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Comments 88051 to 88100:

88051. villabolo at 16:38 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @72 Albatross: Thank you for noticing my ongoing editing.
88052. villabolo at 16:32 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @65 LukeW: You'll be happy to know that I removed the reference to increased fires as a result of increased vegetation. I have a feeling that it could happen; but it's impossible to predict in the long run how much of the earth's surface is going to be prone to fire versus how much is going to be resistant, or about the same. As far as the issue of tillage, I previously mentioned the superiority of Permaculture. Yet, I emphasized that time constraints due to a most likely "perfect storm" of events-AGW related-is going to bring on social instability. Adaptability is a matter of how fast things happen. Common sense tells us that the faster a negative event occurs, the less able we are in adapting to it. In my opinion, as I previously mentioned, our society is going to get destabilized to the point where it's not going to benefit from anything. That's not to say that a variety of alternative technologies and techniques will not be used; but they will be used by members of a fragmented and disintegrating society. I foresee a good chance of our evolving into a feudal state in a hundred years. The only silver lining I see in all of this is a sizeable drop in the use of fossil fuels due to major economic shrinkage or outright collapse.
88053. Alex C at 16:29 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       I wonder myself, since I am not familiar with this subject much, whether migration of vegetation will be hindered by Hadley Cells. There are latitudinal barriers that deal with precipitation too, not just temperature or land area. Does anyone have any input on the possible implications that such systems would have on the extent of vegetation migration?
88054. Gilles at 16:22 PM on 18 April 2011
       Video on why record-breaking snow doesn't mean global warming has stopped
       so you mean that the falsifiable content of AGW theory is restricted to "the temperature will rise in the XXI century". I would buy it, since I do believe that CO2 is indeed a greenhouse gas and must contribute to some warming, and that generally it seems that even natural variability has ended a cold period in the XIX century and this is likely to last a little bit more. So it's more likely that temperature will increase that they would decrease anyway (even without CO2, I would think the same). Now this is a rather weak assertion, very far from "it will be a catastrophe for mankind and we must stop ASAP all use of FF to avoid it". Do you have any falsifiable test to support the latter assertion ?
88055. Marcus at 16:20 PM on 18 April 2011
       What was it like the last time CO2 levels were this high?
       I know its OT, but am I the only one whose noticed that-the moment Gilles was required to remain On topic-he has had nothing further to add to the conversation?
88056. Dikran Marsupial at 15:53 PM on 18 April 2011
       Christy Crock #3: Internal Variability
       Giles@92 That doesn't say there is unforced drift, just that for some models there may be a unforced drift that may be corrected using the control run. It does not say that this was was actually done. This is seems to me just an example of scientists taking a "belt and braces" approach and check these things to be sure. What you are doing is quote mining, not science. Go find a paper or source that shows this drift is actually a problem. IMHO trying to make something of an experiment having a control is a bit of an odd scientific attitude!
88057. owl905 at 15:48 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       The downside of CO2 increases is understated. Reread the comments, and notice how many of the pro-pollution arguments are questions, insinuations, and vacuous logic attempts. There has been no discernible, global, growth increase in a world that's charged CO2 levels by 40%. In opposition to the US East Coast study referenced by whitsend is the notorious growth-lapse that became part of Briffa's "hide-the-decline" scandal. To increase yields, no one has laid out CO2-delivery pipes similar to the FACE experiments - every fertilizer BUT CO2. Having CO2 airborne counts of 400ppm is a shrug compared to the 800-1600ppm in the damp soil where the roots are feeding. The FACE experiments long ago minimized the value of the increased GHG pollution: http://scienceblog.com/522/climate-surprise-high-co2-levels-can-retard-plant-growth/ Boosts are transitory: http://www.newscientist.com/article/dn11655-climate-myths-higher-cosub2sub-levels-will-boost-plant-growth-and-food-production.html Even when care was taken to measure the isolated effect, the net conclusion was bad - nutritional loss: 2005-Beijing http://www.scidev.net/en/news/rising-carbon-dioxide-could-make-crops-less-nutrit.html 2009-Germany http://www.newscientist.com/article/mg20327223.200-co2-makes-crops-less-nutritious.html ... and a side-order of increased toxicity: http://www.nicholas.duke.edu/thegreengrok/fertilizationeffect And none of that compares to the economic losses as extreme weather pattern changes destroy crops - most recently western Canada, Australia, and Russia. And it doesn't matter if crops would have grown well ... if only someone had planted them there. And that all pales in comparison to the stress placed on the bottom of the ocean's food chain - phytoplankton: http://www.usnews.com/science/articles/2010/01/14/co2-increase-in-our-oceans-may-stifle-phytoplankton Deny, diminish, and distract all you want, but there's going to be a huge cost in altering crops and natural vegetation around the globe - for centuries to come.
88058. Gilles at 15:44 PM on 18 April 2011
       Christy Crock #3: Internal Variability
       DM#90 well for instance, look at this page http://www-pcmdi.llnl.gov/ipcc/standard_output.html and please explain me how you understand the experiment#2 "present-day control experiment" "for most models this experiment is not needed, but for some it is the control for experiments 8-9. There will be no natural forcing and anthropogenic influences will be set at present-day level. The control experiment should be long enough to extend to the furthest point in time reached by the end of the perturbation experiments (which branch from it). Thus the control should allow us to subtract any residual, unforced drift from the perturbation simulations." substract any residual, unforced drift ?
88059. Albatross at 15:44 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       Take note readers, Villabolo is changing his/her post in the face of criticism. Note too that that is something "skeptics" rarely, if ever, do. So for someone her to make the comment that Villabolo has "descended into rampant pro-AGW defensive posture" is simply false. I would also contend that it is an ad hominem and therefore violates the house rules.
88060. Albatross at 15:39 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       Luke @65, May I point out the irony of you lecturing Villabolo on being more thorough when you did not provide a single source from the reputable literature to support your assertions. Not one. A recent pamphlet prepared by the Royal Canadian Geographic Society (based on findings in the scientific literature) has this to say about conditions on the prairies, Canada's bread basket: "In fact given the IPO change - expect a cracker decade for Australian rainfall ahead - more Las Ninas and stronger ones. Boom time for producers?" And what do you base the above statement on? And what about this one: "If as some suggest the Pacific becomes a more El Nino like mean state and the world warms - the thermocline the Canadian/US wheat belt moves north, temperature nearer C3 optima for wheat, higher rainfall and more CO2" And a note of caution, Oz is not the centre of the universe when it comes to providing grains. I do agree with you that this is complex, and that the impacts may not all be bad, at least up to a point. Fortunately, those darn scientists (bless them) have been working on this for a long time, and the over whelming evidence is that a little warming (typically <2 C may benefit crops), but that beyond that things really start to tank. Listen to this (also click on "wheat" and "maize". Note that they are talking about local change sin temperature, not global, and that mean summer temperatures are projected to increase by 3 to 4 C. And if you doubt that droughts have a negligible impact on crops, then think carefully what happened in Russia last year, in 2007 in Europe in 2003, on the Canadian prairies in 2002. And there are many more examples. I have said this before, all the CO2 in the world is not going to help is the soil moisture drops below the permanent wilting point and under heat stress. Also, as others have pointed out, plants may be able to move, but people cannot necessarily, and then one is assuming that there is viable land to move to-- that last point should be obvious to someone living in a place like Australia, well at least it is to adelady. Oh, and what Marcus just said @70.
88061. RW1 at 15:10 PM on 18 April 2011
       Clouds provide negative feedback
       Sphaerica (RE: 25), "They are not "greatly amplifying" small temperature changes. They do have some impact, but there's no reason to exaggerate things with "great" and "small" to try to score points." OK, fair enough. The point is the AGW theory claims the net effect of clouds is to amplify warming rather than attenuate warming. The mechanisms available for altering climate are: * Solar insolation (barely changes) * Orbital forcings (changes predictably on huge time scales) * CO2 (changes on any of 3 time scales, geologic=very slow, natural feedback=medium, anthropogenic=very fast * H2O (changes relatively quickly in direct proportion to temperature, and so it is the primary amplifier in power, but not a controller since it exerts no independent control of its own) * Albedo (can change relatively quickly, or slowly, but almost always as a response to other factors) * Clouds (change almost instantaneously, and positive/negative effects are arguable, but relatively inconsequential compared to the bigger factors)." If the Sun is the source energy and ultimately heat in the system, and if H2O changes so quickly in response to temperature - specifically warming, and water is the primary amplifier but not a controller, what is the controller? If the Sun is the only real heat source, and water concentration (the primary amplifier) is driven by heat from the Sun, the primary controller would need to modulate the amount of the Sun's energy allowed to enter the system. Clouds definitely do this since they make up about 3/4ths of the albedo and are constantly changing spatially and in time - all the time. Is it also a coincidence that clouds are made up of H2O and water vapor concentrations drive cloud formation? It is also another coincidence that water vapor is removed from the atmosphere from precipitation that emanates from clouds? If the net cloud feedback was positive in conjunction with positive water vapor feedback, what would prevent the temperature from rising significantly higher and higher from even just a few days or few weeks of abnormally warm weather? Yet this never happens - abnormally warm weather periods end and normal or colder weather inevitably commences. This is probably because the forces that drive evaporation/water vapor are not as strong as the combined forces of clouds and precipitation. This is fundamentally why net positive cloud feedback is so illogical. "* Land mass dispositions (which greatly affect albedo and the results of orbital forcings, but which only themselves vary on massively long timescales) Which is primary? At the onset and termination of glacial periods, the orbital forcings, but only through an albedo feedback, and in conjunction with a strong CO2 feedback, which in turn operates in conjunction with the strong H2O feedback. Outside of those periods of orbital forcings, under natural conditions, CO2 is the main long term driver, amplified by albedo, cloud and H2O feedbacks. During anthropogenic pollution, CO2 is the only control mechanism that operates on the time scales that we are witnessing, again amplified by all of the usual feedbacks." But clouds operate on even shorter time scales than CO2, and temperature fluctuations occur on much shorter time scales too. Let's not forget that the surface of the Earth is over 2/3rds water. The cycle of water -> water vapor -> clouds -> precipitation -> water is enormous.
88062. Marcus at 15:08 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       The point remains, Luke, that claims of "CO2 being plant-food" are incredibly simplistic & inaccurate, yet the Contrarians want to take a chance with our agricultural future based *entirely* on this simplistic attitude-with what amounts to a grand experiment on the only atmosphere we have.
88063. Marcus at 15:04 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       "You've descended into rampant pro-AGW defensive posture" Sorry Luke, but that's exactly the kind of language I've come to expect from someone who has descended into a "rampant pro-denialist defensive posture". If you want to be taken seriously, try removing some of the invective first.
88064. Chris G at 14:52 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       I think (not that my opinion should count for much) the original and the edited version are both fine. You can't get too nuanced in a basic version of this material without loosing the audience. FWIW, I found the article referenced by my first link. Hansen et al, 2006 Relevant information is in and around Figure 6.
88065. villabolo at 14:43 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @51 Chris G: Not a problem, Chris. I'm just a non scientifically trained enthusiast. I change point #4 in my post to the following below. Tell me what you think. 4. The worse problem by far is that increasing CO2 will increase temperatures throughout the Earth; making deserts and other types of dry land grow. While deserts increase in size, other eco-zones, whether tropical, forest or grassland will try to migrate towards the poles. However, soil conditions will not necessarily favor their growth even if the temperatures are optimum. There will be some other minor changes throughout the post.
88066. Chris G at 14:29 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       villabolo #57, I'm not trying to take anything away from what you said, and I am sure that you in particular understand shifting climate zones. I'm trying to add to what you said for anyone interested in further reading, and also somewhat responding to the mistaken meme that our agricultural systems can adapt and continue to feed us all without substantial cost. Adelady, Yes, that was kind of my point. There is no land on which to develop agriculture south of, say, Victoria. If the climate zones shift 400-500 km southward, agriculture is over in that region.
88067. LukeW at 14:21 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       villabolo You've descended into rampant pro-AGW defensive posture Woodland thickening across savanna biomes - apart from frozen area is about 14% of the world's area - thickening or shrub encroachment is happening across Australia, the southern USA and southern Africa. Less fire is why (with CO2 also assisting C3 trees and shrubs over C4s grasses. That's less fire and more tree/shrub thickening and so less grass means less fire. In terms of the latest floods - what rampant silliness compared to facts - in fact the land surface condition away from water courses in very good. No massive erosion at all. As for low and zero tillage at odds with mechanised agriculture - ye gods man ! - do you ever get out and see what is happening around Australia. Major transformations in last 20 years. Minimum tillage is a first world revolution ! In fact machinery especially designed to cope with minimum tillage. Tell Monsanto there is no market for minimum tillage (they'll ROFL).Away from broad scale cropping sugar cane industry almost now universally trash blankets after a green harvest - not burns - soil surface always well covered. Yes Australian floods may have taken out some production temporarily - but what like they've done for 100s of years with La Nina by cool IPO combination ! Come on AGW influence ?? .... in fact Australia is set for a record cotton harvest. Cotton Australia estimates the crop will top four million bales this year, smashing the previous record. But floods also fill dams and replenish aquifers - and thank heavens ! "Winners and losers" means this - ENSO means rainfall is already not uniformly distributed. If as some suggest the Pacific becomes a more El Nino like mean state and the world warms - the thermocline the Canadian/US wheat belt moves north, temperature nearer C3 optima for wheat, higher rainfall and more CO2 - perhaps the CIA already know something we don't ! :-) (in this scenario eastern Australia gets the drought end of the oscillation). In fact given the IPO change - expect a cracker decade for Australian rainfall ahead - more Las Ninas and stronger ones. Boom time for producers? And of course with increased CO2 we haven't let the conventional breeders and genetic engineers loose yet? I would assume plenty of potential based on track record. My point is this issue is very complex and a universal assumption of worse on food security is not a well thought through response. If you are going to the do the CO2 fertilisation review - need to be much more thorough.
88068. adelady at 14:12 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       "...look at where major agricultural areas are now, there are a fair number which will not be readily migrated poleward." That polewards movement notion is very much a northern hemisphere idea. Look at a map and draw a line around the globe. Start at Capetown, then across to Perth, Adelaide, Hobart, Dunedin and finish up at Montevideo or Buenos Aires. Apart from that sharply narrowing tongue of southernmost South America, there _is_ no poleward land to replace any of those productive areas of South Africa, Australia, New Zealand and Argentina.
88069. Tom Curtis at 14:11 PM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Ken Lambert @81, if your read the OP about Flanner, you will sea that, "A new paper by Flanner et al in Nature Geosciences tries to estimate the so called ‘cryosphere albedo feedback’ since 1979." (My emphasis.) It's right there in the first sentence. Therefore if we want to do a plausibility check on Flanner (which is technically what this exercise is), we need to compare the change in summer incoming energy flux from 1979 to 2008. That is, by a very conservative approximation, 1.35*10^21 Joules. If we extent the comparison period to 2010, the change is 1.51*10^21 Joules, again very conservatively estimated. What is more, even the original post by Sphaerica from which this debate sprung is clearly considering the change in arctic forcing between the 1978-2000 average and the present, ie, effectively 2010. So why you should suddenly be interested in the mean annual change in the change in the ice albedo forcing during the Arctic summer rather than, as we have been discussing, the mean annual change in the ice albedo forcing during the arctic summer is almost entirely mystifying. It does not even make much sense as mere passing curiousity. After all, as revealed by Piomas, the total ice volume has not been recovering each winter. The Ice does not need to melt back from the March of 1979 position each year. Therefore the change of the change is not a predictor of how extensive the ice melt will be each summer. This is a genuine feedback situation, with each summers melt making each successive summer's melt easier, and likely to be more extensive. (Note, likely, not guaranteed - there are other factors here.)
88070. TOP at 13:49 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       1. Plants will need extra water. Where will it come from? Rainwater is not sufficient for current agriculture and aquifers are running dry throughout the Earth. Actually some plants, or should I say trees do better with more CO2. It has been proposed to reforest the Sahara which is possible because of increased CO2. The key attribute certain trees have is that CO2 causes the pores that transpire water to close, reducing water requirements. A side effect of this reforestation is to consume the so called AGG solving another problem.
88071. Bob Lacatena at 13:39 PM on 18 April 2011
       Clouds provide negative feedback
       24, RW1,

       If clouds... are instead acting to greatly amplify relatively small temperature changes...

       They are not "greatly amplifying" small temperature changes. They do have some impact, but there's no reason to exaggerate things with "great" and "small" to try to score points.

       ...what is the primary mechanism controlling the energy balance of the planet?

       I'm not sure why there must be a primary mechanism, and because there are multiple mechanisms, they all interact, they are all difficult to "force," and it becomes a question of semantics in arguing over which is "primary." The mechanisms available for altering climate are:
       • Solar insolation (barely changes)
       • Orbital forcings (changes predictably on huge time scales)
       • CO₂ (changes on any of 3 time scales, geologic=very slow, natural feedback=medium, anthropogenic=very fast
       • H₂O (changes relatively quickly in direct proportion to temperature, and so it is the primary amplifier in power, but not a controller since it exerts no independent control of its own)
       • Albedo (can change relatively quickly, or slowly, but almost always as a response to other factors)
       • Clouds (change almost instantaneously, and positive/negative effects are arguable, but relatively inconsequential compared to the bigger factors).
       • Land mass dispositions (which greatly affect albedo and the results of orbital forcings, but which only themselves vary on massively long timescales)
       Which is primary? At the onset and termination of glacial periods, the orbital forcings, but only through an albedo feedback, and in conjunction with a strong CO₂ feedback, which in turn operates in conjunction with the strong H₂O feedback. Outside of those periods of orbital forcings, under natural conditions, CO₂ is the main long term driver, amplified by albedo, cloud and H₂O feedbacks. During anthropogenic pollution, CO₂ is the only control mechanism that operates on the time scales that we are witnessing, again amplified by all of the usual feedbacks.
88072. Ken Lambert at 13:16 PM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Tom Curtis #78 - #1 "I have then multiplied by the total area.' Yes, but that is the total area lost relative to 1979. You need to look at the total area in 2010, relative to the total area in 2009 to ascertain the ice lost and the *annual* heat gain. And 2009 relative to 2008, 2008 to 2007 and so on...
88073. Marcus at 13:11 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       Another thing which isn't considered by so-called "skeptics" is what impact increased CO2, combined with associated changes in temperature & moisture, will have at the root-soil interphase-especially as regards the incidence of root-borne diseases. Its not an area that's been researched at length, but what little info I've seen suggests that disease incidence will become worse under AGW conditions.
88074. Marcus at 12:43 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @ Ian Forrester. Yes, I'd read that very recently myself. Kind of puts the whole "CO2 is plant-food" argument into perspective!
88075. Ian Forrester at 12:29 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       If we want to see the effects of higher CO2 concentrations and hence higher temperatures on plant growth we should look and see what is happening at the molecular level. All of plant metabolism is controlled by various enzymes, literally thousands in any one organism. The key step in plant growth is the fixation of CO2 via the enzyme Rubisco (Ribulose-1,5-bisphosphate carboxylase oxygenase). Here are some recent findings on the biochemistry of Rubisco. The older studies showed that the enzymatic activity of isolated Rubisco (the enzyme responsible for the fixing of CO2 into organic metabolites) was increased at higher temperatures and higher CO2 concentrations. This allowed deniers to argue that this would be good for agriculture since it would allow for higher yields (forget about water and available nitrogen for now). However, there were always problems in getting reproducible levels of Rubisco activity (preparations had to be aged and/or treated to give maximum activity). Later research has shown that there is another layer of regulation affecting Rubisco activity (as is common with many enzyme system). A new enzyme, Rubisco activase, was found to be responsible for converting “inactive” to “active” Rubisco. And, surprise surprise, this new enzyme was found to be inhibited by higher temperatures and also inhibited by higher CO2 concentrations. This finding is probably responsible for the contradictory results found in experiments where varying temperatures and CO2 concentrations on plant growth have been conducted. http://www.ars.usda.gov/is/AR/archive/nov02/plant1102.htm http://www.pnas.org/cgi/content/abstract/97/24/13430
       Moderator Response: [DB] Hyperlinked URLs.
88076. Marcus at 12:28 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       So we have at least one FACE trial that shows that Rice grown under conditions of increased CO2 will have a decrease of N, on average, of 14%, P by 5%, Fe by 17% & Zn by 28% (according to Seneweera and Conroy, 1997). Ziska et al (1997) have reported a drop in protein content in crop plants when you combined increased temperature & CO2. Although I'm struggling to find a peer-reviewed reference, there is a general belief that warming will lead to a shortening of crop growing cycles, thus resulting in reduced crop productivity. Also, I've read that increased CO2 tends to boost *vegetative* growth at the expense of *reproductive* growth. As was pointed out above, as we tend to eat the reproductive material of most crop plants (like corn, rice & wheat), this is *not* a good thing.
88077. KR at 12:25 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       I want to be clear that Berényi linked to the original graph and publication in the image hyperlink. However, the graph as presented here was Photoshopped to remove 100 years of predictions that completely contradicted how he presented the information. I consider that deliberate distortion. The graph itself (unnumbered in the Hadley PDF) is something I couldn't find discussion of in that document - I don't know if it's talking about forests, all vegetation, what the sources are, etc., so I don't consider it a great reference in the first place. But much much worse when clipped and distorted.
88078. Tom Curtis at 12:24 PM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Ken Lambert @79, no I am not - and that is a ridiculous accusation. I have taken a conservative estimate of the difference of ice coverage between circa 1979 and circa 2010. I have taken a conservative estimate of the energy flux in that area measured in Watts per square meter. I have multiplied the energy gain measured in Watts per square meter (= Joules per second per square meter) and multiplied it by 60 (60 seconds in a minute), then by 60 again (60 minutes in an hour), then by 24 (24 hours in a day) and then by 90 (three months at 30 days per month). I have then multiplied by the total area. Now you suggest that 60*60*24*90 Watts is "30 to 32 years of heat gain". Absurd!
88079. villabolo at 12:14 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @51 Chris G: "If you pull out a globe, or open Google Earth, and look at where major agricultural areas are now, there are a fair number which will not be readily migrated poleward. Geographic features and political boundaries will make it so that this problem is much more difficult than the base cost of relocating farmers and the cities they are based out of." Yes Chris, I am very much aware of the constraints of migration. Particularly agriculture. However, I was referring to biotopes in general. Canadian boreal forests have soil that is thin, nutrient poor and acidic. Then there's the Siberian permadefrost which will basically become muck, swamps and a million methane bubbling lakes. I believe I can resolve this issue by adding one word to point #4. That word is "mostly". "While deserts increase in size, other eco-zones, whether tropical, forest or grassland will [mostly] migrate towards the poles; shrinking in land area as they do.
88080. Ken Lambert at 12:11 PM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Tom Curtis #77, #78 "That is only 3 to 4 times Trenberth's figure, but Trenberth did not calculate the average amount of energy absorbed in annual (not seasonal) ice melt over 1979, but only over 2004 to mid 2008, over which period there was an average of around 1.8 million square kilometers of additional ice lost relative to 1979." That is your error. You are taking the ice melt area 'relative to 1979' which means that you have 30 or 32 years of heat gain (energy) in your calculated number of Joules. A Watt is a Joule/sec so if you use forcings (energy flux) in Watts you must introduce the unit of time. ie Joules/year - which is what Dr Trenberth is calculating.
88081. Marcus at 12:09 PM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       "KR at 10:06 AM on 18 April, 2011, I am constantly perplexed by claims such as yours that many charts are doctored or not properly referenced, when it is a simple matter of clicking on such charts to go to the original source." Oh, what a surprise-members of the Denial-o-sphere coming to each other's defense. The issue here, John D, is *why* do people like BP & Gilles always choose to clip or modify the charts they post, in such a way as to give a false impression of what those charts are actually telling us? You, too, have a habit of reporting only *half* of a story-like the story regarding your beloved FACE trials. The FACE trials really don't properly mimic what a CO2-enriched world would look like. Even the Horsham Trial only looks at current conditions for rain-fed vs irrigated agriculture. Yet even those people running the Horsham Trial have conceded that increased CO2 leads to a decrease in nitrogen uptake by the plants-& that any gains in biomass are short-term, with acclimation setting in within 2-3 years. Yet you only mention the rather modest "benefits" of the FACE trials-why is that?
88082. villabolo at 11:56 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @44 LukeW: "This post on CO2 is dreadfully simplistic and naive." Simplistic yes. That's what you get with a basic level rebuttal. Naive, I think not. In the Australian context of savanna woodlands increased vegetation in terms of trees will decrease not increase fire. Grass is what makes fire carry in the world's vast area of savanna biomes. "Most detailed crop physiology modellers will now take CO2 fertilisation into account when simulating crop growth. If there is enough water and nutrients growth will be enhanced. At the levels of CO2 enhancement practically experienced in the field is CO2 really having any impact of yield quality?" Please see the video (1:58; also, focus on 2:21) for a global perspective. That is observation as opposed to modeling. "At a whole landscape scale increased CO2 will improve transpiration efficiency and greater water runoff will result." Since I try to be as thorough and detailed as possible, you some of your statements and questions have already been covered in previous posts. As far as water depletion, irrespective of the benefits of transpiration, is concerned; I responded to that in the post right before yours (#43). I responded to the issue in the context of mechanized agriculture. Please refer to the second to last paragraph in that post. "Climate change will have winners and losers. If North America became warmer and wetter - their wheat yields would be boosted considerably, especially with some CO2 turbo-charging. As for more intense rainfall causing greater loss of soils and nutrients - I wonder - there is this thing called soil conservation - contour banks, minimum tillage or zero tillage. Great advances have been made in these areas over the last 40 years." "Winners and losers." Are you referring to plants in general or mankind in a rapidly changing world with famine; infrastructure damage; economic collapse and mass migration? Did I forget wars? As far as advantages in soil conservation, three points can be brought up. First; how much time and extra resources will we have to adapt with? How much time to adapt to worsening conditions for crops and socio-economic situations? IMO, expect serious trouble beginning this decade and escalating from there on. Second; overwhelming flooding like Pakistan and Australia will overwhelm the positive effects of soil conservation. Pakistan, for example, was so inundated over 20% of its landscape that some farmers could not even distinguish their former land from the rest of the terrain. That was due to the massive floods changing the landscape altogether. Third; low and zero tillage are at odds with mechanized agriculture, as far as I know. "What could have been mentioned at the other end is that CO2 can increase frost sensitivity (deniers would chip in here and exclaim it will never frost again)." That should be mentioned in a more advanced post. It is simply too much detail for the basic level reader to digest. It's best not to overload them with too much information. I feel I've already done that to a certain extent. "Anyway the case for winners and losers needs to be made. At nation state level, land use, biome, and ecological patch level. The article here is far too simplistic." The summation above has been covered in the previous statements IMO we will need a drastically different civilization to adapt to CAGW. A network of self-reliant villages, numbering no more than 500 persons each; is what I envision. But that's a different story.
88083. Daniel Bailey at 11:19 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @ Albatross and KR: 'Tis a Travesty the Tricks employed by the Deny-O-Sphere to Hide the Decline...
88084. Ken Lambert at 11:14 AM on 18 April 2011
       The e-mail 'scandal' travesty in misquoting Trenberth on
       Alec Cowan #133 Alec, stop being coy and tell us all what is wrong with the K&D paper.
88085. bill4344 at 11:14 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       May I second Adelady? Nature Does Not Care in the slightest about your survival, or any other species survival for that matter. If you survive - great. If you don't - equally great. Organisms comfortably adapted to a particular set of surprisingly stable conditions poke those conditions with a sharp stick at their peril. (How this can be done in the name of 'Conservatism' is beyond my comprehension - and parody!) Liebig's law puts the lie to the idiot 'CO2 is plant food - therefore more must be good' mantra full stop. You only have to demonstrate any substantial exception to such a glib fallacy in order to disprove it. If the initial meme is inane quibbling that the anti-meme is insufficiently nuanced is just captiousness. You can get too much of a good thing; quibbling about the complex (indeed, Chaotic) boundary of this 'too much' as if this somehow invalidates the general principle is pointless at best. 'Yellow doesn't exist because you can't define the point in the spectrum at which it becomes orange' is not a valid argument.
88086. johnd at 11:13 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       KR at 10:06 AM on 18 April, 2011, I am constantly perplexed by claims such as yours that many charts are doctored or not properly referenced, when it is a simple matter of clicking on such charts to go to the original source. I do it as a matter of course. If I can do it, how come others cannot. What is the problem, lack of research skills or what?
88087. Chris G at 11:09 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       I was thinking there are at least two ways of thinking of this issue. In the post above, mostly the discussion is about how plants respond to changing conditions. The other way is to think of it as where conditions exist. Expanding on item #4: Poleward movement of terrestrial surface isotherms is expected to average between 3.8 km and 5.9 km per year if current trends of global climate change continue (1). If you pull out a globe, or open Google Earth, and look at where major agricultural areas are now, there are a fair number which will not be readily migrated poleward. Geographic features and political boundaries will make it so that this problem is much more difficult than the base cost of relocating farmers and the cities they are based out of.
88088. johnd at 10:50 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       villabolo at 09:45 AM, just FYI the other thread was available from the time you first made it. I noticed it then,but didn't have time to respond, only earlier seeking it out again to follow up. Perhaps you should have it removed entirely as it only serves to clutter and confuse. The only link you provided is to an abstract regarding, IIRC, a laboratory study. I believe I have read some of that paper somewhere previously. However, given we are talking about the real physical world, laboratory studies are of limited value. At the very least it should be the results of FACE trials that you are referencing as these provide the closest data simulating future real world conditions. But more important than that they are the only means by which modeling based on laboratory experiments are able to be validated. It appears that the FACE trials indicate that the results produced under real world conditions differ from the expectations of the modeled laboratory projections, requiring the models to be retrained against the results obtained under FACE conditions.
88089. Albatross at 10:32 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       KR, Smile. Good sleuthing. There goes BP'S already troubled credibility. I hope that people following this thread note that this is the kind of thing that climate scientists and others who understand AGW to be a concern repeatedly come up against. The 'skeptics' demonstrate highly questionable ethics, yet repeatedly falsely accuse others of same. Again, this is not so much about where things stand now, but where we are headed if we continue on this path consumption.
88090. RW1 at 10:24 AM on 18 April 2011
       Clouds provide negative feedback
       Sphaerica (RE: 22), "1) Present your own model more clearly. You skip steps, make leaps, then get frustrated when other people can't figure out where you get your numbers from. You even claimed that you didn't have a model!" What specifically do you want me to explain? I agree with the moderator that a lot of this has been covered in previous discussions, but if you ask any direct question, I'll do my best to answer it. At any rate, I'd like to get back on topic with a question: If clouds are not the primary mechanism modulating the energy balance, and are instead acting to greatly amplify relatively small temperature changes, then what is the primary mechanism controlling the energy balance of the planet?
88091. scaddenp at 10:15 AM on 18 April 2011
       Clouds provide negative feedback
       As far as I can see RW1 believes that you can infer feedback relationships from the Trenberth state diagram (ie the comments about gain) and then use these no.s to project what the diagram would look like for say doubled CO2. When the no.s dont accord with those calculated properly, then RW1 claims physics is wrong.
88092. KR at 10:06 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       Moderators - What are the ethics of a carefully clipped chart (pretty obviously edited) without attribution?
       Moderator Response:

       [DB] Given that less than 10% of all readers ever click on an obviously provided link, when said hyperlink is incorporated into an expandable thumbnail (Admission: I hyperlink scaled thumbnails for brevity sake; but I do not only present PART of the original image) with the only way of knowing it IS hyperlinked is to mouse over it/move the cursor over it...you tell me.

       Not warning the reader that the enclosed graphic is an enlarged, windowed version of a much larger graphic certainly opens up the reader to the possibility of taking the totality of the graph out of its intended context.

       In like fashion, it certainly opens up the poster of the questionably presented graphic to many, many questions...

88093. KR at 10:01 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       Berényi Péter - That's a fascinating chart, Berényi. Why did you clip it? This is from a set of Hadley Center forest predictions, discussing climate change effects on forests. Unfortunately, there is no discussion of that chart in the PDF. One interesting factoid from that PDF - during the 2003 heat wave in Europe, crop productivity dropped 30%. Climate change doesn't seem to be good for crops...
88094. villabolo at 09:57 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @41 Albatross: "One of my main concerns about this post is that there was not meat in terms of referencing the scientific literature-- but some mistakenly take that to mean that such support is missing in the literature." Albatross, John C previously stated, in response to someone with your own concerns on references, that it was not necessary for a Basic Level post to provide such references. The articles cited in the illustrations do provide such sources. In any case, I'll be adding extra primary source references as time allows; but there is no need to elaborate in the main text due to its basic level.
88095. villabolo at 09:45 AM on 18 April 2011
       More Carbon Dioxide is not necessarily good for plants.
       @39 Johnd: "villabolo at 06:59 AM, strange you didn't notice the other thread as you have 3 separate posts in it." I did post on what I assumed was a blog post that had not been officially turned in a post for public view. As I said, this is the first post I noticed today, when I went to home page. I assumed that anything on this post would supersede any previous posts. Sorry for any misunderstandings. As for declining nutrition in wheat, mentioned in my rebuttal above, I provided a link. As to other comments on nutritional deficiencies due to mass produced agriculture (Non CO2 related), that was an off topic comment in response to the claim that FF based agriculture is "advanced". I'd rather leave that particular issue at that. Right now I'm backed up with two other responses as well as personal chores, so I can't respond to every question; particularly if they're not directly in reference to CO2 issues.
88096. Tom Curtis at 09:43 AM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Ken Lambert @77:

       You say: "Therefore there is need to divide the 1.51*10^21 Joules by 32. That is the additional amount of energy each summer that would not have been absorbed except for the reduced sea ice area." That is precisely my point.

       Sorry, that was a typo. I intended to write, "Therefore there is no need to divide the 1.51*10^21 Joules by 32."

88097. Tom Curtis at 09:41 AM on 18 April 2011
       A Flanner in the Works for Snow and Ice
       Ken Lambert @76, if the additional melt had proceeded smoothly over the years (which is not true), then the arctic ocean would have absorbed 4.7*10^19 Joules more in the summer of 80 than in the summer of 79; and 9.4 more Joules in the summer of 81 than in the summer of 79, and so on. However, in the summer of 2010 it absorbed more than 1.51*10^21 joules more than it absorbed in the summer of 79. If you were to calculate the average additional energy flux in the years between 1979 and 2010, the figure would be 7.55*10^20 assuming (incorrectly) an even progression) or perhaps half that given that the loss of summer sea ice extent between the early 1980's and 2006 was only about 1 million square kilometers. That is only 3 to 4 times Trenberth's figure, but Trenberth did not calculate the average amount of energy absorbed in annual (not seasonal) ice melt over 1979, but only over 2004 to mid 2008, over which period there was an average of around 1.8 million square kilometers of additional ice lost relative to 1979. Hence the additional amount of energy absorbed in that period is conservatively estimated as 1.8/2*1.51*10^21 = 1.359*10^21. As it happens, Flanner did his calculations on the average over the same period, so I should probably accept 1.35*10^21 as my conservative estimate rather than the figure I have been using which includes an additional two seasons of extreme ice melt.
88098. Alec Cowan at 09:26 AM on 18 April 2011
       The e-mail 'scandal' travesty in misquoting Trenberth on
       @Ken #131 I forgot. Why have you supposed that the figure in #128 was the only one? Did you want that a group of teenagers evaluated the whole planet? The whole oceans were covered by different groups. Those teenagers understood it, why don't you? There is also another exercise covering different months of a year. Every slice had its own tremendous variability and you can see that in Figure 1 and in the Argo site how all of them amount to a variable total. That is what I'm asking you to comment from figure 1 and by those means that you show a comprehension on the subject.
88099. Alec Cowan at 09:14 AM on 18 April 2011
       The e-mail 'scandal' travesty in misquoting Trenberth on
       @Ken #131 You're just repeating yourself, Ken. Why don't you quote exactly every part of Knox & Douglas where they state clearly that the ocean layer is other than 0-700 metres regarding figure 1 and their calculations using those 4 methods? Do that and we'll continue to talk because it looks like you "want" for it to be "the oceans". It looks to me like you see Ocean Heat Content and a flat or slightly negative trend line together and feel a heartbeat rush "That's it!". Read it again, carefully. Then we can move to the others studies and later come back to the cooling periods -the real ones-. That's where the travesty is. Should I conclude that you see Knox & Douglas' figure 1 and have nothing to comment?
88100. Alec Cowan at 09:02 AM on 18 April 2011
       Solar Hockey Stick
       @Berényi Péter #75 It looks from your last graphic that UV-A radiation doesn't reach farther than blue light does. It looks like your UV heating is not much different of Blue Light heating. Reading the last figure we got some 1.3 x 10^-4 cm^-1 for blue light so we keep some 99.987% of light intensity once we penetrate one centimetre in the water -fresh, crystal clean water-. Some 87.8% of this blue light reaches 10 metres deep. Some 27% reaches 100 metres and only 2% reaches 300 metres. But we know we are not talking of distilled crystal clear water but some water with one ion of an heterogeneous kind for each 50 water molecules. Where is the information about how different wavelengths do in filtered sea water? Besides, does somebody remember having sailed far from the shore an having seen clearly the silhouette of other ships' hulls underwater. Sea water is pretty cloudy as it's full with life and every kind of particles. So almost nothing of blue light reaches 100 metres, nor UV-A does, what begs the question, Berényi Péter, what are you up to? Why are you telling us "this kind of radiation can penetrate into the ocean (down to several hundred meters) and deposits its energy there as heat"? Don't you realize most of the energy got converted to heat in a few dozen of meters and almost nothing goes deeper that 100 metres? Why do you talk as if a mermaid go several hundred metres down and lay an egg, and egg containing a secret? Why are you saying that a thousandth of the energy of a band that accounts for 2% of total radiation is a better measurement of what? Didn't you realize that your penultimate graphic tells that 60% of the radiation in your precious UV-A band doesn't even reach the surface?

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