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Comments 10501 to 10550:

10501. barry17781 at 04:35 AM on 16 June 2019
       Is Nuclear Energy the Answer?
       

       Jut thought that I would include some real references, 

       Here we have the plans for a 2 reactor power station and the area can be scales from the map, or by comparisom with the British OS maps (sheet 114) 

       https://www.ordnancesurvey.co.uk/ about 4 km^2 now Abbotts figure was 20 km^2  per reactor. This real case is at a tenth of that.

       If you notice the village Cemaes goes right up to the boundrary

       LINK

       LINK

       Moderator Response:

       [DB] Links breaking page formatting shortened and activated.

10502. RedBaron at 03:59 AM on 16 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       @swampfox,

       "Allen Savory "holistic" paradigm is a little wet on theory."

       Actually no. Just the opposite. There is some theory , but in general it is mostly "hands on" in the field real world experience and results made available to others in a way they can replicate without needing a PhD in theory.

       I have tried to explain HM to people and why your objections and questions simply don't apply. I even wrote a wiki page to document my research on it. However, many of the key elements keep getting removed by other editors including for a long time a concerted attack by dogmatic elements of society, so I keep needing to repeat it over and over. However, just so you can try to get it:

       There is a decision making framework that premptively solves all that before you do anything else, and constant monitoring to adapt to changing conditions so problems are actually solved before they even happen. Here is a copy of an important section removed from what I wrote on wikipedia about Holistic management:

       The holistic management decision-making framework uses six key steps to guide the management of resources:[1]

       1. Define in its entirety what you are managing. No area should be treated as a single-product system. By defining the whole, people are better able to manage. This includes identifying the available resources, including money, that the manager has at his disposal.
       2. Define what you want now and for the future. Set the objectives, goals and actions needed to produce the quality of life sought, and what the life-nurturing environment must be like to sustain that quality of life far into the future.
       3. Watch for the earliest indicators of ecosystem health. Identify the ecosystem services that have deep impacts for people in both urban and rural environments, and find a way to easily monitor them. One of the best examples of an early indicator of a poorly functioning environment is patches of bare ground. An indicator of a better functioning environment is newly sprouting diversity of plants and a return or increase of wildlife.
       4. Don't limit the management tools you use. The eight tools for managing natural resources are money/labor, human creativity, grazing, animal impact, fire, rest, living organisms and science/technology. To be successful you need to use all these tools to the best of your ability.
       5. Test your decisions with questions that are designed to help ensure all your decisions are socially, environmentally and financially sound for both the short and long term.
       6. Monitor proactively, before your managed system becomes more imbalanced. This way the manager can take adaptive corrective action quickly, before the ecosystem services are lost. Always assume your plan is less than perfect and use a feedback loop that includes monitoring for the earliest signs of failure, adjusting and re-planning as needed. In other words use a "canary in a coal mine" approach.

       That's just the framework of the plan every land manager makes before even starting. Each part of the framework will have details to follow that are case dependant.

       So to apply that decision making framework to your post at 24:

       Where do we get the predators to drive them away from the waterways so that can disperse across the prairie?

       Humans are the ones who do this using what fits the local cultural, social, economic and technological tools available and identified by the plan before even starting. So the Masai tribe in Kenya uses herders and monitoring like this:

       Rangelands rehabilitation and carbon credits in Kenya

       While in the Eastern US a completely different approach is taken:

       Polyface farms parts 1,2 and 3

       Australian outback another entirely different way:

       Tony Lovell - Savory Institute Putting Grasslands to Work Conference

       In fact every plan will be different for each and every farm. In fact I use it and I don't even raise any livestock at all currently! I simulate grazing with mowing and compost/mulches. That's actually the big deal about holistic management. It isn't a grazing system, its a way to develop a management system to accomplish those goals according to each and everyone's individual circumstances. So there is the managed intensive rotational grazing system, but it is used in the framework of holistic management.

       Polyface solves those issues you spoke about mostly with electric fencing and interns eager to learn for labor. The Masai in Kenya are already nomadic herders, so they change their lifestyle not much at all, for them its just training on soil sample protocol and learning a cooperative rotational system. In South America Horses and sheep or cattle are used a lot. There is a rancher in Texas that uses a helecopter and bison. There is no set way. Each management plan is adaptive and applies to local changing conditions and the tools available to the land manager.

       the Great Plains had those vast area where very little surface water exists

       It is true now, but very quickly after those regenerative practices are put into effect, the water returns. A big part of all this is the restoration of the natural hydrological cycle. See my citation @post 17. This is key for AGW mitigation as well, because it reduces the water evaporating and returns it to groundwater. Less water vapor means reduced greenhouse effect.

       I think you should see by now the rest of your questions are already answered. In some cases yes we could use cowboys. There still are professional cowboys here in Oklahoma and Texas. In other cases sheep or goat herders. In other cases electric fencing. In still other cases barbed wire and/or fencing. The tools and manpower for the job are identified right from the beginning when making the adaptive plan. Also the water sources and planned movements of the animals would be planned months or even a year in advance, with easily changed scheduling if needed due to unforeseen events in the future.

10503. barry17781 at 01:44 AM on 16 June 2019
       Is Nuclear Energy the Answer?
       

       Moderator,

       You are staing that unsuported statements will be struck.

       I have not disputed Abbotts numbers, only their interpretation,

       if you wish to stick with those so be it 

       1/ Abbott has used a buffer zone in his calculation and a single occupancy to calculate his area.  All I have pointed out is that nuclear sites nowerdays have multiple occupancy Other peole have used Abbotts density to erroneous conclusions. Indeed M sweet states multiple occupancy is used ' but sticks with Abbotts density figures Ah the reference!  other commentators are excempt

       " no citation needed."  - M Sweet

       Neverthless here is the one that Abbott cites as his source, stating clearly that most of the area taken by abbott is due to a buffer zone and that the area requirement can be reduced to a fraction using multiple occupancy which is the norm.  There is no use citing US because on multiple occupancy as they have only built one facilty (NEF in New Mexico) since the 3 mile island incedent. (

       LINK

       (ref 6 of Abbott)

       https://en.wikipedia.org/wiki/National_Enrichment_Facility

       2/ Abbott quotes materials that are used in nuclear reactors . I have pointed out that a number of these are not essential materials . Abbotts reply to me was that they were examples of materials used in a reactor. 

       M Sweet has helpfully provided a note on this matter in which control rods can be made ith halfnium as a very minor constiuent and completly without halfnium. Your requst to provide a reference for somthing not to used is rather difficlt. It is like I cannot prove the absence of Big Fot nor the Loch Ness monster. What I can state is that Halfnium is used as a neutron absorber, which Boron is the normal civilian material for this use and as MS reference shows civilian control rods contain boron.  As I stated before

       "as for hafnium in civilian reactors I stand by it that it is currently not used to any significant extent"  M Sweet has atated that some halfnium is used but in no way does this assetrion that I an wrong hold water.

       "Apparently Westinghouse did not get the memo. Westinghouse was one of the largest manufactures of nuclear plants in the world and all of their control rods contain Hafnium."   no Michael they can also make them without halfnium so halfniun is not essential control rods are perfectly functional without halnium

       LINK

       "Westinghouse began developing BWR control rods in the mid-1960s. The first control rod, CR 70, was in operation in a BWR plant in 1970. After 45 years, many original rods are still in operation. A vast majority of hafnium-tipped rods (CR 82), the first to be used in the United States in 1983, are still in operation. The CR 82M-1 design was introduced in 1995. The main feature of the CR 82M-1 rod is the change of structural material to 316L stainless steel with high resistance to SCC and a very low-cobalt content. Westinghouse has delivered more than 6,700 BWR control rods worldwide. Out of these, more than 2,300 are the CR 82M-1 design. Westinghouse BWR control rods are licensed in the United

       Mr Sweet you citation does not support your assertion that "Westinghouse was one of the largest manufactures of nuclear plants in the world and all of their control rods contain Hafnium."  only about a third of them.

       Moderator you critcise people for not providing references, what do you do when these references are mis quoted?

       It is only an exmple of Gish Gallop

       Moderator Response:

       [DB] Moderation complaints noted and snipped.

       Links breaking page formatting were shortened and activated.

10504. padmadfan at 21:51 PM on 15 June 2019
       The Methane 'Time Bomb': How big a concern?
       

       It should be noted that the "skeptic" of methane and methane hydrates being a significant contributor to global warming in this video link is Juliana Musheyev. She is not a climate change scientist or researcher and according to this link, she is an "Interfaith Activist" with the Center For Religious Tolerance. While that does not discount her opinion, it should be taken into consideration especially when she has admitted much of her research came from YouTube. https://www.c-r-t.org/events/podcasts/juliana-musheyev/

10505. MA Rodger at 16:56 PM on 15 June 2019
       Water vapor is the most powerful greenhouse gas
       

       Philippe Chantreau "349,

       That is an interesting thought. A rough back-of-fag-packet calculation (using Global Carbon project 2018 figures & H2O/CO2 = 2 for natural gas and 0.8 for oil) puts the count of fossil emissions of these "far more powerful than CO2 could ever hope to be" H2O molecules as 75% of the allegedly 'ever-hopless' CO2 molecules. In weight works out as 11 Gt(H2O) per year.

       Of course, there are about ten times more H2O molecules in the atmosphere than there are CO2 molecules so molecule-for-molecule H2O is not so "powerful". And they get rained out in days so the extra fossil-sourced H2O is irrelevant, except all that extra water has to go somewhere. So the back-of-fag-packet answer is that burning fossil hydrogen is adding water onto the surface at a rate that's enough to raise sea levels by 3mm in a century. But even in this, H2O is weaker than CO2-powered AGW as the extra absolute humidity in the atmosphere  due to today's AGW is enough to reduce sea levels by about 5mm in a century.

10506. swampfoxh at 14:21 PM on 15 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       RedBaron

       Also the cite you provided regarding the research about the Cenozoic "conditions" was interesting and I have no particular challenge to it, but I'm curious as to whether the last ice age ending around 11,700 years ago might have mitigated the power of the evidence turn up in that paper. Surely, the grinding away of the surface by such a massive quantity of ice made major changes in soil characteristics and its general deposition, perhaps to the point that the post melt period of only 11,700 years was still quite significant in presenting to us what we see in the Great Plains today, less, of course, the effects of the 1930s dustbowl damage to the depth of the soil and what we see as the first several inches of the stuff that didn't blow away.

10507. swampfoxh at 13:41 PM on 15 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       RedBaron

       Your post is a lot of stuff to look at. I'm not challenging your evidence except I think the Allen Savory "holistic" paradigm is a little wet on theory. Let us suppose that deploying massive numbers of herbivores, mainly bovines, to munch and defecate the Great Plains so as to "do" whatever it is that seems necessary to obtain the results. Where do we get the predators to drive them away from the waterways so that can disperse across the prairie, and yet at some point leave them alone so that they can re-hydrate, and since the Great Plains had those vast area where very little surface water exists, how many miles do they have to walk to get that water?  Hang with me for minute before we deal with that detail and I will ask one more question. How many cowboys with horses, hollers and lariats will be required to move these bovines, somewhat evenly across thousands of square miles of prairie so these bovine can provide this service to the grass...and once these critters have moved and "fixed" what needs fixing...what then? I think it would be fair to say that it would take millions of bovines to do this line of work and tens of thousands of cowboys to push them around. Seems implausible that millions of bovines, birthing, growing up, aging, dying or being slaughtered and fed to humans would reduce global GGEs, not to mention the problems of deploying cowboys who need to be fed, housed, and perennially made satisfied "riding the range" as a career choice...among other problems...some yet unforeseen.  And, of course, we'd have to kill all the bovine's predators since their presence would really foul up the works.

10508. One Planet Only Forever at 08:10 AM on 15 June 2019
       Planetary health and '12 years' to act
       

       nigelj@1

       "...what difference would it make if I cut my carbon footprint, because I'm just one person, especially when a lot of people aren't cutting theirs?"

       My counter to that is to explain that reality is result of Everybody's actions. Everybody's actions add up into the future reality. Every tiny harm done is Harm Done in the Big Picture.

       We are stuck with the reality already created by the actions people took in the past. The choices Everybody makes now create the future. And resistance to correction because the required correction is larger now and must be achieved more rapidly and would require giving up developed perceptions of prosperity and opportunity is a harmful attempt to escape responsibility.

       It is almost impossible for a person's actions to be Truly Neutral. Actions are either helpful or harmful to different degrees.

       People should choose to improve their awareness and understanding and strive to help develop a sustainable and improvable future for humanity. The alternative is Harmful. There is no compromise space. A person being less helpful than they can be is being harmful.

       That is a harsh reality. But Reality is Harsh.

       And being harmful cannot be excused by some claim of helpfulness by the harmful person. Helping someone across the street does not give a person permission to push someone onto the street. The only evaluation that legitimately balances help vs. harm is when the same person is experiencing the help and the harm and doing it to themselves. And even then, society collectively has a responsibility to try to correct the thinking of a person who would choose to actually harm themselves because of a perceived personal benefit.

       It is grossly harmful and unethical and immoral for a person to choose to 'not be less harmful or not be helpful' and attempt to excuse their choice by claiming that others may also behave that way.

       For a very robust presentation of this reasoning read Derek Parfit's "Reasons and Persons".

10509. nigelj at 07:29 AM on 15 June 2019
       Planetary health and '12 years' to act
       

       All makes sense except I don't think the analogy with the doctor is so great. If we get sick we do something about it, because it effects us directly. Climate change is different because it requires empathy for future generations, and a common complaint is what difference would it make if I cut my carbon footrprint, because Im just one person, especially when a lot of people aren't cutting theirs? What is the counter to those arguments?

10510. Philippe Chantreau at 02:42 AM on 15 June 2019
       Water vapor is the most powerful greenhouse gas
       

       If water vapor is the driver of climate, perhaps we should stop combining fossil hydrogen with atmospheric oxygen and inject more of it in the atmosphere then. Unless one accepts that it is not a forcing and subscribes to the standard model of Earth climate. Oh well, it's not like this has not been extensively studied by people who actually know what they're doing.

10511. michael sweet at 02:10 AM on 15 June 2019
       Is Nuclear Energy the Answer?
       

       DPeppigrass,

       It looks like your post will not be deleted by the moderator even though it has no citations to peer reviewed studies to support your wild claims. You have two posts. I will address the second one first. They are long posts with many factual errors so my response is necessarily long.

       In your second post you start with several links to long youtube videos of nuclear industry propaganda. I do not have time to waste watching them. Please cite peer reviewed written sources so they can be checked.

       You then have a long screed on the topic of radiation safety. I note that I have extensive training and experience using radioactivity while you have claimed no experience or training beyond your reading on the internet. In general, I do not debate radiation safety with nuclear supporters because they do not care about reactor safety or how many people they kill. It is thus a waste of my time to discuss safety.

       However, for other readers I have this reference from the French Nuclear Regulatory Commission (the IRSN) .

       “At the present stage of development, IRSN does not have all the necessary data to determine whether the systems under review [generation IV reactors] are likely to offer a significantly improved level of safety compared with Generation III reactors”.

       The claims you parrot about “safe” generation IV reactors are simply propaganda from the nuclear industry.

       According to the Union of Concerned Scientists, the Nuclear Industry claims their new designs are safer so that they can reduce safety factors to make more money. There is no factual basis for the claim the reactors are really safer. This is generation IV of nuclear reactors because the first 3 generations were not safe as advertised and were too expensive.

       In your first post  you start out calling “citation needed” for Abbotts claim that “nuclear reactors must be placed "away from dense population zones, natural disaster zones, and near to a massive body of coolant water" It takes a lot of brass to call for a peer reviewed paper to provide citations when your post contains none. Let us examine these issues.

       It is illegal to locate nuclear reactors in cities. In light of the safety issues cited above it is unlikely that rule will change in the foreseeable future. Abbott is correct, no citation needed.

       You are suggesting that it is OK to locate nuclear reactors on top of earthquake faults, in flood zones and in locations that are likely to be inundated by sea level rise. I do not think anyone will agree with you. Your claim strongly supports my claim above that nuclear supporters do not care about the safety of the reactors they build. Abbott is correct, no citation needed.

       You claim “ the third one in particular does not really apply to Molten Salt Reactors which can rely on air cooling or on relatively modest amounts of cooling water.”

       Reading your link and your discussion it appears that you have confused the amount of water needed in an emergency to shut down the reactor and the amount of water that is needed every day for normal operation. The nuclear designers claim without evidence that their designs can do an emergency shutdown with little water or air cooling. Your calculations may indicate how much water that is. According to you, for normal operations the reactors must remove approximately 1.1 GWth at all times. That can only be done with massive amounts of water. Air cooling is too expensive and inefficient for normal use. Your claim that massive bodies of water are not needed is false. This error demonstrates that you have no idea how a nuclear plant works. In spite of the fact you do not know how the plants work you lecture us what we should think. Abbott is correct, no citation needed.

       Abbott correctly describes the footprint of a nuclear plant to counter incorrect industry propaganda that nuclear plants only occupy a small area.

       You say “I'd love to hear anyone come up with a theory of how an MSR could produce a hazardous radioactive gas cloud (in all seriousness, e.g. I'm waiting for a chemist to speak up about what would happen if a supersonic jumbo jet mysteriously aims itself directly at the below-grade reactor, and then let's say it had a water-based cooling system that now pours uncontrollably onto the exposed salt.”

       Fortunately, I am a professional chemist. In the scenario you describe the water coming in contact with the extremely hot salt would instantly cause a steam explosion that would destroy the facility. In the explosion a lot of hydrogen gas would be generated from the highly reducing salt solution. This would cause a hydrogen explosion. Massive amounts of fallout would be released into the environment. Since the industry does not want to build an expensive containment building the explosion would be uncontained. This supports my claim of lack of care about safety.

       Abbott describes how many reactors would need to be built to illustrate the size of the problem. Since only a handful of reactors are currently built each year the rate of building would have to increase by a factor of about 100.

       You say “the usual debate over nuclear power is not whether we should build 15,000,000 MW of nuclear capacity, but whether we should build any whatsoever”. Abbott discusses building only 1500 reactors at the end of his paper.

       If less than 1500 reactors were built than almost all power would have to come from wind and solar. In a renewable world the most valuable energy is peak power on windless nights. Baseload is not valuable at all. It would be much more cost effective to build out more renewable or storage.  We would not need to worry about radiation safety, nuclear waste or weapons proliferation.

       You say “Um, you mean heat? Why wouldn't you just call it heat?” No, Abbott means entropy. You obviously did not take college chemistry or physics. Heat and energy are similar. Entropy is complicated but for this discussion it is similar to randomness. As heat increases the drive to increase randomness increases. This causes materials to corrode, crack and fail much faster. The problem is especially bad for MSR’s because the salt is also especially corrosive. Alloys that can withstand the heat and corrosion of MSR”s, for example in the valves that control the salt solution, have not been found. They may not exist. The reactors you favor cannot be built until after the alloys for the valves are discovered. This is another example of something you are lecturing us about that you do not understand at all.

       You say” My God, is that a citation? Great, now I have to go look at it to see if it has merit. I need to go to sleep momentarily.” Abbott provides citations for all his claims. If I were moderator I would warn or ban you for making game of citations. Where did you get your PhD in reactor design that you are qualified to determine if the citation has merit??? Since you have proven that you do not understand how reactors work, how will you determine if the citation has merit?

       If an airplane crashes it does not cause hundreds of thousands of people to be removed from their homes and businesses. In any case, for only two faults the Boeing 300 airliner was grounded until they fix the problem. If that standard was applied to reactors all the reactors in the world would be shut.

       You say “anyone who wants to make nuclear reactors cheaper must necessarily also make them less complex; good Gen IV designs are simpler than Gen III.” For myself, I would prefer that reactors were made safer and not cheaper. If your priority is profits for the nuclear industry that is your choice.

       Nuclear is uneconomic. The total costs for a new wind or solar plant including the mortgage is less than the costs of operation and maintenance without a mortgage of a nuclear plant. Industry claims of greater inherent safety are not supported by data.  You rely entirely on industry propaganda to support your argument.

10512. RedBaron at 00:34 AM on 15 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       @John 22,

       To answer your question about SOC depends on the testing protocol used. Most importantly is a depth of at minimum 40cm. More commonly 100 cm gives a better more acurate figure. In a mature grassland the depths of soil sequestration can be 5 meters or more though. So a lot really does depend on depth of taking samples and the root depth of the species of grasses and forbs in your pasture. (as well as if they are C4 or C3 dominant blends)

       The conversion factor to obtain SOC from SOM is approximately 1.7 - 2 . So your grassland is approximately roughly 2.75% SOC and not even close to saturation even though apparently your gains may have stopped? As a general rule most grassland soils can fairly easily reach 6% SOC. After that they tend to get deeper rather than actually increasing SOC % much. (unless they are muck or peat based soils) 

       It would take a bit more investigation to say exactly why they stopped? If they did? But I suspect there is room for improvement if your goal is to use them as a carbon farming sink.

10513. John Wise at 23:45 PM on 14 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       Red Baron: On my farm I take soil samples and send them for testing. Results are reported for various nutrients and for organic matter(OM). My crop land OM runs around 4%. OM in my permanent pastures is constant at around 5.5%. Is the carbon that is sequestered through the anabolic processes you reference reflected in OM percentages in standard lab soil testing?

10514. michael sweet at 21:48 PM on 14 June 2019
       Is Nuclear Energy the Answer?
       

       Barry,

       Your claim "The paractce is much higher and a single reactor is the exception. Typically 6 reactors are nowerdays placed in a facility for infrastructure savings." is false.  According to this list only a handful of facilities world wide have 6 reactors at a single location.  In the USA the most is 3. 

10515. michael sweet at 21:28 PM on 14 June 2019
       Is Nuclear Energy the Answer?
       

       Barry:

       Your primary objeciton to Abbott  and here 2011 is your claim that hafnium is not used in civilian reactors.

       Apparently Westinghouse did not get the memo.  Westinghouse was one of the largest manufactures of nuclear plants in the world and all of their control rods contain Hafnium.

       This is conclusive proof that your claim hafium is not used in civiian reactors is false.  Since that was your primary complaint about Abbott you have no ground for any complaint.

       That fact that Abbott 2012 is so similar to Abbott 2011 indicates that the editors of the Bulletin of Atomic Scientists invited Abbott's paper because they felt it was important.  Your complaints about Abbott are not supported.

       Reviewing your previous posts I see that you have provided no citations at all to support your claims, not even industry propaganda.  Apparently you  want to throw away the published literature and argue based on what you think instead.   

       Since I have shown that you are not a reliable source of information about reactors that seems to me to be a bad idea.  In addition, it is in contradiction to the comments policy here.

       You must provide links to confirmed data to support your wild cliams.

10516. MA Rodger at 20:17 PM on 14 June 2019
       Climate's changed before
       

       TVC15 @743,

       Hansen's book 'Storms of my Grandchildren' is not a scientific work and I have been critical of it for not being scientifc while making overly-bold statements on Sea Level Rise, statements which others take-&-use as being scientific statements. But with both SLR and this Venus Syndrome issue Hansen has made good by later publishing the science. With respect to the Venus Syndrome issue, he references in the Colombia Uni blog (linked @741) the forth-coming paper Hansen et al (2013) 'Climate sensitivity, sea level and atmospheric carbon dioxide' and in particular Fig 7 (below) which shows that above 16 x 310ppm (5,000ppm) the tropopause disappears (the atmosphere stops getting warmer through the stratosphere) which would see the Earth's water begin to leach out into space.

       

       I wouldn't be sure whether burning all the fossil fuel reserves and then precipitating CO2 emissions from the biosphere etc would manage to achieve 5,000ppm CO2 but it is all rather academic. The damage to humanity, indeed to life on Earth would be unconscionable a long way before 5,000ppm CO2 is reached.

10517. MA Rodger at 20:06 PM on 14 June 2019
       Water vapor is the most powerful greenhouse gas
       

       TVC15 @347,

       The (Fig 10) graph is non-controversial & quite well travelled.

       TVC15 @346,

       Indeed!! Wien's displacement Law is a new one on me. And it is totally irrelevant. Your "very disengenious climate denier" is speaking through a wrong orifice and note he totally fails to quantify the "far more powerful" nature of H2O. He goes not further than effectively say 'See!! Lots of numbers!!!!'

       The three primary absorption bands of CO2 do lie at 2.7, 4.3 & 15 microns. The 2.7 micron band features in the tail end of the solar radiation part of the spectrum while the 4.3 micron one sits between the incoming and outgoing part of the spectrum. Our friend ignores the compound absorption bands at 10 microns which is today quite insignificant but would begin to significantly add AGW above 3,000ppm.

       Different bands can have a more powerful absorption than others. So the 4.3 micron CO2 band is stronger than the 15 micron one, but of course it requires radiation to operate and there is effectively no radiation at 4.3 microns.

       The height of the GHG in the atmosphere is very relevant. If H2O were not "concentrated near the Earth, unlike CO2", its GHG effect would be far srtonger - the "very disengenious climate denier" gets this arse-about-face.

       The "very disengenious climate denier" is however correct in saying that H2O provides a far greater amount of GHG-effect that CO2. Without CO2, if H2O levels were maintained somehow, the GHG-effect would be 80% or so of its present strength. But without the CO2, that 80% cannot be maintained as in a cooler atmosphere the H2O levels are lower, and lower and lower as it cools until effectively the GHG-effect disappears.

       Thus it is plain. With no CO2, there is no GHG-effect on planet Earth. So saying "water vapor is the driver of climate, not CO2" is another arse-about-face assertion from your "very disengenious climate denier."

10518. RedBaron at 19:06 PM on 14 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       @20 Postkey,

       Its not bad. I would have prefered more citations, but they got the systems science down pretty good.

       I just get annoyed when the systems science guys don't "show their work". (to steal a math metaphore) Makes it tough to find and verify the building blocks to the systems they describe. That leaves people like me hunting for them over weeks, months and even years sometimes.

       But ultimately yes, they appear to have the view of the forest rather than the trees based on my research of others who have come to the same overall conclusion. (independantly?)

10519. Postkey at 17:57 PM on 14 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       RedBaron @19.

       Hello,

       Is 'this' relevant to your 'discussion'?

       “July 6, 2018 by Brandon Young
       Fixing Climate Change – Boosting Nature’s Cooling System
       . . . The best solutions for improving agricultural yields also happen to be the best way to solve climate change. They involve understanding the dynamics of the Earth’s soil-water-carbon system, and how it acts as a great sponge, and that this drives nature’s cooling and carbon draw down system at the local level, at the global level, and at all scales in between.”

       www.fixingthesystem.net.au/2018/07/06/boosting-natures-cooling-system/#more-312

10520. TVC15 at 17:08 PM on 14 June 2019
       Water vapor is the most powerful greenhouse gas
       

       Ops sorry for my typos above.

       This is the website the denier took the graph from.

       Solar Radiation and the Earth's Energy Balance.

10521. DPiepgrass at 17:07 PM on 14 June 2019
       Is Nuclear Energy the Answer?
       

       Michael sweet, Abbott 2011 is an opinion piece, not a study, and while Abbott is clearly intelligent, so is climate science denier Richard Lindzen, who has "published more than 200 scientific papers and books".

       Nuclear issues are clearly not Abbott's main academic focus. He has made claims that are obviously unreasonable, and when such claims are not backed by citations, I see no reason to give them as much weight as the information I've seen in technical presentations by, say, Jesse Jenkins, expert in energy systems, or Dr. Brian Sheron, former Director of the Office of Nuclear Regulatory Research, or MSR engineers such as Kirk Sorensen or Ian Scott, or even this discussion of how radioactivity decreases over time in HLW. While fair and reliable sources are hard to find, I've been around the block enough times to know roughly what's what.

       Anyway, I'll certainly share what I've been able to find from the scientific literature on nuclear issues. Chiefly:

       On Radiation Risk

       The main disease caused by radiation is non-CLL leukemia (in some cases there are other risks, e.g. radioactive iodine can cause thyroid cancer.) Here is a "meta-analysis of leukemia risk from protracted exposure to low-dose gamma radiation". It concluded, based on 23 other studies, that the excess relative risk (ERR) of non-CLL leukemia from 100 mGy of radiation is roughly 19% (it is unclear to me if 100 mGy is different from 100 mSv). Based on a typical non-CLL leukemia rate of 10 cases per 100,000 people per year, ERR=0.19 would increase this by roughly 1.9 cases per year (1 in 53,000 people). The risk varies as a function of time since exposure, but this particular study seemed to completely ignore the issue. If one assumes ERR=0.19 every year for 25 years after exposure, the chance of cancer from exposure to 100 mGy would be about 0.05%. "25 years" is a guess on my part, so if you can find any study that quantifies the risk more clearly as a "1-in-X chance" or as a loss of DALYs, I'd love to see it! For reference, the natural environment gives an average radiation dose around 2.4 mSv per year (Hendry et al 2009 citing UNSCEAR), though I've heard urban environments tend to block some of this. The Canadian NSC limit for radiation workers is 100 mSv over 5 years.

       Waddington et al 2017 concluded that "relocation was unjustified for the 160,000 people relocated after Fukushima," since the radiation dose most residents would have received (after returning from a brief evacuation period) was quite small and the loss of life expectancy was 3 months. The paper notes that

       No radiation deaths occurred during or following the accident, however there were a number of deaths directly attributed to the relocation and subsequent relocation of the Fukushima population. Hasegawa et al. (2015) summarise that “After the accident, mortality among relocated elderly people needing nursing care increased by about three times in the first 3 months after relocation and remained about 1·5 times higher than before the accident.”

       It also says "Relocation was unjustified for 75% of the 335,000 people relocated after Chernobyl."

       It is considered unlikely that cases of thyroid cancer in children have increased around Fukushima due to radiation (Suzuki 2016) as most I-131 disappears within weeks of an accident.

       See also the EPA's Q&A for Radiological and Nuclear Emergencies.

       Various sources mention that uncertainties remain regarding the risk of low doses of radiation. UNSCLEAR recommends, for example, that

       • Increases in the incidence of health effects cannot be attributed reliably to chronic exposure to radiation at levels that are typical of the global average background levels of radiation.
       • The Scientific Committee does not recommend multiplying very low doses by large numbers of individuals to estimate numbers of radiation-induced health effects within a population exposed to incremental doses at levels equivalent to or lower than natural background levels.
       • Increases in the incidence of hereditary effects among the human population cannot be attributed to radiation exposure.

       I would submit that the reason for this uncertainty, despite much study, is that the effects are just too small to measure precisely.

10522. TVC15 at 17:05 PM on 14 June 2019
       Water vapor is the most powerful greenhouse gas
       

       Hi,

       I'm dealing with a very disengenious climate denier who tries to fool everyone that he's a self made scientist. *rolled eyes!

       What denier misinformation are they playing when they post things liek this?  I think they don't fully understand the graph they posted.

       CO2 absorbs at 2.7 microns, 4.3 microns and 15 microns.

       Since Earth does not emit Black Body Radiation at 2.7 microns, we only have to look at 4.3 microns and 15 microns, and we'll apply Wien's Law to both.

       Wien's Law T (Temperature) = b / wavelength in micrometers, where "b" is a constant equal to 2,900 um-K.

       T = 2,900 um-K / 15 um = 193°K = -112°F

       T = 2,900 um-K / 4.3 um = 673.9°K = 753°F

       What we can infer from science is that 4.3 microns has far greater energy than 15 microns, however the amount of Black Body Radiation Earth emits at 4.3 microns is minuscule, as this link proves:

       https://eesc.columbia.edu/courses/ee...absorption.gif

       Water vapor is far more significant.

       Water vapor is the primary absorber of incoming radiation and the largest and most significant reflector of out-going radiation.

       Water vapor typically averages 13 TRILLION tons and by weight is far greater than CO2: 0.33% H2O vs 0.04% CO2.

       In terms of relative humidity, Earth is about 75% at ground level, decreasing to 45% at about 5,000 meters. That means water vapor is concentrated near the Earth, unlike CO2.

       Water vapor absorbs at 5.9, 6.5, 6.9, 7.2, 7.6, 8.2 and 9.6 microns.

       Wien's Law:

       T = 2,900 um-K / 5.9 um = 491°K = 424°F
       T = 2,900 um-K / 6.5 um = 446°K = 343°F
       T = 2,900 um-K / 6.9 um = 420°K = 296°F
       T = 2,900 um-K / 7.2 um = 402°K = 263°F
       T = 2,900 um-K / 7.6 um = 381°K = 226°F
       T = 2,900 um-K / 8.2 um = 353°K = 175°F
       T = 2,900 um-K / 9.6 um = 302°K = 83°F

       As you can see from the graph and from Wien's Law, water vapor is far more powerful than CO2 could ever hope to be and generates far more energy than CO2 ever will.

       Water vapor is the driver of climate, not CO2.

        

       What the heck does Wien's Law have to do with it?

10523. TVC15 at 14:51 PM on 14 June 2019
       Climate's changed before
       

       @ 737 MA Rodger

       Dear MA Rodger,

       I deeply appreciate all your knowledgeable responses to my posts with respect to the deniers I deal with! I have learned so much from you!
       With respect to that denier who loves to misrepresent Jim Hansen he also loves to quote mine him and this is exactly what he posts about Jim.  

       I don't understand the mindset of folks who behave in this disingenuous manner.

       James Hansen is the Grand Imperial Kleagle Wizard of Global Warming and he had this to say:

       In his book Storms of my Grandchildren, noted climate scientist James Hansen issued the following warning: "[i]f we burn all reserves of oil, gas, and coal, there is a substantial chance we will initiate the runaway greenhouse. If we also burn the tar sands and tar shale, I believe the Venus syndrome is a dead certainty."

10524. RedBaron at 11:19 AM on 14 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       John @18,

       Yes I am familiar with this argument. It has three major flaws and many more minor flaws. 

       1.  While it may (or may not) be possible to locally saturate with carbon a pasture or even a region, there is no where near enough CO2 in the atmosphere to saturate the soil sink worldwide. And since for any AGW mitigation strategy to be effective we need world wide cooperation, this is really just a merchants of doubt type argument and can be safely dismissed as irrelevant.
       2. It also relies on the flawed assumption that the soil mollic epipedon when it does degrade and lose its carbon, that carbon would go back to the atmosphere as CO2 in a similar way as forests ecosystems. Rather instead that carbon when it does eventually leave the soil is much more likely to enter the geological long cycle for carbon. 
       3. That approach completely ignores the activity of methanotrophs on methane in grassland environments as if it did not even exist.

        

       No where better can we find an example of how poorly this is applied to regenerative agriculture/ permaculture than this statement right from the beginning:

       "This is to be achieved via intensification: for example by improving feed crop and animal breeding, optimising feed formulations, and by reducing the amount of land animals use, either by confining them in production units or by intensifying pastures.1

       The extensively reared ruminant – which predominantly feeds on grass – is the most problematic of creatures since its productivity is low in relation to the land and feed it requires, and the volume of gases it emits per unit of meat or milk output is great."

       That shows clearly they have not done their homework at all. They are comparing extensive agriculture with intensive (feedlot) agriculture, and actually doing a poor job of even that. But more importantly they are not even attempting to compare it to regenerative agriculture.

       Clearly intensive agriculture including CAFOs (feedlots) can in many cases produce more meat, milk and fiber than extensive agriculture, but the grazing techniques being considered for AGW mitigation are also intensive. Called MIRG (managed intensive rotational grazing), they actually produce more meat milk and fiber than conventional intensive ag. So right there it shows the entire work is irrelevant to the subject. They haven't even analyzed the right methods! They are not comparing intensive feedlot agriculture to intensive rotational grazing at all.

       I also think they made big systemic mistakes even in their analysis of extensive agriculture. Which for example is a net sink for both NO2 and CH4, yet because they have completely ignored the soil microbiome and its effect on atmospheric gasses, they have actually come to the rather ridiculous conclusion that somehow natural systems are causing anthropogenic global warming? Seriously? So now even breathing and passing gas is considered "emissions"? Clearly that group has a long way to go in understanding ecosystem function of plants, animals and microorganisms in a grassland biome. They are so far removed from reality it is kind of ridiculous and clownish. About the only part they got right is that intensive ag out produces extensive ag .... usually. Even that's not necessarily a given.

       Either way though for anyone making any claims of agriculture's impact on atmospheric greenhouse effect must at minimum include this:

       Soil Microorganisms as Controllers of Atmospheric Trace Gases
       (H2, CO, CH4, OCS, N2O, and NO)

       Keeping in mind of course, that was the state of the science 23 years ago. Their paradigm is so obsolete that it was obsolete decades ago and it is literally laughably behind now that knowlege of AMF ecosystem function has been added since 1996. Not to mention an orders of magnitude increase in knowlege of the soil food web.

       So yes, I know about flawed attempts to discredit attempts to change agriculture to sustainable methods, including flawed attempts to discredit the potential of the soil sink for carbon. However, this is a science based skeptic site and I highly recommend people here avoid going down that rabbit hole. 

10525. barry17781 at 10:27 AM on 14 June 2019
       Is Nuclear Energy the Answer?
       

       Michael,

       Abbott is not a definitive paper, it is an engieering "solution".

       his 20.5 km^2 number as the requirement of a single reactor is false. It is based 70 % of the area being a buffer Zone, It also is based on only one reactor being placed in this site,

       The paractce is much higher and a single reactor is the exception. Typically 6 reactors are nowerdays placed in a facility for infrastructure savings. He also does not take into account hat this buffer Zone is only applied in the USA not in the rest of the world.

       Please could you be more circumspect when quoting Abbott

       Work it out yourself 

       Moderator Response:

       [PS]  We are desparately wanting an definiitive paper. Abbott is best we have unless you can provide something else. You are also making statements without providing sources to back them. Any further posts without supporting publications will be deleted.

       [JH] Argumentative statement struck.

10526. scaddenp at 10:22 AM on 14 June 2019
       Increasing CO2 has little to no effect
       

       I think there is Jesscars is a little confused about what the science actually states. There is a log relationship between concentration of CO2 and the surface irradation. (not temperature). ie, increase in CO2 since pre-industrial has caused average of 4W/m2 increase in surface radiation. To get another 4W/m2 of irradiation, then you have to double concentration again. (ie go to 800ppm). The relationship is always logarithmic, never linear. As to why, well it falls out of the radiative transfer equations but it is anything but straightforward. More recent work on it here.

       There is no simple relationship between increase in CO2 and surface temperature, because of all the feedbacks that cut in on different timescales. eg water vapour response is near instant; albedo is complex time scale because of dynamics of ice melt; GHG feedback (eg methane from tundra, CO2 from ocean) are on millenial scales. The Equilibrium Climate Sensitivity (ECS) tries to estimate this and best guess is 2.8-3C for doubling of CO2 but with wide bounds.

10527. John Wise at 09:39 AM on 14 June 2019
       State of the climate: Heat across Earth’s surface and oceans mark early 2019
       

       RedBaron: Are you familiar with Oxford University's Food Clmate Research Network study "Grazed and Confused"? It asserts that regenerating degraded soils by converting them to pasture will indeed sequester carbon, but that soils cannot do this indefinitely. The study says that once a soil reaches capacity, the amount of carbon it can then sequester is minimal, and is outweighed by the methane emissions of the grazing cattle. https://www.fcrn.org.uk/sites/default/files/project-files/fcrn_gnc_report.pdf

10528. ebelba at 08:06 AM on 14 June 2019
       Increasing CO2 has little to no effect
       

       Jesscars - just a comment about the log relationship. My intuition is as follows: imagine a completely dense wall of CO2 completely blocking all of the parts of the infrared spectrum that CO2 is known to block. That is the maximum theoretical contribution. As you create gaps by halving that wall, you allow infrared to escape. We are coming at it from below, doubling. It has to be something almost asymptotic to that wall. A log has the right shape - as a practical matter its not really a log, because the total amount of CO2 that could be put in the atmosphere from all stored forms is finite. So a log is a good approximation to the asymptotic relationship as we get to higher levels. At very low starting values close to zero, it could easily be linear (or more).

10529. scaddenp at 07:49 AM on 14 June 2019
       It's the ocean
       

       This article is explicitly refuting William Gray assertion. Your points hardly reference that. In the past, CO2 most certainly came from ocean as it warms and it will again in a few 100 years (currently ocean is undersaturated for atmospheric CO2 levels and absorbing CO2). However, the current increase in CO2 is not from oceanic CO2 ( you cant have ocean as source when CO2 content in ocean is increasing), but from our emissions.

10530. Eclectic at 22:05 PM on 13 June 2019
       Water vapor is the most powerful greenhouse gas
       

       3-d Construct @344 , 

       I apologize for my inexpert comments : but I gather that you are in that state of mind (analogous to writer's block) where useful thoughts may be triggered by re-encountering stuff you've already been acquainted with . . . or even by comments which are vapid & klutzy.

       So :-

       *  Quantification.  Exactly how important is H2O in the stratosphere?  In absolute terms or relative terms.  Lower or upper stratosphere.  Re-visit lapse rates and TOA concepts?

       *  Quantification of "supersaturated" water vapor at high altitude.  Important, or too transient?

       *  There are 350 million square Km of ocean surface interacting with a thin rind [a few dozen Km] of planetary atmosphere.  Is the high-altitude human contribution of water vapor genuinely significant?

       *  In comparison, there were subtle but measurable alterations in regional heat flux for the [ocean-free] expanse of the continental USA during the 3-day "shutdown" of jet flights immediately following the 911 terrorist event.   IIRC, the lack of contrails did have the expected effect : cooler nights, warmer days.   But of course the other 98% of the planet surface has more ocean and/or less air traffic.

       *  I gather Hansen has rather "walked back" his earlier comments about the dangers of runaway warming . . . and, as you say, the paleo evidence points to "moderate stability/resiliency" of global surface temperature.

10531. MA Rodger at 21:15 PM on 13 June 2019
       Climate's changed before
       

       jesscars @739,

       The variation of CO2 levels in very ancient times generally resulted from a balance between the amount of carbon being drawn down into the geology by rock-forming and the amount of carbon being ejected by volcanoes. Periods of mountain-building have an impact on that balance, as do periods of extreme volcanism. The results of modelling of very ancient CO2 levels (using GEOCARB III) have been pretty-much supported by the geological evidence.

       The mechanisms that are at work at a more detailed level can be much more complex. Thus the last de-glaciation saw a rise in CO2 levels but that was the product of many different mechanisms, many of which didn't actually work to increase CO2 levels. Thus warming oceans increase CO2 levels but the significant increase in ocean volume as the ice melts into the oceans decreases it. Peat exposed to clmate change releases CO2 while increased bio-activity buries it. (See Ganopolski & Brovkin (2017) for a study of these mechanisms.)

       You also ask specifically about the ice-age cycles. These have been the major feature of global climate for the last 3 million years and until about 1 million years ago they occurred every 40,000 years but now occur every 100,000 years. It is probably best to see ice-ages as being caused by the unstable nature of the full glacial climate. When triggered by the Milankovitch cycles heating the high northern latitudes, an interglacial will result from northern ice sheets melting out. Thus today, if the melt on Greenland were to become enough to drop the summit significantly (a likely event if AGW reached +1.5ºC for a few centuries), the lowered icy-cold top would warm enough to allow more melting and lower it further. Building it back up with new snowfall is a far slower process, so without the return of an ice-age, once ice sheets like the Greenland one begin to go, they go all the way.

       The reason for the change from 40ky to 100ky ice-age timing is not truly understood. The trigger is the Milancovitch cycle, the 40ky from the tilt in axis & the 100ky from a component of the eccentricity variation. One theory is that dust (which increases the sunlight absorbed by ice) was greater in past 40yr ice-ages but now the soils that created that level of dust have been scoured away leaving un-dusty bedrock.

10532. michael sweet at 21:14 PM on 13 June 2019
       Is Nuclear Energy the Answer?
       

       DPiepgrass,

       you summarize the entire pronuclear argument when you say:

       "Granted I'm not a nuclear expert and I have only found numbers like these on the web and in YouTube presentations; if someone can find a scientific paper that looks at nuclear waste and/or other nuclear issues"

       We have a scientific paper that addresses nuclear issues.  It is Abbott 2011 and Abbott 2012.  Abbott 2011 is more readable for me while Abbott 2012 is in the Bulletin of Atomic Scientists.  Your reply of " I would think", " I thought I heard" and "My God, is that a citation? Great, now I have to go look at it" describe everything I have heard from nuclear supporters.

       It is up to you to provide citations to peer reviewed papers to support your claims.  Saying that you think the paper is incorrect does not mean anything.

       Referring to wild claims you think you read somewhere on the internet does not compare to a peer reviewed paper written by an Engineer who has over 16,900 citations and an h index of 61.

       Undemonstrated wild claims by nuclear designers are also not an appropriate response to a paper. 

       Perhaps this post should be left as an example of the type of post that is worthless.

       Moderator Response:

       [PS] I have added Abbott 2012 to the article. And yes, we need comments that reference publications.

10533. MA Rodger at 20:02 PM on 13 June 2019
       Climate's changed before
       

       TVC15 @740,

       If it is Jim Hansen, we can track down where he stands on this runaway matter. He said in his book 'Storms of My Grandchildren':-

       “After the ice has gone, would the Earth proceed to the Venus syndrome, a runaway greenhouse effect that would destroy all life on the planet, perhaps permanently? While that is difficult to say based on present information, I’ve come to conclude that if we burn all reserves of oil, gas, and coal, there is a substantial chance we will initiate the runaway greenhouse. If we also burn the tar sands and tar shale, I believe the Venus syndrome is a dead certainty”

       This paragraph (I see from Google Books) is a bit of a throw-away at the end of Chapter 10 following a discussion of a boost to AGW from methane hydrates:-

       "If we burn all the fossil fuels, the ice sheets almost surely will melt entirely, ... Methane hydrates are likely to be more extensive and vulnerable now than they were in the early Cenozoic. It is difficult to imagine how the methane hydrates could survive, once the ocean has ahd time to warm. In that event a PTEM-like warming could be added on top of the fossil fuel warming."

       And later, in a Columbia Uni blog page, Hansen explains that he is talking of two things - ☻ The Venus Syndrome runaway (as per the top quote) and ☻ A "mini-runaway" or hyperthermal (as per the lower quote).
       The mini-runaway he decribes as occuring on a millennial scale and which, if we were foolish enough to initiate such an event, could be countered by sequestrating the GHG releases, although there would be a lot to sequester.
       The Venus Syndrome runaway he describes as possibly following on from an un-countered mini-runaway but he ends saying that "Venus-like conditions in the sense of 90 bar surface pressure and surface temperature of several hundred degrees are only plausible on billion-year time scales."
       
       
       So this leads to an answer to the question posed by your denialist trolls - Why would 1,200ppm CO2 (Hansen talks of 1,000ppm to 2,000ppm) lead to the Venus Syndrome when in the past it did not?
       Hansen is saying that the 'early Cenozoic' (so before 20 million yr bp) had less methane hydrate which could potentially boost temperatures enough to overwhelm the tropopause and thus allow the leakage of the planet's hydrogen into space, a road that would lead to a Venus-style climate. But importantly, this is on top of AGW. Back in the PETM (44my bp) the fossil fuels were safely tucked away within the geology greatly limiting the potential warming.
       As for previous CO2 levels, there was periods in the past when the fossil fuels of today were still yet to be buried out of harms way & thus CO2 was far higher than 1,200ppm. But that was a long time ago when the sun was a lot fainter and the combined forcing (see this SkS page) would thus be lower than potentially from a mini-runaway today.
10534. 3-d construct at 20:00 PM on 13 June 2019
       Water vapor is the most powerful greenhouse gas
       

       I am working on a paper that includes depictions of water vapor's role in our current dire situation, I am experiencing research fatigue and would appreciate constructive comments. In the following excerpt I am attempting to provide clear support to well established facts, but I am encountering source variability. Here goes:

       Water vapor is not considered to be a primary forcer in that it does not initiate global thermal loading, even though its presence in the atmosphere has the largest impact.
       This may not seem to fully hold when some details are considered. When any hydrocarbon is burnt, water vapor is always a component of the exhaust. This is particularly significant in regard to commercial air travel. High altitude jet exhaust includes both water vapor and aerosols which are perfect in the formation of cirrus clouds in the cold upper troposphere along contrails. This can be augmented by additional water vapor present in a supersaturated state, which seems to be now more and more the case. Such clouds impart a major greenhouse effect. Also, methane emitted there has an easy way into the stratosphere wherein it is oxidized into twice as many water molecules as that of CO2 by the abundant hydroxyl radicals there present. Water vapor in stratosphere has a greatly amplified greenhouse effect. Otherwise, not much water vapor makes it there.

       
       From the above one could argue that it is a prime forcer. However, apart from the effects of air travel, tropospheric effects are mostly short lived. Since its mean residency period is not much more than a week being largely controlled by condensation at tropospheric dew point encounters, it cannot become well-mixed or be independently sustainable. If forcers suddenly decline, it cannot persist or continue to promote other feedbacks. Furthermore, if other forcers dip below baseline values subsequent declines in water vapor will produce a proportional negative feedback. It is powerful, but passive, sort of like when control levers on earth moving equipment are moved by the operator and the hydraulic system performs monumental tasks.
       Absolute and relative humidity is highly variable from about 0.01 to 3.0 % typically and to about 4.0 % more exceptionally. However, most of the Earth’s surface is wet and able to produce a pronounced feedback. Also, with elevating condensation threshold zones that are now being seen to develop, the residency time will increase as well the total volume. This could increase its temperature response sensitivity. Certainly, in its reliable and large feedback response to all other longer term forcing factors one could consider it to be a co-forcer.

       At current climate sensitivity estimates, a doubling of CO2 will add one degree Celcius to the global mean temperature in itself and water vapors total feedback effect, accounting for all iterations of self-looping, will add another 1.7 degrees. Fortunately, it is apparent that the initial feedback is well below unity and self-limiting at about 0.6. If this sensitivity value reaches 0.7, which is at the threshold of becoming exponential, conceivably, by itself, it could go runaway. We don’t need this as CO2 is already sprinting. Apart from possible PTE or early Venusian extremities, it seems that this has not previously happened. Furthermore, Earth’s persistent resiliency while maintaining abundant free water, logically, precludes it.

       Moderator Response:

       [JH] Put draft paragraphs in block quote for ease of understanding. Please learn how to do this yourself using the edit tools.

10535. DPiepgrass at 17:24 PM on 13 June 2019
       Is Nuclear Energy the Answer?
       

       Oops, forgot to complete the thought. What makes those "geological repositories" somewhat difficult to build is the need to guarantee they won't leak for something like 10,000 years. So if we can make our HL waste have 300-500 years of radioactivity instead (and we can), it should be a lot cheaper and easier to design a structure to last that long.

       But really the issue seems like a nothingburger; everybody says after 500 years the gamma radiation drops off anyway and the only real hazard is ingestion. How hard is it, really, to find an unpopulated area without groundwater where you can put this stuff? Well, we found a spot, Yucca mountain, right? So put the stuff there already. And this is a naive question, but what about all the empty oil wells - the ground was able to store oil for tens of millions of years, so why can't we store a few tons of waste in some empty well 4 kilometers straight down?

       Everybody argues about high-level waste, but what I'd really like to learn about is intermediate-level waste. This type has greater volume and less radioactivity, but I wonder how much volume exactly and whether there are some types of ILW with a very long period of hazardous radioactivity. And then there's low-level waste - do we really need to bury the stuff that was hit by the X-ray scanner in the hospital, and for how long?

10536. Eclectic at 17:02 PM on 13 June 2019
       Antarctica is gaining ice
       

       Jesscars @487 , if you go to the well-known website WUWT [WhatsUpWithThat] you will find that "skeptics" have all sorts of beliefs about climate-change / global-warming.  And these beliefs are mostly mutually contradictory.

       A few hold beliefs that are quite reasonable ~ at least, for the conditions prior to the industrial-revolution / coal-burning.   Others believe that the [observed & well-documented] ice-melt & sea level rise are simply not happening ~ are a hoax (from a two-century conspiracy by corrupt scientists worldwide . . . a conspiracy without even a single whistle-blower ! )    Others believe that "chemtrails" are being sprayed by the Lizard People (disguised as humans) in order to befuddle and subdue the human race . . . leading to a dictatorship by an Anti-Christ or alternatively a Marxist World Government (run by the Illuminati or similar).

       Half are in complete denial CO2 has any physical effect whatsoever (other than nourishing plants).   Others think the atmospheric CO2 effect is low but negligible, and that we can keep merrily burning coal/oil until it's all used up.   Yet others think (despite the evidence) that all global warming/cooling comes from oceanic overturning cycles of 1400 years' duration (or whatever).   Or believe that the the orbits of Jupiter & Saturn are the underlying cause of climate change . . . or that Galactic Cosmic Rays are the sole responsible factor.   In short : ABCD  (Anything But Carbon Dioxide) .

       But what say you, Jesscars ?

       # Probably simpler for you to answer here , rather than on all the other six threads you have posted in over this afternoon.

       # Also, please don't bother to mention Idso & Corbyn ~ since those two gentlemen have failed at basic arithmetic.

10537. DPiepgrass at 17:00 PM on 13 June 2019
       Is Nuclear Energy the Answer?
       

       The mentioned paper Abbott 2011 says nuclear reactors must be placed "away from dense population zones, natural disaster zones, and near to a massive body of coolant water" - I call "citation needed" on all three of those claims, but the third one in particular does not really apply to Molten Salt Reactors which can rely on air cooling or on relatively modest amounts of cooling water. I would think high-temperature reactors, in general, have modest water requirements.

       To be more specific, I thought I heard from one source that an MSR produces 1% of its output after shutdown, but I know I heard a guy from the NRC say that a LWR produces 7% of its output right after shutdown. Given a 2 GW-th MSR plant (about 900 MW-e) I calculate that in the worst case - at 7% output and with secondary coolant water that mysteriously starts out already being at the boiling point - it would boil 62 kg of water per second / or 223 tons per hour. But the radioactivity would drop pretty quickly so that the rate of water loss should be much lower within a few hours, and I assume cooling towers can be designed to recapture much of the water vapor. For comparison an Olympic swimming pool's capacity is 2,500,000 L or 2500 tons.

       Taking into account not just the footprint area of a nuclear power station itself, but also its exclusion zone, associated enrichment plant, ore processing, and supporting infrastructure, work at Stanford University, Stanford, CA [6] has shown that each nuclear power plant surprisingly requires an extended land footprint area of as much as 20.5 km2

       Its exclusion zone, meaning the evacuation area in case of a disaster? First, it is unreasonably pessimistic to say no one should live near a nuclear reactor - sign me up! Every nuclear disaster in history has been an old Generation II plant (AFAIK). Modern reactors are hella safe, that's half the reason they cost so much more than the old ones. Second, you know how it's unreasonable to count wind farms as taking up a huge land area because in reality there can be farms underneath them? The same applies to nuclear. Third, I'd love to hear anyone come up with a theory of how an MSR could produce a hazardous radioactive gas cloud (in all seriousness, e.g. I'm waiting for a chemist to speak up about what would happen if a supersonic jumbo jet mysteriously aims itself direcly at the below-grade reactor, and then let's say it had a water-based cooling system that now pours uncontrollably onto the exposed salt. Given a molten salt filled with dozens of solutes, do some solutes enter the atmosphere when water is added?)

       Thus, if nuclear stations need replacement every 50 years on average, then in the steady state for 15 TW, one nuclear power station needs to be built and another decommissioned somewhere in the world every day. This is questionable, given that nuclear stations are complex as evidenced by the fact they take on the order of 6–12 years to build, and then around 20–50 years to decommission.

       This is an emotional argument, not a scientific one. It's like saying we have a worldwide epidemic of flesh-eating disease, given that 144 human beings die from it every single day. Almost anything looks like a lot when scaled up to the entire population of planet Earth. Anyway, reactors won't take 6-12 years to build if they are built at scale, and the usual debate over nuclear power is not whether we should build 15,000,000 MW of nuclear capacity, but whether we should build any whatsoever.

       In a nuclear power station, entropy is an unavoidable byproduct of the generation of large amounts of energy

       Um, you mean heat? Why wouldn't you just call it heat?

       Maintaining order while subjected to a high entropy condition is a challenging situation, and this leads to a tradeoff between reliability and efficiency. In the same way that any electrical device or machine heats up and eventually fails, the same is inexorably true for a nuclear station.

       Um, humans have built many machines that work at their designed operating temperature for many years without failing, including reactors.

       Together with embrittlement, the metal structure is also subject to corrosion, oxidation, thermal creep, irradiation creep, phase instability, volumetric swelling, void swelling, grain boundary sliding, intergranular degradation, fracture, cavitation, and radiation-induced segregation (RIS) [7]. It is all these aging factors acting together that unavoidably lead to plant shutdown after 50–60 years of operation.

       What businessman won't build something because the profits will stop 50-60 years after construction?

       The situation in proposed Generation IV reactors is worsened where the vessel is 1) exposed to higher temperatures, 2) higher neutron doses, and 3) a greater corrosive environment [7]. There are thus significant challenges to materials selection...

       My God, is that a citation? Great, now I have to go look at it to see if it has merit. I need to go to sleep momentarily... but I have a feeling that experts in GenIV tech are better qualified to comment than this guy.

       After 60 years of nuclear technology, there is still no universally agreed mode of disposal [9] and nuclear waste still raises heated controversy.

       Among laymen, sure. But what do nuclear experts say?

       ...there is not only the problem of spent fuel, but the problem of where to put all the decommissioned reactors. Burial of waste has uncertainty in terms of unforeseen geological movement and radioactive leakage into groundwater.

       The reactors simply aren't large in relation to their stupendous power output (and those giant domes around the reactors aren't radioactive). For reasons that escape me, waste burial is a big concern for some people, but let's consider the length of time for which high-level waste is more radioactive than the natural uranium ore it originally came from. Right now, that length of time is several thousand years, but by building waste-burning reactors, we can burn the long-lived actinide / transuranic waste, leaving us mostly with waste that is significantly radioactive for 300-500 years. (Granted I'm not a nuclear expert and I have only found numbers like these on the web and in YouTube presentations; if someone can find a scientific paper that looks at nuclear waste and/or other nuclear issues in a less biased way than Abbott, I'm eager to read it.)

       Because a nuclear station is a complex system, and where redundant subsystems are necessarily colocated, redundancy can fail and can even have a negative impact.

       A great exercise with any anti-nuke argument is to check if it still makes sense with airplanes: "Because an airplane is a complex system, where redundant subsystems are necessarily colocated, redundancy can fail and can even have a negative impact."

       Or if someone says "There have been nuclear accidents, so we should stop making reactors." No one says "There have been plane crashes, so we should stop making airplanes."

       Now, anyone who wants to make nuclear reactors cheaper must necessarily also make them less complex; good Gen IV designs are simpler than Gen III. But often redundancy is still needed.

       Maybe I'll read the rest of this when I have more time. But Phil, I share your desire for better expert analyses and so far I've been frustrated at the difficulty of finding reasonable, authoritative analysis of nuclear claims on both sides of the issue, based on evidence and facts.

        

10538. jesscars at 16:21 PM on 13 June 2019
       Antarctica is gaining ice
       

       I believe that there are observable changes in the natural environment (such as ice-caps melting and sea-level changes), and that these are due to climate change. But I think denial of such things is probably bad science, and promoted by bad skeptics. It's not fair to characterise all "skeptics" as all having such beliefs.

       The better scientific case against "climate change" is that it's not human causes, but natural causes, that are responsible for the bulk or entirety of these changes. The climate changes naturally and always has. The true question is -what is causing that change-?

       AGW promoters say CO2. "Skeptics" say natural factors such as Milankovitch cycles, solar radiation cycles, and the circumpolar vortex.

       Sherwood Idso, in a 1998 paper, presents a case, based on results from eight natural experiments, that the influence of CO2 on the temperature, through the greenhouse effect is minimal - he derives an upper limit of 0.4 degrees C for a 300 to 600 ppm doubling of atmospheric CO2. Piers Corbyn also believes that the influence of CO2 on climate is minimal/insignificant.

       Moderator Response:

       [PS] Past climate change was most certainly from natural well-understood causes, but that is irrelevant to today because those natural causes should be cooling us. If you are a genuine skeptic try applying that to Sherwood and Corbyn and see if you can spot the errors and downright misleading information yourself.

10539. TVC15 at 15:35 PM on 13 June 2019
       Climate's changed before
       

       Thank you to everyone who responed!

       737@ MA Rodger the man they are talking about is Jim Hansen.

10540. jesscars at 15:10 PM on 13 June 2019
       It's the ocean
       

       I believe this is a misrepresentation of the "skeptics'" argument being made.
       
       "Skeptics" believe that, before the industrial revolution, the correlation betweeon CO2 and temperature (as shown on records such as the Vostok Ice Coe records) was explained by:

       1) Natural factors causing the earth's temperature to change e.g. Milankovitch cycles, solar radiation cycles, and the circum-polar jet-streams.

       2) The ocean beng warmed or cooled due to these natural factors - which takes several hundred years (thus explaining the 800-year lag found on the Vostok Ice Core samples).

       3) The release or absorption of CO2 from the oceans, as the natural solubility or equilibrium level of CO2 in water changes with temperature. (The linear relationship of CO2 to water temperature (below about 23 degrees C.) also explains the linear historic relationship of temperature to CO2 (found at Vostok): which is about 1 degree C. to 10 ppm atm. CO2.)
       
       So yes, the historic source of CO2 was the oceans - and it was the temperature change, caused by natural factors, that caused this change.

       Moderator Response:

       [PS] Please quit spamming multiple threads.

10541. jesscars at 15:00 PM on 13 June 2019
       Models are unreliable
       

       If the models are making predictions of between 1 and 4.5 degrees change per doubling, then they are unreliable. This is a 450% variance. There can only be one answer to how much, if anything, CO2 is contributing to the climate. Why are the models coming up with such different results? Why are they coming up wth multiple answers to the same question?

       Moderator Response:

       [PS] Please dont spam multiple threads. Best to discuss one thing on a thread that you think is important and when satisfied, move to another. (And how do calculate 450% - what is your denominator). Meanwhile, this post from people who do the modelling might be helpful. While models have flaws, they remain the best tool we have for predicting the future - far better than say chicken entrails or assuming tomorrow will be same as today.

10542. jesscars at 14:54 PM on 13 June 2019
       Climate's changed before
       

       If CO2 caused the temperature to change, (and is resposible for the climate historically) what caused the CO2 to change? Volcanoes? Is there any geological evidence to support this theory?
       
       Why do the ice-ages and deglacial period occur cyclically, approximately every 100,000 years? Is there some geological pattern identified on earth that would explain cyclical volcanic activity and CO22 emission?

       N.B. The ice-ages coincide with one of the Milankovitch cycles - the eccentricity of the earth's orbit, which goes through cycles of approx. 100,000 years. If the earth periodically gets further away from or closer to a hot object, this should have some influence on the earth's temperature, correct? 

       Moderator Response:

       [PS] See here for more on milankovich. In the iceage cycle CO2 is a feedback from an initial albedo-driven driver. Water vapour, albedo and the very slow CO2 feedbacks convert a small change at 65N into a global effect.

10543. scaddenp at 14:52 PM on 13 June 2019
       An exponential increase in CO2 will result in a linear increase in temperature
       

       jesscars - Scientists are suckers for 1st law of thermodynamics. If you increase GHG, then you increase the radiation reaching the surface and you can predict exactly the spectrum change associated with it and measure it directly. If you want to invoke some hitherto unnoticed cause, then you have interesting problem of explaining why increased radiation  doesnt increase temperature in violation of known physics. Secondly, if you seriously expect someone to accept a natural cause, then you need to explain where this extra energy is coming from. Not the sun, we measure its output directly; not the ocean - it is getting warmer too; no Milankovich - the 65N forcing has been negative for a long time.

       Furthermore, CO2 increase in past ages as a result of temperature increase are a very slow feedback from bogs and oceans that wont start happening with current temperature rise for 100s of years (we hope anyway). We can tell that all increase in CO2 concentration is from emissions based on O2 decrease; isotopic composition of the carbon; and straight mass-balance from known burning of fossil fuels. Frankly you are clutching at straws rather than examining the science.

10544. jesscars at 14:47 PM on 13 June 2019
       CO2 lags temperature
       

       The Shakun study only covers the last degclaciation, not the entire 400,000 year period (of Vostok Ice Core records indicating a lag), so does not adequately explain this lag.
       
       Whatsmore, the Shakun study offers a highly complex explanation to arrive at the "conclusion" that there was no lag. Is there empirical evidence to support the points made in their explanation or are these just theoretical e.g. ocean circulation, etc.? Do they arrive at the same conclusion "that there was no lag" for the rest of the 400,000 years?

10545. jesscars at 14:42 PM on 13 June 2019
       An exponential increase in CO2 will result in a linear increase in temperature
       

       It doesn't matter how much atmospheric CO2 has risen since the industrial revolution if CO2 does not cause temperature to change. The climate changes naturally and always has.

10546. jesscars at 14:41 PM on 13 June 2019
       An exponential increase in CO2 will result in a linear increase in temperature
       

       This presumes that CO2 is causing the temperature change - and that it's not just a period of (predominantly or entirely) natural warming coinciding with increased emissions since the industrial revolution.

10547. jesscars at 12:55 PM on 13 June 2019
       Increasing CO2 has little to no effect
       

       Please ignore that last point "2)".

10548. jesscars at 12:51 PM on 13 June 2019
       Increasing CO2 has little to no effect
       

       I have a couple of questions re. the historic vs future predicted relationship between CO2 and temperature:

       If you look at the Vostok Ice Core Records, the relationship between CO2 and temperature is linear, and is approximately 1 degree change per 10 ppm change.[1]

       1) Why is this not the expected predicted relationship of CO2 to temperature? Why does it go from 1 degree per 10 ppm to 1 degree per doubling, the first doubling being 300 ppm (then 600, 1200, etc.)? Why does the sensitivity of the earth's temperature to CO2 change so severely to have only 1/30th the sensitivity? What is the reason for this reduction in sensitivity?

       2) Why does the relationship change from linear to logarithmic? There is a steady and consistent linear relationship of 1 degree for 10 ppm - why should this change to a logarithmic relationship of  degree per doubling i.e. instead of 1 degree per 10 ppm, we now have 1 degree per 300 ppm, then per 600 ppm, then per 1200 ppm, and so on. What is the cause of the change of the nature of this relationship?

       It seems to me that the "skeptics'" explanation - which assumes temperature is causal in the observed temperature-CO2 correlation - does not involve such erratic and unexplained behaviour.

       N.B. The linear 1 degree per 10 ppm can be explained by the linear relationship of CO2 solubility in ocean water (at temperatures below 23 degrees, see link [2]).

       As the temperature changes (measured by the atmospheric temperature), this causes the ocean temperature to change. Within the temperature range seen on the graph in link [2] i.e. below about 23 degrees, you would expect a similar amount of CO2 to be released or absorbed, per unit or degree of change, per volume of water, resulting in a linear atmospheric temp-CO2 relationship.

       The Vostok Ice Core records also show an 800-year lag where temperature changes before CO2 does. This indicates that temperature is causing CO2 to change, not vice-versa. (The Shakun study only attempts to provide an explanation for this for the last deglaciation, not the entire duration of the Vostok samples (400,000 years), so really is inadequate.) This can be explained by the fact that the oceans take so long to heat or cool. So it takes hundreds of years for the warming or cooling to have an effect on the CO2 levels, as this has to happen via the oceans.

       2) The causal mechanism to explain the temperature-CO2 correlation is explained by:  natural causes (e.g. Milankovitch cycles, sun radiation cycles, circumpolar jet-streams, etc.)  to be caused by ocean absorption of CO2, is expected 

       [1] http://joannenova.com.au/global-warming-2/ice-core-graph/

       [2] https://i1.wp.com/www.geological-digressions.com/wp-content/uploads/2016/12/CO2-solubility.jpg

       Moderator Response:

       [PS] Just a quick note that icecore data is indeed used as a way to constrain to climate sensitivity. Try for instance Hansen & Sato 2012 which does it properly. Also see here for Co2 lags question

10549. scaddenp at 07:43 AM on 13 June 2019
       Medieval Warm Period was warmer
       

       RBFOLLETT – first I would say, that if you are not interested in having your opinions shaped by data and instead are flaying around trying to rationalize a predetermined position on global warning, then Skepticalscience is not the site for you. Motivated reasoning is all the rage over at WUWT.

       If you are actually interested in the science, then there are some misconceptions to look at.

       Firstly, climate science works with global mean temperature anomaly. This is an important distinction since a global mean temperature is difficult to define and impossible to measure. The discussion and methodology associated with this is in the seminal Hansen and Lebederf 1987. As to actual error bounds on temperature record, try here where there is reference to how uncertainty bounds are determined and where you can find code to play it yourself.

       
       Secondly, you seem to implying that if, for example, you could only measure a person’s height to nearest centimetre, then you believe that the average person’s height could only be expressed to nearest centimetre? This is not true and perhaps you need to refresh yourself about the Law of Large Numbers.

       
       Finally, you should know that proof is some you do in mathematics; science cannot prove anything. What we do have in massive empirical support from many fields supporting the theory of climate.

       You make a massive number of frankly false assertions and unsurprisely provide no evidence to support them (in contravention of this sites comment policy). I suspect you are getting your information from disinformation sites rather than published science.

10550. michael sweet at 07:18 AM on 13 June 2019
       The Scientific Method
       

       To add to Philippe Chantreau's post, in 1850 when the IR spectrum of carbon dioxide was measured the scientists realized that increasing CO2 would cause atmospheric temperature to rise.

         In 1896 Arrhenius published a paper that calculated how much the temperature would increase.  He predicted that the temperature would increase more in winter than summer, more at night than during the day, more over land than over ocean, and more in the Arctic than the tropics.

       These were all predicted 90 years before they coud be measured.  When you predict things in advance and then they happen it shows that you understand why they happened.  As Philippe said, the null hypothesis does not apply to predictions made in advance.

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