. This isn't a problem since forcing, per the IPCC definition, already excludes input power reflected away by the dynamic actions of surface ice/snow and clouds.


    The ice cores show that entering an ice age is somewhat slower than exiting one which could be an indication of a small amount of hysteresis. This is more likely the consequence of less snow consequential to reduced evaporation as the planet cools and more rain consequential to increased evaporation as the planet warms, resulting in asymmetric rise/fall delays. As an avid mountaineer and back country skier, I can assure you that nothing erodes surface ice and snow faster than rain. If enough time is allowed to pass and TSI remained constant, the same LTE surface temperature will eventually arise whether TSI was increasing or decreasing prior to being held constant, although the time it takes to achieve LTE may be different. Keep in mind that the LTE surface temperature is the time weighted average of all possible metastable states consistent with the current accumulated forcing.

    The relative temperature range that the Earth experiences is quite large when you consider seasonal variability in monthly average temperatures which are about 250K at the poles and about 320K in the deserts. The only gap is between 170K and 250K, below which the feedback is zero and we can reasonably assume a linearly interpolated temperature dependence of unit (zero feedback SB) sensitivity at 170K up to the required sensitivity at 250K. We can also reasonably assume a monotonically decreasing sensitivity with temperature unless positive feedback as a function of temperature can be shown to increase at a high enough rate to provide significantly more than the 4.5% additional emissions consequential to a 1.1% increase in temperature arising from a 1% increase (3.9 W/m^2) in total forcing (baseline 390 W/m^2 @ 288K with a sensitivity of 0.8C per W/m^2).

    The assertion that there's no baseline reference for the sensitivity as a function of temperature is not correct. The slope of the SB Law precisely quantifies the sensitivity for the zero feedback case, positive feedback increases the sensitivity above this and negative feedback decreases it below. By extending the ideal black body analysis we can establish hard bounds for an ideal gray body where the absolute effect can vary based on the specific physics describing how a layer between the surface and space reduces the emissivity. This range has an upper limit quantified by the slope of SB at the radiating temperature of the planet and a lower limit quantified by the slope of SB at the radiating temperature of the surface whose emissions are attenuated by the emissivity. The accuracy and precision of the ideal black body result is limited by the precision of the SB constant, while that for an ideal gray body is limited by the precision and accuracy of the emissivity.

    If Earth behaved as an ideal gray body, we could bound the sensitivity at 0.25 +/- 0.05 C per W/m^2 (0.3C per W/m^2 is the sensitivity at the radiating temperature of 255K and 0.2 C per W/m^2 is the sensitivity of a surface at 288K). This represents only 20% uncertainty as compared to the 50% uncertainty of the currently accepted estimate of about 0.8 +/- 0.4C per W/m^2. Unfortunately, there's no overlap in these two estimates, so more testing is required.

    Determining if the planet behaves like a gray body and how close to ideal this behavior is can be ascertained by plotting the average surface temperature on one axis vs. the average power emitted by the planet the other. From this, we can establish how close the real behavior is to the ideal behavior of a gray box quantified by Stefan-Boltzmann with an emissivity of about 0.61 (239 W/m^2 @ 255K / 390 W/m^2 @ 288K). This seems like a simple enough test, does anyone have an idea about what it will tell us when applied to satellite data? Has anyone done this?

    Moderator Response:

    [RH] Unsubstantiated snowball earth theory removed as sloganeering until such time you provide a published citation supporting it.

  14. MIchael Fitzgerald at 10:10 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    KR #42

    I've already considered the analysis based on current conditions and the situation doesn't get any better. If 1 W/m^2 of forcing (incremental solar input after reflection) results in a 0.8C temperature increase, the Planck emissions increase by 4.4 W/m^2 from 288K to 288.8K. All of the W/m^2 of input are subject to the same conditions, thus each W/m^2 of input must also result in 4.4 W/m^2 of Planck emissions (how can it tell which watt is which) and results in a total of 4.4*239 = 1051.6 W/m^2 which corresponds to a temperature of about 96C. Clearly this can't be true.


    Didn't Milankovitch postulate that the asymmetric response to forcing by the hemispheres interacting with the precession of perihelion had the effect of variable gain, thus apparent amplification?

    It also seems to me that the sensitivity has a discontinuity at 0C, since the negative feedback from incremental reflection by clouds is absent because surface ice/snow has about the same average reflectivity as clouds, thus below 0C the net feedback is more positive. This would imply that as more of the surface is covered by ice and snow, as it is during ice ages, the average sensitivity is higher.

    Moderator Response:

    [RH] If you're interested, SoD has a very good three part series on measuring climate sensitivity that you might find interesting.

  15. Global warming is causing rain to melt the Greenland ice sheet

    Recommended supplemental reading: 

    Greenland is Experiencing a Sudden and Rapid Melt Season Onset by Pakalolo, The Daily Kos, July 9, 2015

  16. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Fortunately China is working its toosh off converting to renewable energy.  Her rate of construction of new fossil fuel plant is going down rapidly and she seems to always exceed any promises in this regard that she makes.  Her motivations are not just climate change which will impact on her very hard.  She doesn't want to be caught by the short and curlies, dependent on overseas energy.  I wish the US of A would follow suit.  Without sorting out PPCT, she never will.

    http://mtkass.blogspot.co.nz/2015/01/ppct.html

    Moderator Response:

    [PS] link removed.

  17. Global warming is causing rain to melt the Greenland ice sheet

    And part of the reason is that we just had the warmest June on record.

    ds.data.jma.go.jp/tcc/tcc/products/gwp/temp/jun_wld.html

  18. Rob Honeycutt at 04:00 AM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    On a personal level, here is something I tell people that relates to stranded assets: Carefully consider your next vehicle purchase.

    If you buy a big, gas guzzling SUV as your next new car, there is a strong likelihood that you will get next to zero resale value when you want to trade it in. Potentially that's true for many ICE vehicles as prices fall for EV's and their availability expands.

    It'll be curious to watch what happens in the vehicle leasing market as the shift occurs. This could rapidly become a massive liability for those leasing companies.

  19. Rob Honeycutt at 03:49 AM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Tom... Unfortunately, changes in social norms are unpredictable and erratic. That's the achilles heel to all the projections: How and when humans will actually respond suficiently to the challenge.

    It's seems to me our response is going to be a little like the 100th monkey effect. At some point there will be a shift where people, en mass, will accept there is a problem and respond. Depending on when that actually occurs will dictate how rapidly the response is required. 

    I guess I just have a hard time imaging that in 2050 there are going to be very many people running around saying there's no problem. I think denial has its limits.

    It also bears acknowledging, there a lot of positive things happening. Wind and solar are being built out at a rapid pace, and their costs continue to fall. The auto industry is showing great progress in shifting toward electric vehicles, with nearly every major company launching EV's in the coming years. This past year was the first year we saw carbon emissions decouple from economic growth, which was something many said was impossible. 

    It's definitely not enough and not fast enough, but these are the things that have to happen, and they are happening. 

  20. 2015 SkS Weekly Digest #27

    Tom Curtis - Quite right, I must have been conflating AR4 and AR5, as you correctly point out that the IPCC didn't give an AR5 median/mode. 

    As it stands, the 1.5C lower sensitivity bound given in AR5 (as opposed to the 2C lower bound in AR4) is due almost entirely to the incorporation of short-term observational estimates such as the recent Lewis paper - and there are serious indications that such short-term estimates are biased low. I therefore consider (IMO) the AR4 bound of 2C on sensitivity (only a 5% chance of sensitivity being lower than that given current data) to be a more reasonable estimate. 

    Either way, the only 2% change in sensitivity to direct forcing over a +/1 5C range around current conditions is really negligible considering the uncertainties in feedbacks, and dispite Michael Fitzgeralds search for exactitude in that sensitivity delta it's just insignificant compared to the feedback uncertainties. 

  21. 2015 SkS Weekly Digest #27

    KR @42, the IPCC likelihoods for 1 C and 6 C show they still have a fat tailed probability density function for the climate sensitivity.  It follows that their most likely (modal) value is less than 3 C, although it is possible (but not certain) that the most policy relevant value (the mean) is above 3 C.  Unfortunately in AR5 they specified neither mode, median or mean of their implicity PDF.

  22. PhilippeChantreau at 02:42 AM on 15 July 2015
    2015 SkS Weekly Digest #27

    Michael Fitzgerald at 38. This is the weekly digest, there is flexibility as to what's on topic, as was pointed to my attention recently.

    My question is essentially why the egregious double standard? Why such heavy scrutiny and such high burden of proof on climate science, and why so little scrutiny and so little burden on other activities that have proved for sure how damaging they are. You ask a specific question indeed. My contention is that the question is misplaced, and that areas of activity with a proven track record of economic damage deserve at least as much questioning. You may not want to engage, and mods may decide it is OT, but it is a perfectly legitimate argument.

    I think I agree with your take on precautionary principle. There is no reason why it should apply only to climate science and decisions made on its basis.

  23. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Rob Honeycutt @10:

    "I feel fairly confident that humanity will be at or near zero carbon emissions by 2050"

    I wish I shared that confidence.  I think it is still at least an even chance that emissions in 2050 will be greater than current emissions.  I don't expect the climate denial disinformation machine to pack it in anytime between now and 2050, and neither have we seen any major turnaround in the US, Australia or India that would lead to confidence of achieving zero emissions by 2050.

  24. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    ranyl @8, the IEA Outlook says:

    "In its latest report, the Intergovernmental Panel on Climate Change (IPCC) estimated that to preserve a 50% chance of limiting global warming to 2 °C, the world can support a maximum carbon dioxide (CO2) emissions “budget” of 3 000 gigatonnes (Gt) (the mid-point in a range of 2 900 Gt to 3 200 Gt) (IPCC, 2014), of which an estimated 1 970 Gt had already been emitted before 2014. Accounting for CO2 emissions from industrial processes and land use, land-use change and forestry over the rest of the 21st century leaves the energy sector with a carbon budget of 980 Gt (the midpoint in a range of 880 Gt to 1 180 Gt) from the start of 2014 onwards."

    For comparison, 3 000 gigatonnes of carbon dioxide is 817. 4 gigatonnes of Carbon, ie, about 20% less than the well known target of a trillion tonnes of carbon.  More to the point, the energy sector target shown in the diagram above represents 980 GtCO2, or 267 GtC.  These are figures based on the latest IPCC report, and hence are hardly "fictitious".  Further, they are figures for a 2 C target.

    More importantly, these figures represent emissions, not CO2 concentrations.  The target scenario stabilizes at a CO2 concentration of 450 ppmv.  That represents 360 GtC (1320 GtCO2) above preindustrial levels.  In contrast, 592 billion metric tonnes of CO2 represents an atmospheric increase of 76 ppmv (ie 356 ppmv total concentration); and a total increase of 900 billion tonnes represents 116 ppmv, for a total target of 396 ppmv.  That means if we accept the, presumably non fictional values from the quote from the article linked by JH we have already exceeded the target for 4 C; and that the climate sensitivity is 2.1 C per W/m^2, or 7.8 C per doubling of CO2.  

    I think such a prediction as the central estimate (50-50 chance) can safely be described as alarmist.  

    Rather than the scientists at the conference being so alarmist, it is more likely that David Biello is massively mistaken about what the scientists said.  (Most likely he has mistaken emissions for CO2 content in the atmosphere).

  25. Rob Honeycutt at 02:09 AM on 15 July 2015
    A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    I'm with CBDunkerson here. Anyone investing in carbon emitting infrastructure is making a massively risky investment... Not even a risky investment, they're making an investment that is not going to return a profit. 

    Think about what's likely to happen over the course of the next 40 years. We are certain to see more and more extreme weather events. We're going to see more and more of exactly what scientists have been saying all along. It's going to become abundantly obvious, far beyond what it is already, that we have big trouble on our hands. 

    At some point it's not a question of who's going to make the decision to shut coal plants down. It's going to be, how fast can we shut them all down, and how much disruption are we going to see from the shut down?

    I feel fairly confident that humanity will be at or near zero carbon emissions by 2050, one way or another. What I'm not certain about is whether we can do it in a methodical, systemized fashion designed to produce the least impact to people and economies.

    What I think the world's capital investments (specifically, the world's capital investments in carbon production and use) are doing is pushing us toward a chaotic transition.

  26. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Actually, I'm with TomR on needing an explanation of the 'replacements clause'. As worded, it would appear to indicate that we could continue replacing existing old coal plants with new ones indefinitely and never hit 2C... so long as we stopped building 'non-replacement' carbon commitments by 2018. Which is certainly false and thus presumably not the intent.

    Also, the 2018 figure is based on an assumption that any new carbon emissions sources will continue operating for their expected lifetime. I suspect that is unlikely to be true for many. In the US we have already seen coal plants being shut down prior to normal end of life because it has become more cost effective to build and operate new natural gas plants than continue running some old coal plants. As solar and wind power costs decline we are likely to see a similar result... with both coal and natural gas plants shutting down early in favor of cheaper renewable power. Indeed, the likelihood of fossil fuel plants becoming such 'stranded assets' is already causing a decline in investment in these technologies.

    The point at which CO2 emissions must peak to meet the 2C target is inherently a factor of both total emissions up to that point and rate of reduction afterwards. Until we have some kind of handle on what rate of reductions is likely to occur it isn't possible to define 2018 or any other year as the 'necessary peak year'.

    Moderator Response:

    [JH] I have asked the author of the OP, Stephen Leahy, to chime in on this issue. 

  27. 2015 SkS Weekly Digest #27

    Michael Fitzgerald - Given the various non-linearities along the range, I feel that it's really not useful to step from zero forcing to present conditions in order to establish slopes. Rather, since we're interested in how things will change from present conditions, look at the sensitivity to changes from the current conditions. 

    Rounding values just a bit for discussion, the sun provides 240 W/m2 of input energy, and in steady state the Earths climate will emit an equal 240 W/m2 to space at the top of the atmosphere. 

    From the Stephan-Boltzmann relation, P = emissivity * SB * T4, and rearranging for the effective Earth gray-body emissivity at 15C:

    240/(SB_constant*(15+273.15)^4) = emissivity is 0.6139

    Emitting 239 W/m2, ie with a 1 W/m2 forcing, and the effective emissivity becomes 0.6139 * 239/240 = 0.6114. The temperature required to emit 240 W/m2 with that new emissivity is (240/(0.6114*SB_constant))^0.25-273.15 = 15.30094, so the temperature sensitivity to forcing at current conditions is ~0.301C per W/m2

    This matches well with the predicted direct forcing of a doubling of CO2, 3.7 W/m2 leading to ~1.1C warming, with feedbacks expected to amplify it to ~3C. 

    Now calculating that sensitivity for different bounding scenarios, an ice age (~10C global average temperature) and an Eemian hothouse (~20C global average temperature, no polar caps, oceans 10s of meters higher), while retaining absurd precision:

    • At 15C, 1W/m2 leads to 0.30094 C temperature change
    • At 10C, 1W/m2 leads to 0.295718 C temperature change
    • At 20C, 1W/m2 leads to 0.306162 C temperature change

    The difference in temperature sensitivity per forcing watt between an ice age and a hothouse is less than 2%, far less than any uncertainties in feedbacks, so I think we can essentially treat that change as negligible. We can assume that direct forcing sensitivity is a constant for the purposes of evaluating climate change. Beyond that range the best response may just be "Uh-oh." 

    ---

    A far more interesting question is the level of feedbacks to a forcing change, which as summarized by the IPCC is in the range 1.5 to 4.5C, most likely value of 3C, per doubling of CO2. 

  28. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    "To avoid global warming of as much as 4 degrees Celsius by the end of the century, the scientists suggested civilization has a total budget of 900 billion metric tons of carbon dioxide in the atmosphere, and the world has already added roughly 592 billion metric tons since 1780."

    From article @JH 5.

    So less budget than the fictious 1000billion Tom C's diagram shows for 4C.

    "The argument against CCS is strong. Critics, however, often overlook the fact that making steel and making cement—the fundamental substrates of all power plants, whether wind turbines and solar rooftops or new nuclear—spew copious CO2, as does making the fertilizer that has made more than seven billion humans on the planet today possible. If the goal is zero- or negative emissions, these emissions will have to be eliminated. The only proposal at present to do so is CCS."

    CCS is very expensive and reduces power plant efficiency even if powered by biomass.

    Although the carbon negative claims are theoretically possible, most massive biomass production production is heavily carbon emissions loaded due to industrial farming, land change, fertilizers (production), pesticides, processing and tansport, and if power plant less efficient you need more biomass to get the same power an therefore more potential conflict with food and biomaterials production.

    I'm with Tom R all carbon negative asap, and call for chances of avoiding serious stuff 1:20 chnace which is common level for medical practioneers to consider thngs safe, i.e. there is a less than 1:20 chance that the treatment doesn't actually improves things.

    If people keep contemplating a budget rather than a huge debt people will just do lots of fancy accounting and CO2 emissions will just keep on going up.

    And don't forget the mass extinction event, implying the earth ecosystem needs repairing quickly as well, making things like pesticides, synthetic fertilizers, pollution, e-waste, rare earth metals, mining, deforestation and anything associated with toxic waste production kind of not sensible either.

    Where do stand?

    Let face it people are more worried about Scotish MP's voting on fox hunting than all this environmental stuff.

    Someone recently said to me that they felt I had good points but prefered just to not take notice as it meant they just function in their lifes, which were hard enough without having to worry about enviromentlachange as well.

    For me the only way to turn things arround on a tupence (as needed) is for everyone to want to.

    But at present it seems everyone wants to maintain BAU at all costs, be it powered by fossil fuels or the alternative environmental and GHG associated energy production systems available; playing at being accountants and accountants can make anything look rosey if they try hard enough.

    Wonder how many more extremely extrem weathe revents in a row will be needed before cliamte change is a high priority for everyone and not just a political tool to say the right thing about and hope for the children that its all been hot air?

    Moderator Response:

    [JH] Excessive white space eliminated.

  29. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    John Hartz @5, Schellnhuber is good company indeed.  Thankyou.

    @6:

    In a previous thread I wrote:

    "[It] is quite obvious that if it is acceptable, in 2018, to replace existing houses or to build carbon neutral houses, then it is also acceptable to replace an existing house with two 50% carbon neutral houses; or to modify an existing house to halve its carbon emissions, and build a new house with just 50% of current emissions per house, and so on. In particular, each 1% reduction in emissions from national electricity generation makes room for further economic growth.

    Ergo, Stephen Leahy's formula sounds dramatic, it really represents only a formula for no more emissions growth from 2018. Rather than a cessation of emissions growth (and hence ongoing growth in CO2 concentration), what the world needs is the almost complete elimination of net anthropogenic emissions by 2050, and hence on the order of a 3% reduction in global emissions per annum. That is a doable target. Even with slow initial progression, a genuine attempt to move in that direction will allow very rapid strides in the near future. It is not, however, something on which we can delay - and each year that we delay - each year you win your struggle for inaction makes the cost of transition higher (because it must be more rapid), and the end benefit lower (because of increased global warming durring the delay)."

    Obviously, even in context I agree with TomR's interpretation.  As to his suggested strategy, I do not believe it is necessary or achievable as a globally averaged target.  However, if we are to limit emissions on a per capita basis, as is required by simple considerations of justice, Western societies, and their citizens individually must indeed go net carbon negative as soon as possible, or purchase unused per capita emission credits from the third world to make up any overshoot.

  30. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Tom R: You are taking a phrase of a sentence out of context. Here is the context. 

    “By 2018, no new cars, homes, schools, factories, or electrical power plants should be built anywhere in the world, ever again unless they’re either replacements for old ones or are carbon neutral? Are you sure I worked that out right?” I asked Steve Davis of the University of California, co-author of a new climate study.

     The above is the second paragaph of the OP. 

  31. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Tom Curtis:

    You are in good company...

    In Paris Hans Joachim Schellnhuber, a climate physicist and chair of the German Advisory Council on Global Change, called for "an induced implosion of the carbon economy" over the next few decades, a shift he compared with efforts to end slavery in the last few decades of the 19th century. Without such a momentous shift in the global energy system, there is "not the slightest chance of avoiding dangerous, maybe disastrous climate change."

    Zero Carbon or Bust: Scientists remind policy makers that CO2 pollution must end--and soon by David Biello, Scientific American, July 13, 2015

  32. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    "[U]nless they’re either replacements for old ones...." seems to suggest that replacing your fossil fuel dinosaur vehicle with another such fossil fuel vehicle is OK. Clearly, it is not. Great article although I am sure that with permafrost and methane clathrate emissions, which are already accelerating in the Arctic, it is already too late to prevent a 2C global atmospheric temp increase. 

    Please eliminate the "either replacements for old ones" part or explain to me what I am not understanding.  We must each and everyone of us go carbon negative as soon as possible. No excuses.

  33. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Apposite to this post is this chart showing historical and projected energy related emissions, and the percentage of our carbon budget used consistent with a 50-50 chance of staying below 2 C at 2100:

    I got the chart from John Baez, who in turn found it in the International Energy Agency report World Energy Outlook Special Report 2015 (Figure 2.3).  It is clear from this graph that we need to halve current emissions by 2040, and (approximately) eliminate emissions by 2065 if we are to avoid overshoot on that less than ideal target.  

    In fact, the chart does not include Land Use Change (LUC) related emissions, which constitute approximately 20% of anthropogenic emissions even now, so those targets are generous and we should expect faster reductions than that if we are to meet the target.  Indeed, it is dubious if all LUC emissions can be eliminated meaning some means of sequestring carbon is a necessity for the future.  As it is unlikely to be cost effective, however, emissions reduction should be the first objective were possible.

  34. 2015 SkS Weekly Digest #27

    Michael Fitzgerald @36:

    "... which brings us back to my original question asking what is the sensitivity as a function of temperature so I can perform a definitive test.

    The test starts in equilibrium at absolute zero and increases total forcing in 1 W/m^2 steps, allowing the system to stabilize after each step. The resulting change in temperature is the sensitivity to 1 W/m^2 of forcing at the current temperature. From the quantification of sensitivity as a function of temperature, calculate the expected sensitivity at the current temperature and increment the current temperature by that amount. After 239 steps, the resulting temperature must be around 288K at a sensitivity of 0.8C per W/m^2 or else the prediction fails."

    I believe that unless you reduce the test to the trivial question as to the temperature response to total forcing plus feedbacks at the surface, in which case the response function is given by the Stefan Boltzman law applied at the surface, your test is entirely unsuitable.  That is because:

    1)  The response function to forcing alone varies greatly with temperature as different feedbacks kick in and vary in strength and rate of change with temperature.  That in turn means that to perform your test we would need to know for each of those feedbacks exactly at what temperature they kick in, and how they vary with temperature.  In turn that is something we cannot know from observation, in that most of the relevant temperature range has never been experienced on Earth, and all of it except the last 1% of the temperature range has not been experienced when we could make instrumental observations.  Further, we cannot know it from computer models because the relevant experiments have not been done, and even if they were the models would be operateing so far outside their design range as to make the responses almost meaningless.  Combined, this makes your test analogous to determining the slope at an unspecified location on the mountain range by adding together the altitude change per kilometer from from the nearest coastline to ensure it gives the correct altitude, when there has been no detailed survey of the topography between the coast and your current location.

    2)  This difficulty is compounded by the fact that the temperature change with change in forcing differs in some circumstances depending on whether you are cooling or warming.  This hysterisis in the atmosphere was certainly a feature of the (at least two) snowball Earth states experienced in the distant past and have been conjectured to be a factor on a smaller scale on time scales relevant to the modern.  Ergo your whole of mountain range test of the current slope does not even have unique values for the slope at a given forcing.

    In short, your "definitive test" is nothing of the sort.  It is not even a doable test; and to the extent that we can approximate to it, the results are so uncertain as to be meaningless.

  35. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    350ppm means at least 1.6C temperature rise (Pliocene temperature 2C estimated by Hansen 2011 and assuming 60% heating 100 years), and as the temperature for the early Pliocene (last time CO2 350ppm -400ppm), is most often estimated to be between 3C-5C this implies a more likely temperature rise of 1.8C to 3C, for 350ppm.

    And 350ppm by 2100 means there hasn't been any carbon budget for some while and the atmospheric CO2 will have been >than 350ppm for >100 years even if 350ppm is achieved, therefore 60% of the warming by 2100, the 1.8C (luckiest result) to 3C(worst case scenario) is kind of inevitable.

    Further stopping all carbon emission today and 350ppm isn’t achieved until 2200 even if all CO2 emissions stopped in 2010, if permafrost releases are counted, and that is not mentioning, forest fires, peat fires, and the reduced biosphere fertilizer affect if synthetic nitrogen fertilisers use is reduced.

    Even further clean the air of sulphur dioxide emissions and the true CO2 levels at present called the CO2e is ~470ppm.

    Can we afford to make anything more by 2018 considering associated carbon emissions?

    How much carbon emissions and biodiversity losses are incurred by none native rubber plantations (mainly for tyres) in China say?

    Nor do they include the carbon emissions from large scale hydro electric dams as these are deemed carbon negative, so a double whammy.

    A couple of interesting articles on the overall effective emissions from renewables and the author's don't seem to be fossil fuel advocates.

    Richard York1 Do alternative energy sources displace fossil fuels?

    Nature Climate Change Volume: 2, Pages: 441–443, 2012

    “Non-hydro renewable sources have a positive coefficient, indicating that renewables tend to simply be added to the energy mix without displacing fossil fuels.”

    “Hydropower destroys river ecosystems and threatens the survival of anadromous fish and other aquatic species11.

    Solar voltaic power and wind power, although representing less serious environmental threats than nuclear power and hydropower, require large amounts of material, some of it toxic and energy-intensive to produce, as well as large areas of land to produce substantial amounts of energy12.

    In short, all energy sources have environmental costs.”

    “A general implication of these findings is that polices aimed at addressing global climate change should not focus principally on developing technological fixes, but should also take into account human behaviour in the context of political, economic and social systems.”

    Andrew K. Jorgenson1 Energy: Analysing fossil-fuel displacement

    Journal name: Nature Climate Change Volume: 2, Pages: 398–399 Year published: (2012)

    “Besides contradicting the proportional displacement assumption, York's research adds to the growing body of environmental social science that highlights how societies cannot only rely on technological solutions to reduce fossil-fuel use and thus anthropogenic carbon dioxide emissions6, 7, 8. To effectively reduce emissions, societies need to focus on reducing the consumption of energy at both the individual/household level9 and the system level, with strategies geared towards broader changes in the economic, political and cultural spheres10. More broadly, York highlights the importance of integrating research on the human dimensions of climate change — such as the role of individuals and collective human behaviour, the characteristics of social institutions and the complex interrelationships between the world's nations — with research on technological solutions to tackle greenhouse-gas emissions”

    Can humanity get off fossil fuels?

    Realistically considering the current situation is that actualy possible?

    And as powering down is the only to actually prevent fossil fuels emissions, can this down and miantian well being and happiness?

    Can we power down beyond efficiency gains (lots mahcines are very efficient already, people have working on this years, and replacing old inefficinet ones is of course adding to the carbon debt) or it that too much?

    Wouldn't war have to cease to stop carbon emissions?

    Moderator Response:

    [JH] Excessive white space eliminated.

  36. 2015 SkS Weekly Digest #27

    Moderator [PS} @38.

    While the the nub of the question is quite specific, I am not at all sure where it will lead. This interchange transferred here (being off-topic elsewhere) as it appeared to require an open thread to allow for all the ramblings. If it does resolve into a single point of discussion, that would be the time to consider transferring to an appropriate thread.

     

    Michael Fitzgerald @38.

    You say "After 239 steps, the resulting temperature must be around 288K at a sensitivity of 0.8C per W/m^2 or else the prediction fails." This is untrue. Firstly, a lot of the workings of climate are dependent on the existence of life which wouldn't survive the initial drop to 0 K and its absence would have a significant impact on the result (although not a massive one). For instance, there would not be an oxygen-rich atmosphere without life and the methane cycle is driven by life. Secondly, the state the planet ends up in could be a snowball earth. If this step-forcing you envisage results in a snowball shiny enough to keep CO2 as well as H2O as part of geology and not part of atmosphere, there will be no warm state to flip into. And further, that warm state could be a warm ice-free planet, not the 'small' ice version we have today. So what you envision by your 239 steps is more 'thought experiment' than the physics of an alternate world that you appear to imagine.

    The thesis you present (if I read you right) is that the accepted estimate of ECS=1.5 to 4.5ºC would look silly and utterly incongruous if even a rough graph of ECS were drawn out for a planet Earth subject to differing levels of climatic warming from 0 Wm-2 up to the present-day effective-solar-heating of 239 Wm-2. Surely, you say, the physical guts of this is the Stefan-Boltzmann relationship as per the zero-GHG planet, and that is an inverse-quartic relationship. The stated 150 Wm-2 of the GHGs might provide the planet with +33ºC of heating (and yes, something has to be responsible for that +33ºC), but (as you put it @28) for a planet at 15ºC a CO2 forcing of 1 Wm-2 would require an extra 3.3 Wm-2 of feedback to achieve the accepted central ECS=3ºC which is nothing near the ratio 150Wm-2/239Wm-2 = 0.6. This extra 3.3 Wm-2 of feedback therefore has to be a fantasy and AGW with it. (Or is that "CAGW with it"?) Doesn't it?

    Of course the Stefan-Boltzmann relationship applies to the planet at an effective temperature of -18ºC and the requirement is 2 Wm-2 fo feedback for an ECS=3ºC. The 150 Wm-2 of the GHG is not all feedback. And not all the feedback is GHG. The various GHG contributions are not additive but ignoring that, about half of it is a combination of water vapour (positive feedback) and lapse rate (negative feedback). Clouds produce about a quarter. CO2 provides about 20% and that isn't a feedback, but extra to the GHG feedbacks are the significant albedo feedbacks.

    Now, as water vapour seriously kicks in at -20ºC, ice melts at 0ºC and vegetation above 0ºC, the feedbacks don't apply at cold temperatures. So does that amend this thought experiment? I think it would.

    Moderator Response:

    [PS] my concern was that whereever a discussion leads, it is better to take steps one at a time rather than leaping all over the place. Michael clearly thinks there is at least a possibility of low sensitivity which is why I would prefer discussion moved there. He also clearly needs to understand direct feedback before considering the more complex feedbacks of albedo, clouds, water/CH4 etc.

  37. 2015 SkS Weekly Digest #27

    Michael Fitzgerald @38, you are discussing this topic here because all topics are on topic on the weekly digest posts.  Therefore it is hardly possible that Philippe Chantreau's post is off topic.  It may be non-responsive, but that it a different matter entirely (and I am far from convinced that it is).  There may also be a more appropriate thread for his comments, in which case courtesy (and the comments policy) dictate that he should use it apart for brief responses, but I am not aware of that more appropriate thread and neither you nor the moderator have pointed to it.

    With regard to the "next, inevitable ice age", I do not know whether or not you are referring to recent reports on Zharkova's conference paper (ably discussed by Sou at Hot Whopper); or to the next glacial (shown to be unlikely with more than 220 ppmv of CO2 in the atmosphere at any time in the next 50 thousand years by Berger and Loutre, 2002; and ably discussed by Sou again).  If you would like to clarrify, please at the same time indicate (and post on) the appropriate thread, and attempt a rebutal of the relevant points raised by Sou and/or Berger and Loutre.  I will only note that there does indeed appear to be a next, inevitable glacial some 50 thousand years from now; and it would be a great shame if the fossil fuel reserves that it could usefully be used to mitigate that eventuality are used up in the coming century when they harm the human condition rather than in 50 thousand years when they could concievably help.

  38. MIchael Fitzgerald at 16:45 PM on 14 July 2015
    2015 SkS Weekly Digest #27

    PhilippeChantrea,

    Your comment is both political (bad regulations vs. bad investment bankers) and OT, but with regard to the precautionary principle, understanding is always better then precaution arising from the unknown.  A better understanding prevents costs arising from unnecessary precaution and improving understanding is a key feature of the scientific method.  Wouldn't it be a good thing for the world if a better understanding of the climate led to a sensitivity low enough that we didn't have to worry about climate change, except for natural variability like the next, inevitble, ice age?

    Moderator Response:

    [PS] I am inclined to agree that Michael has asked very specific questions so it is preferrable to keep on topic. If someone wants to tackle his "inevitable" ice age, then please do so in appropriate place and post a link here to your comment.

  39. PhilippeChantreau at 15:58 PM on 14 July 2015
    2015 SkS Weekly Digest #27

    Really, this is framing the issue all wrong.

    Back in 2007 nobody was seriously questioning whether it was worth the risk to steer the financial and housing market the way the industry was. It wasn't even questioned, except by those who knew better, like Benoit Mandelbrot. The risks existed, and materialized into a trillion dollars (give or take, who cares at this point) of loss to the World economy. In the thick of it, there was no long lines to get soup in street kitchen or scores of homeless people like in 1929. The World has mostly recovered (except for Greece) and it hasn't been 10 years yet. This demonstrated that the US, and World economies could absorb this enormous, catastrophic loss without massive chaos. If it could be done for the sake of Wall-Street clowns gambling with others' money, surely it should be done for the sake of minimizing the immense risk posed by climate change.

    Perhaps it will turn out that the science was all wrong; the likelihood of that is a lot less than that of people defaulting on their mortgage. But even if it does turn out to be wrong, it would still be a more defensible expense on the ground of principle than the loss occasioned by the pathetic incompetence of the entire financial industry at the beginning of the century. So why exactly are we quibbling in such excruciating detail about this? Why are our values so messed up? Why are enormous costs acceptable (since very few have gone to jail over the 2008 fiasco) when occasioned by certain unethical behaviors, but unacceptable when motivated by a principle of precaution rooted in science? This skewed cost/benefit analysis does not make any sense.

  40. 2015 SkS Weekly News Roundup: End of the Series

    Thank you for all the work of putting together this listing each week, its been a valuable resource.  However, we all have to prioritize, its life.  We do it and move on.  Along with your links above I would also like to share that once a week Mary Ellen Harte (biologist) puts together a blog on 'Huffington Post' called 'Climate Change this week' that is a long news listing, with links, of events that week.  Your readers may find it a valuable resource.  Also Peter Sinclairs 'Climate Crocks' series should be sampled every few days because its full of useful information.  Thanks again!

    Moderator Response:

    [JH] You're welcome and thank you for adding two other resources for our readers to use. As I stated in a prior comment, we are in the process of finding a suitable replacement for the Weekly News Roundup. Stay tuned for further developments.

  41. MIchael Fitzgerald at 14:16 PM on 14 July 2015
    2015 SkS Weekly Digest #27

    MA ROdger,
    My interpretation of what divides the two sides is not if AGW is valid, but whether the effect is large enough to justify expensive remediation, small enough to be nothing but a benefit to agriculture, or somewhere in between which brings us back to my original question asking what is the sensitivity as a function of temperature so I can perform a definitive test.

    The test starts in equilibrium at absolute zero and increases total forcing in 1 W/m^2 steps, allowing the system to stabilize after each step. The resulting change in temperature is the sensitivity to 1 W/m^2 of forcing at the current temperature. From the quantification of sensitivity as a function of temperature, calculate the expected sensitivity at the current temperature and increment the current temperature by that amount. After 239 steps, the resulting temperature must be around 288K at a sensitivity of 0.8C per W/m^2 or else the prediction fails.

    We've already established that for a zero feedback/unit gain climate, the sensitivity as a function of temperature is the slope of the Stefan-Boltzmann Law, which at 255K is about 0.3C per W/m^2 and at 288K is about 0.2C per W/m^2. Applying this test to any predicted value of temperature consequential to arbitrary input power unconditionally supports the ideal sensitivity function and serves as the existence proof that quantifying this relationship is not impossible. Starting from this tested quantification for a zero feedback, ideal black body, how does decreasing emissivity (effectively a gray body) and/or increasing the closed loop gain (net effect from feedback and open loop gain) quantifiably modify the underlying physics to support the predicted sensitivity at the required final temperature?

    What I say is right or wrong about climatology is irrelevant, only the results from testing its predictions will answer your question about what, if anything, climatology has gotten right or wrong.

    Michael

    Moderator Response:

    [PS] Just a note to participants, that list of talks at latest Ringberg workshop on climate sensitivity can be found here.

  42. MIchael Fitzgerald at 14:14 PM on 14 July 2015
    2015 SkS Weekly Digest #27

    I'll remove the response to MA's comment from the preamble, as his comment about evidence of warming was OT anyway.

    I also think that this is the more relevant thread, as I'm not claiming any specific sensitivity, high or low, and am just characterizing a test of the sensitivity.

    Also, the sensitivity as a function of temperature I'm concerned with is strictly the ECS.

  43. MIchael Fitzgerald at 12:08 PM on 14 July 2015
    2015 SkS Weekly Digest #27

    Moderator.,

    My last post seemed to have dissappeared.  I can repost it if necessary.

    Michael

    Moderator Response:

    [PS] It appears it was deleted for sloganeering (not me). Try again without the preamble. I would also suggest that since you are proposing sensitivity might be low, that an appropriate place to post would "Climate sensitivity is low". (be sure to read the article). To answer the question as to whether climate might be sensitive enough to be damaging, then you need to look at ECS not just the instantaneous change.

  44. PhilippeChantreau at 02:46 AM on 14 July 2015
    Climate denial linked to conspiratorial thinking in new study

    He would tell you he's part of "a lot of other scientists." Without, of course, getting anywhere near exactly how many is "a lot" and why that des not prevent every major scientific organization in the world to acknowledge AGW and its dangers. It doesn't really matter, since none of this wouldhave any bearing on the validity of his argument, if there was some clearly defined argument there whose validity could be assessed. Oh well...

  45. A Hard Deadline: We Must Stop Building New Carbon Infrastructure by 2018

    Unfortunately, the exact opposite is happening in the real world, mostly in developing countries. Please see this Vox article about coal infrastucture in the works. Very worrysome!

    http://www.vox.com/2015/7/9/8922901/coal-renaissance-numbers

    Moderator Response:

    [PS] Fixed link. Please use the link button in the editor in future.

  46. Climate denial linked to conspiratorial thinking in new study

    Up thread ryland identified himself as "a scientist with a PhD from the University of Western Australia who rose to become a Professor at Curtin University in Perth" whose "own field of interest, [is] the study of prostate cancer using molecular biological techniques"

    Which means ryland's views and pronouncements on climate science are no more valid than any other layman's. He is not even part of the 3%, full stop.

    Moderator Response:

    [PS] It would be preferable to stick to any scientific points that Ryland has raised rather than offering opportunities for further trolling.

  47. 2015 SkS Weekly News Roundup: End of the Series

    Bob, Hot Topic pointed out that Valentina Zharkova in an interview revealed she is a climate change denier.  See the transcript near the bottom of Sou's post at HotWhopper.  Good explanation of the reality is at And Then There's Physics, especially in the comments. See also Barton Paul Levinson's comments in the comment stream on the Rabbett Run post (but ignore that original post, because as its author says in the comments, it turns out that Zharkova's mention of "activity" means sunspots, not TSI).

  48. 2015 SkS Weekly News Roundup: End of the Series

    I fully understand the need to manage one's time but I probably won't be following via Facebook because it is so 'needy' of my attention. It is a Facebook issue that drives me nuts. Still, I appreciate the other three links.

    Like mushrooms after a rain, another denialist-lite paper came up on July 9 by Valentina Zharkova on Sun spots. An unfortunate choice of words has been picked up by the usual suspect news sites to claim we're headed towards a 'mini-Ice age.' Sad because the paper probably has merit but poor word-smithing means the misleaders will ride it for all it is worth. <SIGH>

    GOOD LUCK!

    Bob Wilson

  49. Water vapor is the most powerful greenhouse gas

    arationofreason, SkepticalScience's comment threads are for scientific discussion, not repetitions of what "seems logical" to you personally regardless of the science.  You started this discussion (rudely and vaguely), apparently without reading the original post of this thread, or at least without addressing any of its points. Several people then gave you more information, which you should have read and responded to, disagreeing if you desired.  Instead you ignored all that information and merely re-asserted your personal belief.  If you continue that behavior your comments will be deleted. Instead you need to respond specifically to the information you have been given.

  50. arationofreason at 22:04 PM on 13 July 2015
    Water vapor is the most powerful greenhouse gas

    Moderator, My apology and thank you for your forebarance.

    I fully appreciate all of the technical analysis that I have read over the years which shows the incredible complexity of the problem even without the confusion which often arises for people who are not accustomed to working with feedback let alone positive feedback.  Yes all of these effects undoubtedly take place at different times and places throughout the atmosphere.  I merely wanted to make the point that many are local temporarly and spatially.  We may never have the measurements and computing power to untangle the physics with enough accuracy to settle the question and that we should look to nature for the solution. 

    The 10u window (negative FB ) aside.  The only tool left to balance the radiation by NET radiation to space is water vapor.  It has done a pretty good job (till now apparently).  The only simple point that I was trying to make is that in spite of (local) positive FB effects of increased water vapor, it is the only cooling mechanism there is.  As such its NET effect is cooling in response to increased forcing. How else can it keep up with variation in forcing and balance the earths radiation over the eons. It seems logical to me that increased water vapor will add cooling and is thus a net negative climate feedback in spite of all the complexities which are well noted and computed with our understanding of atmospheric physics.

    Moderator Response:

    [PS] This amounts to Argument from Personal Incredulity. Without supporting evidence, this is little better than sloganeering. "It seems logical to me that increased water vapor will add cooling" is an assertion that seems to me to reflect a poor understanding of the physics and should be supported by either data or references if you wish to persuade others of the value of your position.

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