Guest essay by Clyde H. Spencer
Before getting into the details of the analysis, it must be stated that there are a number of issues with the available temperature data sets. Some critics have dismissed the historical ocean pH measurements because of the poor spatial sampling. However, the same criticism can be made about historical temperatures. There are still concerns about the influence of the Urban Heat Island effect on recent temperature readings. In addition, the temperature record is a moving target because there are on-going changes made to try to correct for the shortcomings of a system that wasn’t intended to be used to track long-term changes. Therefore, if you attempt to reproduce my results, you will probably find that the data have changed. The Berkeley Earth Surface Temperature (BEST) project was started because of distrust in the other existing data sets. I have chosen to use BEST data (08-Jan-2016) because it is readily available and some consider it to be superior to the government data sets. Any conclusions need to be taken with reservation.
Unfortunately, the most detailed atmospheric carbon dioxide (CO2) concentration data that are available cover only about the last 56 years. The Mauna Loa CO2 data are available from the Scripps Oceanographic website. A scatter-plot of BEST monthly temperatures versus logarithm base-2 (Log2) PPM (parts per million) CO2 concentration was prepared for the period of 1958 through 2015. (See Fig. 1, below) The point cloud for the monthly data is not particularly tight. Indeed, the least-squares fit regression-lines only show an R2 value a little above 0.5 for both the average global high and low temperatures. The classic interpretation of the R2 value is that it represents the amount of variance in the dependent variable (temperature) that can be explained by the independent variable (CO2 concentration). That is, in this situation, only a little more than half of the rise in temperature can be related to the increase of CO2 in the last half-century. Of that CO2 increase, the combustion of fossil fuels probably only accounts for about 75%. (See Spencer, 2015).
Using raw PPM rather than the LOG2 of the PPM CO2 gives slightly higher correlation coefficient with the monthly high-temperatures. (0.533 v. 0.528). Whereas, the opposite is true for low temperatures (0.548 v. 0.550). Thus, it seems that the average low-temperatures behave slightly better with respect to the theory that CO2 is impeding radiative cooling.
Using a 2nd-order fit instead of a linear fit increases the correlations slightly. However, the trend-line curves upward with the high temperatures for the most recent data, but downwards for the low temperatures. The apparent opposite results, suggest that something is affecting the high and low temperatures differently. I have pointed out previously, (Spencer, 2015) that the difference between the high and low temperatures has been increasing in recent years and seems to be the result of the high temperatures increasing more rapidly than the low temperatures. That is the opposite of what one would expect if CO2 were the main driver.
Fig. 1 Monthly average temperature versus Mauna Loa CO2 concentration
Substituting the presumed concentration of CO2 (277 PPM) for the pre-industrial era into the linear regression equations yields high and low temperatures estimates of 13.537 and 2.207 degrees C, respectively. That gives an average of 7.872°C, compared to an average temperature of 8.367 for 1771 from the BEST database. It is a surprisingly good agreement for a linear prediction based on temperatures that generally appear to increase in a saw-tooth pattern.
While the correlation of temperature with CO2 looks compelling, what if it is because the CO2 is coincidentally highly correlated with something else such as natural, in-phase long-term temperature trends or it is simply a proxy for the totality of anthropogenic influences? Remember that correlation does not mean causation!
However, using annual Law Dome CO2 data from 1759 through 2015, the relationship is less well-behaved. (See Fig. 2, below) The correlation coefficient (0.5638) for average temperature versus CO2 is, approximately, what is observed for the Mauna Loa monthly CO2 data. Non-linear behavior is particularly striking for Log2 CO2 concentrations less than 8.35 (≈pre-1972). There also seems to be particularly serious problems with the estimate of CO2 concentrations (284 PPM) or temperature around 1805 to 1840. Note that the slope of the regression line is similar to those in Figure 1
Fig. 2 Average annual BEST global land surface-temperature versus Law Dome ice-core CO2
It is generally thought that pre-industrial CO2 levels were relatively constant, only showing very slow increases. However, at low levels of CO2, the temperatures were varying in a manner not expected from the theoretical model. Some of the low temperatures associated with the downward spike in temperatures with a CO2 log2 concentration of 8.15 may be the result of the eruption of Mt. Tambora (1815), but not all. The temperatures apparently started to decline a decade before the eruption, and remained low longer than the typical two or three years after a major eruption. The decline in temperatures resulting from the 1883 eruption of Krakatoa is barely discernible at a concentration of 8.18. There are also high temperatures paired with low CO2 concentrations.
Assuming that the relationship between CO2 concentrations and temperature is as shown in Figure 1, then the historical temperature data are not trustworthy. If the temperature data, which are 12-month averages, are correct, then there appears to be a serious problem with the assumed control of CO2 over temperatures! Alternatively, the CO2 concentration would have to have been varying considerably at this time to explain the different temperatures. This goes to the heart of my opening statement about the veracity of the historical temperature data and the ability to say anything about temperature increases for anything other than the modern record. Although it is not highly probable, in my judgment, one has to at least entertain the possibility that the modern rise in temperature along with CO2 is a coincidence.
A plot of estimated atmospheric CO2 concentration versus population for the period of 1958 to the present day shows that the rate of growth of CO2 is greater than the population rate. A 2nd-order least squares fit gives an R2 value of 0.999. (See Figure 3 below.)
Fig. 3 Annual Mauna Loa CO2 concentration versus world population
The correlation of historical, global CO2-increases, with population increase, is so high that one must entertain the possibility that the CO2 is a proxy for the totality of anthropogenic effects when used to predict temperatures.
One such effect is anthropogenic water vapor. Combustion produces water from all hydrocarbons, along with CO2. Water used in steel rolling mills, and many other industrial applications, evaporates under conditions it would not have done so were it not for Man. Similarly, water used to cool nuclear reactors and other power plants is released into the atmosphere; it initially condenses into visible water droplets, and then evaporates, increasing the relative humidity. Reservoirs in arid regions provide water vapor both from the reservoir surface and the fields the impounded water irrigates; the water vapor would not have been present before the dams were built. Lastly, massive depletion of underground aquifers, largely for agricultural irrigation, has brought water vapor into contact with the atmosphere during the growing season in arid and semi-arid regions to change the balance of the relative humidity. The essential point here is that ‘Greenhouse Gas’ theory predicts that increasing CO2 will warm the atmosphere slightly and cause additional evaporation of water, which amplifies the CO2 warming. Man is providing additional areas from which water can evaporate.
Another anthropogenic effect is Urban Heat Island contamination of the temperature records as the cities have encroached on what were formerly rural areas. The BEST project claims to have disproved that hypothesis, but it is my opinion that they didn’t search far enough outside the city limits, nor in the right direction. Quattrochi et al. (Project Atlanta, 1999) have demonstrated that the heat and pollution from central Atlanta (GA) influences the weather for miles downwind from the city. Additionally, Watts (2015) has demonstrated a woeful lack of adherence to standards in the siting of many temperature-recording stations. I don’t think this is “settled science.”
A plot of BEST global average land-temperatures versus world population (Figure 4, below) produces what appears to be a near-linear trend with an R2 value (0.782). However, fitting a 2nd-order polynomial produces a trend line with an R2 value of 0.811.
Fig. 4 Average annual global land-temperatures vs. world population
This suggests that all anthropogenic influences may account for as much as 81% of the variance in the land temperatures. I should note that if one plots 12-month smoothed BEST temperature data in Figure 1, instead of monthly temperatures, a linear correlation of similar magnitude is obtained. Therefore, the nominal R2 value of about 0.5 is likely an upper bound on the CO2 impact alone.
Atmospheric CO2 is characterized as a “well-mixed gas.” However, the NASA OCO-2 satellite shows a range of about 4% throughout the world, integrated over a 1-month period (see Fig. 5, below). That is approximately 10% of the claimed total increase in CO2 during the Industrial Era. Notably, there is no obvious evidence for the Northern Hemisphere industrial emissions. The preponderance of high values is over the southern oceans, which might be the result of out-gassing. The Amazon basin also shows elevated CO2; it is unclear whether that is a result of human burning activities or normal decay of vegetation. One needs to ask why OCO-2 isn’t confirming the presumed Northern Hemisphere anthropogenic CO2 when it is blamed for the historic temperature increases, and why there is a larger increase in high-latitude temperatures where CO2 has the lowest concentrations!
Fig. 5 CO2 concentrations from the OCO-2 satellite, July 2015 (NASA/GES DISC)
In summary, approximately 81% of the warming in the last century may have resulted from all anthropogenic influences, as suggested by figure 4. This includes water vapor, CO2, methane, nitrous oxide, and land use changes to the albedo and thermal mass. CO2 may account for as much as 52% to 56% of the contribution from anthropogenic drivers (See Figs. 1 & 2). Fossil fuel-CO2 represents less than 75% of anthropogenic CO2. If we were successful in completely phasing out fossil fuels over the next 100 years, we would have a reduction of 50% in average CO2 emissions. If the Earth is warming at a nominal rate of 1°C per 100 years from all influences, then we can hope, at best, for a reduction in temperature increase of 20% (0.54×0.75×0.50) or 0.20°C. That is to say, if the world were to phase out fossil fuels in the next 100 years the warming would be 0.80 degrees instead of 1.00°C! Unfortunately, eliminating fossil fuel use will probably not be successful in significantly reducing future temperature increases, even if it can be accomplished.
“That suggests that either the historical data are unreliable or that the relationship is not as robust as it appears in recent times”
The greatest uncertainty is accuracy of historical (pre 1950) data. The only thing we can do now is to establish realistic margins of error. There is a lack of honesty in this regard. Given that a whole heap of evidence is suggesting + 1 C/century and that (IMO) margin of error in the first half of the century exceeds 1 C where does that leave us?
People are forgetting how small a 1 degree increment looks on a pre-1950 weather thermometer and just how geographically sparse these were within our recorded history. As for pre-1950 sea temperature? forget it
YOU WROTE:
“In summary, approximately 81% of the warming in the last century may have resulted from all anthropogenic influences, as suggested by figure 4. This includes water vapor, CO2, methane, nitrous oxide, and land use changes to the albedo and thermal mass. CO2 may account for as much as 52% to 56% of the contribution from anthropogenic drivers (See Figs. 1 & 2).”
MY COMMENTS:
I have no idea why anyone would publish your wild speculation.
The percentage are nonsense – wild guesses.
Mr. Spencer, who is obviously no scientist, jumps to conclusions with absolutely no scientific proof that humans have caused ANY of the alleged warming since 1850.
I say “alleged” because the measurement methodology for average temperature is so haphazard, non-global, in-filled, and repeatedly “adjusted” to match computer game models … that we can’t be sure there has been ANY warming since 1850 … or it’s possible there has already been +2 degrees C. warming — no one knows for sure.
—————————————————————————————————-
If the warming was real, rather than just measurement error, and was caused by greenhouse gasses, then we should expect the following five “signatures” of greenhouse gas warming:
(1) Significant warming around North Pole = yes, did happen
(2) Significant warming around South Pole = NO, did not happen
(3) Troposphere “hot spot” six miles up over tropics = NO, never found
(4) Warming fairly even across globe = NO — big difference between northern half of Northern Hemisphere vs. southern half of Southern Hemisphere.
(5) Warming fairly consistently over time = NO — since 1880, we’ve had three warming trends, followed by three flat trends
——————————————————————————————————
So far I’ve only talked about 0.001% of Earth’s climate history (1880 to 2015), which is actually more than double the mere 56 years (1958 to 2015) “analyzed” in this “article”.
There are 4.5 billion years of climate history … but YOU seem to think ALL the answers are contained in the years 1958 to 2015, so none of the other years matter?
The fact that scientists have found no correlation of CO2 and temperature in proxy studies EXCEPT for ice cores showing natural causes of temperature increases LEAD TO higher CO2 levels 500 to 1,000 years LATER … apparently means nothing to you?
On the subject of climate change, you are a nitwit, jumping to so many unsupported conclusions you must be exhausted. You are an embarrassment to a website that promotes climate change objectivity. Your article is a milestone in how to mislead people using statistics.
You should be ashamed of yourself for ignoring the fact that MOST questions about what causes climate change have not yet been answered.
You also ignore ALL the work of scientists using climate proxies to estimate our planet’s climate history.
I guess that for you, based on this article, the world started in 1958 — there’s no need to care about the climate in the prior 4.5 billion years.
You’re truncated 4.5 billion years of climate knowledge into a mere 56 years of data, with no explanation why.
That’s not science — it’s non-science (aka nonsense).
Note to Moderator:
I was actually in a good mood until I read this article.
Please don’t drop your drink, or fall off your bar stool, while reading my Trump-like diatribe.
Richard,
Your argument is with me and the published data I used, not with Anthony. It is clear that you have strong opinions on the subject, as do many here. It doesn’t make you look intelligent or knowledgeable calling me a nit wit. I have more than a passing acquaintance with the history of the Earth, being trained as a geologist. But, as is so often the case in geology, there is a lot of speculation and hand waving. Rarely does one find a min-max thermometer embedded in ancient sediments. The percentages I came up with are not “wild guesses.” They come from the definition of the coefficient of determination, which is that it determines the amount of variance in the dependent variable explained by the independent variable. I never claimed to be a “scientist.” Beauty is in the eye of the beholder. Not that it really makes any difference, but I don’t think highly of what you have written either.
Your May 2015 article was very good.
You raised a lot of questions about climate change, showing the science was far from settled.
There were very few numbers in that article.
There has been a severe change (and deterioration) in your writing since then.
This article has lots of numbers and charts.
Your conclusions imply climate science is now settled.
I suggest you stay away from numbers and charts — your article is a “poster boy” for how to lie with statistics.
After reading all the comments I’d say you were hit pretty hard.
I wasn’t the only reader who thought little of your article.
Unlike Mr. Trump, however, I have a personal “online insult budget” of one person every six months.
You are the ‘insultee’ (winner) for the first six months of 2016.
Congratulations!
Your article did NOT deserve to be on this website.
So I do have a problem with whoever accepted it.
Not that I want to insult Mr. Watts, who has the best climate website on the web, and a clever name for his website too. Everyone makes mistakes. Maybe he judged you by the May 2015 article?
The ONLY conclusion your article actually supports is that humans have added CO2 to the atmosphere.
You jump to the conclusion that CO2 causes warming and ignore the many greenhouse gas warming “signatures” listed in my prior post that are NOT happening.
You state quite a few criticisms of the quality of climate science data, which I agree with.
Then you use climate science data that you just criticized, add your own unproven assumptions, and present a precise conclusion NOT supported by the article:
YOU WROTE in the first sentence of your last paragraph:
“In summary, approximately 81% of the warming in the last century may have resulted from all anthropogenic influences,…”
MY COMMENTS ON THAT SENTENCE:
When I first read your last paragraph, my first thought was I just read the summary of some other article, written by someone else, that somehow got attached to your article by accident.
Your article did NOT support ANY precise conclusion, especially as precise as “81%”
If you had written “most” instead of 81%, your conclusion might have been somewhat believable, at best.
I would not have believed it, but others might.
I say “somewhat believable” because correlation does not prove causation, especially over A VERY SHORT PERIOD OF TIME (1958 to 2015).
That period may also be too short to define a long-term climate trend.
1880 to 2015 is a tiny percentage of our planet’s history. Warmunists jump to conclusions based on 1880 to 2015, ignoring climate proxy studies of climate history … except for using CO2 levels from 1750 to 1958 using ice cores, only because those data suit their conclusion ( however all Pettenkofer real time CO2 measurements from the early 1800s to early 1960s are completely ignored — 90,000 CO2 measurements ignored).
http://www.klimarealistene.com/web-content/09.03.08%20Klima,%20CO2%20analyseartikkel%20100-2000,%20EE%2018-2_Beck.pdf
Cutting the period studied to only 1958 to 2015, as you do, worsens the data mining concerns.
You state a precise number 81%, and then contradict your precision in the SAME sentence by saying “may have resulted”.
I decided to call you a nitwit because your weak qualifier “may have” implies “may not have” could be equally true.
“may have” actually means you had NOT been able to support the conclusion you wrote!
YOU ALSO WROTE IN YOUR RESPONSE TO MY COMMENT:
“I have more than a passing acquaintance with the history of the Earth, being trained as a geologist.”
MY COMMENT:
Then why do you ignore the work of virtually all geologists who have NOT seen a CO2 – average temperature correlation in climate proxy studies … and you simply jump to the conclusion CO2 is the climate controller?
I presented enough evidence in my first comment to create doubt that CO2 is a climate controller — yet you completely ignore my evidence and jump to these character attacks:
“It doesn’t make you look intelligent or knowledgeable calling me a nit wit.”
” I don’t think highly of what you have written either.”
True, calling you a nitwit does not make me look intelligent.
However, that was only one sentence toward the end of my long comment.
If you did not “think highly of what (I) have written” then you should have taken at least ONE sentence I wrote in my comment that was related to science, and refuted that sentence.
I guess you were not able to do that,.
Do you think your response of refuting nothing I wrote, but presenting a generic character attack instead, demonstrates YOUR intelligence?
Actually, responding with character attacks, rather than refuting any science-related sentences in my first comment, just serves to prove I did NOT jump to a conclusion when I originally called you a nit wit.
PS: Nitwit = A silly or foolish person
I’m sure you’ve been called worse by your wife.
Assuming there is a Mrs. Nitwit.
I know I have!
My climate blog for non-scientists
Free No ads No money for me.
A public service
Nitwits and leftists should stay away to avoid high blood pressure.
http://www.elOnionBloggle.blogspot.com
Richard,
You said, “Your May 2015 article was very good….There were very few numbers in that article.”
You preferred the article with a lot of speculation and little substantiation. What does that imply?
You then say, “This article has lots of numbers and charts. Your conclusions imply climate science is now settled.”
I’m afraid that you don’t understand the numbers and charts. I don’t imply that the science is settled. Correlation between two variables can be useful in predicting the independent variable without knowing whether or not the dependent variable causes the changes. Extrapolation is always fraught with risk, even when one thinks they have a good predictive model based on one or more causative variables. In this case, since the science isn’t settled, the best we have to work with (although I’m sure Mosher/Stokes will disagree) is demonstrated correlations.
“I wasn’t the only reader who thought little of your article..”
It doesn’t matter if ‘97%’ of the readers were in disagreement. That isn’t how science works. If it caused people to think, it accomplished its purpose. I would say that many of the complaints, like yours, were petty and with little support. Some of the more serious complaints were from Ferdinand and he has subsequently backed down on at least two of them, and I haven’t bothered to respond to his first point, which was weak.
“Your article did NOT deserve to be on this website.”
I take it that your criteria for appropriate postings are things that you agree with. So much for being open to new ideas.
“The ONLY conclusion your article actually supports is that humans have added CO2 to the atmosphere.”
If that were the case, why would I have included the OCO-2 map that doesn’t show anthropogenic hot spots?
“Your article did NOT support ANY precise conclusion, especially as precise as ‘81%'”
On the contrary! While I didn’t supply error bars, I also didn’t say “exactly.” The “may” caveat was intended to reflect that one plausible explanation of the correlation was that the anthropogenic influence may be as high as 81%. What you missed, is that at the same time it was denying that CO2 was the sole influence and that other things such as land use changes and engineering projects — the things that were in my May post — need to be considered.
It should have been clear that I initially presented what is generally considered to be the best available quantitative data, 1958 to the present day, and then pointed out that going back in time there are obvious problems with the data. Somehow you missed that. Unfortunately, we only have the data that we have. The farther back in time that one goes, the less reliable quantitative measurements are. That shows clearly in Fig. 2, and it only gets worse when you go back into geological time. It is fine to engage in qualitative speculations, but to be real science you have to be able to hang some numbers on them.
“I guess you were not able to do that,.”
Once again, you are wrong. This posting is more worthy of a response than your first attack was. I have devoted an extraordinary amount of time responding to other comments that were substantive and not just ad hominem attacks.
“The point of my scatter plots was to point out that what appears to be a good correlation between temperature and CO2 in recent times breaks down as one goes back in time. ”
The simple fact of going back to early half of 20th c. shows equal warming without significant CO2. This needs explaining.
I would suggest that you do such analysis using SST ( which does relate to the energy budget ) not land temps.
Also show each plot full scale so that you can see what it actually looks like, not compressed so small that it is illegible.
Mike,
I have even less confidence in the historical SSTs than I do historical land temperatures. I don’t recollect mentioning Karl in this post. I have taken Karl, et al. to task in a previous post. Might I suggest that you take up the baton?
There was no REPLY button in your last post to me, so I’ll reply here instead:
I did not read your entire last post to me because i was reading it aloud to someone, but your comment was so long I ran out of breath, got dizzy, and had to take a nap.
Note: Had read your 2015 article before reading this article I would not have called you a nitwit. I would have suspected someone else wrote the prior article, or maybe you were drunk when writing this article.
You still don’t understand my comments, so I’ll type slower this time, and maybe you will understand:
After you speculated about various manmade causes of warming,
and presented caveats about data quality in your article,
(and even more caveats were in your May 2015 article)
… there is no way this article supported a precise conclusion,
a rough conclusion, or ANY conclusion except
“NO ONE KNOWS WHAT CAUSES CLIMATE CHANGE”.
Your concluding paragraph is pure speculation, and speculation is not science.
Earth’s climate has been changing for 4.5 billion years — natural changes with no human influence.
You seem to conclude that minor changes since the late 1950’s, which were in no way abnormal or unusual, are a milestone: Natural causes of climate change have suddenly become unimportant, and humans are to blame for 81% of warming …. maybe ….
THE MORE I LOOK AT YOUR CONCLUSION, THE DUMBER IT LOOKS:
“In summary, approximately 81% of the warming in the last century may have resulted from all anthropogenic influences, as suggested by figure 4.”
Why 81% … and not 70% to 80% … or 50% to 100% … or best of all: “most”
81% is misleading precision, and probably a wild guess too.
Writing “may have” contradicts your own misleading 81% precision IN THE VERY SAME SENTENCE — that’s why I called you a nitwit..
Maybe next time you should use several decimal places too: “… 81.058%, maybe … ”
At least that would get a laugh!
I am finishing an article this week on how to lie with predictions and statistics for my economics newsletter.
Here is a portion that you ought to memorize that relate to climate change (maybe you missed a few in your article?):
“I wanted a list of common ways people lie with data, statistics and predictions.
Fortunately, I’d been compiling a list since I started reading about climate change in 1997.
This is the only subject I know of that would generate such a huge list: Climate “science” is based entirely on an unproven physics theory, and ignores historical climate data in favor of making scary computer game climate predictions of the future … that have been consistently wrong for the past 40 years!
This list is a generic summary of the lying and misleading I document in the EL Climate Change Blog:
Common ways of lying with data, statistics, and predictions:
– state predictions and conclusions with unjustified confidence,
– make new predictions without admitting consistently inaccurate predictions in past decades,
– claim a strong consensus, when there’s no consensus at all,
– never admit “I’m not sure.”, or “I could be wrong.”,
– focus on 0.001% of historical data, because remaining 99.999% are not available,
– speculate it’s different this time: Future will be different than past
– refuse to debate: Attack character and motives of all people who question data quality, or disagree with conclusions,
– ignore different conclusions made by other people,
– make such long term predictions they can’t be proven wrong during your lifetime,
– data mine to support pre-existing beliefs and prior predictions,
– use averages to hide important details,
– show tiny anomalies versus an arbitrary base period, rather than showing actual data,
– use charts designed to grossly magnify tiny anomalies,
– confuse correlation with causation,
– make arbitrary data adjustments to force data to better support prior predictions,
– make repeated small ‘same direction’ data adjustments year after year,
– hide original raw unadjusted data,
– truncate data by ignoring most prior centuries,
– claim unreasonably small margins of error
– ignore all contradictory data,
– extrapolate current trends into the future without justification,
– get attention and study grants with scary ‘black swan’ predictions of doom,
– present random variations as a meaningful trend,
– fail to reveal financial incentives that could bias people collecting and analyzing data, and
– fail to reveal known and potential biases of organization(s) who paid for data collection.”
“I was trying to hang supporters of COP-21 by their own petard ”
That is probably the weakness of your approach. Rather than point scoring, aim to make physically meaningful scientific arguments.
since you declare that you trying to refute Karl et al, which introduces additional bias in the SST using NMAT, why are you even starting with land temperatures.
” One such effect is anthropogenic water vapor. ”
Water is regulated by minimum nightly temps and rel humidity being capped at 100%
And anthropogenic sources have a fraction of the capacity to evaporate water as the tropical oceans do.
micro,
Yes, in the overall scheme, water on land is a fraction of what the oceans contribute. However, humidity also has the ability to elevate the nighttime lows. The question I’m asking is whether anthropogenic water is influencing land temperatures.
Ultimately, after calculating gross effect of such things as anthropogenic water we have to come back to net influence. We must integrate the same processes in the natural environment before human influence. One example is trees: They will – in the right conditions- pump water into the atmosphere from several m depth through transpiration. Up to a point they can control their own soil moisture content. Many of those trees are now gone
I feel that the anthropogenic water effect (including irrigation) is probably puny compared to the natural environment and not worth spending time on
Michael,
You said, “Many of those trees are gone.” They are gone because of humans. Is that not an indirect anthropogenic effect?
You are welcome to your personal opinion about the anthropogenic effects of such things as irrigation. However, if that prevents you from actually doing the research and calculations, then it will forever be an unsupported, personal opinion.
Ferdinand has acknowledged that his initial ‘back of envelope’ calculations may be superficial. Somebody should do the work, so I guess it will have to be me.
Clyde: here is my wording: “I feel that the anthropogenic water effect (including irrigation) is probably puny”
Please note the words “I feel” and “probably” ‘ It is very clear that I was expressing an opinion. I have no intention of elaborating as no one will rank it anyway. Should I want to do the work I would start with percentage of total land surface under irrigation. It is tiny
Please also note that I was referring to net effect as clearly stated at the beginning of my post
I have average dew point and calculated rel humidity for all the surface stations in various sized areas around the world, plus temp and so on in the reports folder at the source forge url listed here
micro6500blog
https://micro6500blog.wordpress.com/
Ok – I will discuss why I think that studies in the anthropogenic influence over evaporation and hence cloud formation is a futile endeavour. Firstly, each and every ecosystem must be calculated on the basis of anthropogenic influence i.e. change in vegetation, cultivation …….etc. This requires establishing net change which may be positive or negative. It is a huge task and virtually mission impossible IMO. Hell we can’t even establish change in global temperature with any accuracy.
I suspect many are homing in on industry and urban development. This will be dwarfed by natural processes in rural environments involving botany and soil physics.
At the end of all this we have to take into account the other 70% of Earth’s surface – the sea.
CO2 emission is not today’s news, we just acknowledge that today. We have been ignoring nature for a long time already. We are concerned about car gas emissions, but did we stop to think about wars in the past and about the ones in the present? About the harm we did to the land, oceans? Oceans have been ignored in the debate on climate change. Lately, more and more people have become aware of the importance of the ocean in the matter. I recommend you to take a look here, on OGC – http://oceansgovernclimate.com/ipcc-ignores-human-impact-on-atmospheric-water-vapor/, to find more about this issue.
Ordinary Linear Regression (OLR) has been carried out on annual increments in each of satellite lower tropospheric temperature data from UAH compared to data from 22 CO2 recording stations ranging from the South Pole Station to Alert in NW Canada. The later data sets were from the Scripps Institute, the Australian CSIRO or the World Data Centre for Greenhouse Gases. The resulting correlation coefficients ranged from -0.23 to +0.25 with an average of 0.05. These results did not support the IPCC contention that increases in atmospheric CO2 concentrations cause an increase in temperature.
The OLR analysis was then applied to the annual average temperature, for a selection of the various zones and their land and ocean components 27 in total, compared to the annual increment in the atmospheric CO2 concentration for the same stations as above. This revealed an obvious graphical correlation between the variables with the surprising result that the dominant factor for the satellite temperature was the Tropics – Land component regardless of the latitude of the CO2 recording station or the uniqueness of the station, for example Mount Waliguan on the Tibetan Plateau in NW China . The correlation coefficients were all positive, ranging from +0.28 to +0.72.
It was concluded that the temperature in the Tropics – Land area controls the rate of change of atmospheric CO2 concentration across the whole of the Globe possibly due to temperature driving the rate of biological activity. However natural processes do not usually generate time series that meet the conditions for OLR so more detailed investigation was applied to the data from the Mauna Loa Observatory with respect to the satellite lower tropospheric temperature from UAH for the Tropics – Land component. Calculation of the Durbin-Watson factor gave a value of 0.4 implying that a first order autoregressive model, AR(1), with a positive autocorrelation was appropriate.
Generalised Linear Regression (GLR) was applied to the variables using an estimated autocorrelation value of +0.21 to transform them to residual values that better meet the requirements for applying correlation analysis. In the case of the residual annual increments for both CO2 concentration and satellite lower tropospheric temperature, Tropics – Land component, the correlation coefficient was 0.13 with 429 degrees of freedom giving a probability of a zero value of 0.7%. In the case of the residual annual increment for CO2 concentration verses the residual annual average satellite lower tropospheric temperature, Tropics – Land component, the correlation coefficient was 0.61 with 429 degrees of freedom giving a zero probability of being a zero correlation coefficient.
The original data for the atmospheric CO2 now needs to be revisited using GLR. There are currently 375 locations listed on the World Data Centre for Greenhouse Gases so there is no lack of material to further test the proposition that increasing atmospheric CO2 concentration does not cause an increase in temperature. The temperature of the Land surface in the Equatorial zone would appear to be the determining factor in setting the rate of change of atmospheric CO2 concentration, possibly from biogenic sources other than mankind.
Clyde Spencer,
You say that 81% of global warming is caused by human activity, so may I ask you for supporting measurements? By that I mean empirical, testable, verifiable measurements quantifying the fraction of global warming caused by humans (specifically, by human CO2 emissions), out of global warming from all causes including vulcanism, El Nino, the planet’s natural recovery from the LIA, and the gradual, long term decline in global temperatures from the beginning of the Holocene, etc.
Thanks in advance. I’ve been requesting those measurements for several years now, but no one ever has them. Any posted measurements should be sufficient to get broad-based agreement from scientists on all sides of the global warming debate.
That’s reasonable, no? If CO2 is capable of causing four-fifths of the observed warming, then it is surely a large enough forcing to measure. Where are the empirical, testable measurements quantifying what you say must be the case?
In God we trust, all others bring data – W. Edwards Deming
Without data, anyone who does anything is free to claim success. – Angus Deaton
“To measure is to know.” – Lord Kelvin
He actually wrote “approximately 81%” … and later in the same sentence said “may have”.
It was a concluding sentence with many contradictions!
Clyde had all the data you demand, but it was on Hillary Clinton’s server, and she wiped it clean with a cloth.
I severely criticized his conclusion because it was not supported by the body of the article.
I even called him a nitwit, which i blame on listening to Donald Trump too often.
I later recommended that next time Clyde add precision by writing:
“approximately 81.057% … maybe”
If NASA can present average temperature in hundredths of a degree C., and then claim a margin of error of +/- 0.1 degrees C., without even blinking, it’s obvious mo’ decimal places is mo’ bettah’
db,
No, I said humans “may” account for up to 81% of temperature increases. The supporting data is in the post. If the information you are asking for were available, the debate would be over.
Clyde Spencer,
Your ‘supporting data’ is unconvincing. There are far too many assumptions, and not nearly enough measurements.
Rather than piling on like many others have done, I’m simply asking for empirical, testable measurements quantifying AGW. If CO2 is such a potent driver of global T, then surely it can be measured. We measure subatomic particles to dozens of decimal points — but after a century of searching, no one has been able to measure AGW.
Since there are no measurements at all that quantify AGW (which I personally think exists; it’s just too minuscule to measure), it must be very small. In addition, all of the evidence to date indicates that the rise in CO2 has been entirely beneficial, with no downside.
If human activity is the cause of most of the observed warming as you say, then we are being asked to believe that it must have been sufficient to precisely balance any global cooling. Because the current warming episode in Dr. Jones’ chart below is no different from past warming events, before industrial CO2 was a factor:
http://jonova.s3.amazonaws.com/graphs/hadley/Hadley-global-temps-1850-2010-web.jpg
I don’t believe in coincidences like that. As countries around the world ramp up their CO2 emissions, we are being asked to accept the narrative that the resulting global warming exactly offsets all other forcings, both negative and positive, and thus gives us the same step changes that were recorded previously.
That is very hard for any skeptic to accept. It is contrary to the climate Null Hypothesis, and to Occcam’s Razor, and to common sense. The simplest explanation is almost always the best explanation: the planet is well within past temperature parameters, and what’s being observed now is simply natural climate variability.
db,
I’m willing to entertain alternative explanations. It sounds like you are suggesting that the correlation between CO2 and temperature over the last century is just coincidence. My thesis is that CO2 is a proxy for all anthropogenic influences such as I listed in my post in May. Do you dismiss those as well? If so, than there is quite a coincidence that needs explaining.
Global average surface temperature:
(1) declined from about 1940 to 1975,
(2) increased from about 1975 to 2000, and
(3) stayed flat since 2000,
all happening while atmospheric CO2 levels increased every year.
That means the correlation of temperature and CO2 has been negative, positive, and near zero, in just a 75-year period.
So … exactly where is your proof that humans cause up to approximately 81% of warming .. maybe, perhaps … ?
Excerpt above is from from article at my blog (much better than your current article):
http://www.elOnionBloggle.Blogspot.com
fee blog, no ads, no money for me
for non-scientists
nitwits and leftists should stay away to avoid high blood pressure
I was sorry to see the quality of your articles deteriorate so much from the early 2015 article to this one.
From genius to nitwit in one year Please try not to jump to unsupported conclusions in your next article.