From the Journal of International Climatology and the “if you can’t beat ’em, join ’em” department.
To me, this feels like vindication. For years, I’ve been pointing out just how bad the U.S. and Global Surface monitoring network has been. We’ve seen stations that are on pavement, at airports collecting jet exhaust, and failing instruments reading high, and right next to the heat output of air conditioning systems.
We’ve been told it “doesn’t matter” and that “the surface monitoring network is producing good data”. Behind the scenes though, we learned that NOAA/NCDC scrambled when we reported this, quietly closing some of the worst stations, while making feverish and desperate PR pitches to prop up the narrative of “good data”.
Read my report from 2009 on the state of the US Historical Climate Network:
That 2009 report (published with the help of the Heartland Institute) spurred a firestorm of criticism, and an investigation and report by the U.S. Office of the Inspector General who wrote:
Lack of oversight, non-compliance and a lax review process for the State Department’s global climate change programs have led the Office of the Inspector General (OIG) to conclude that program data “cannot be consistently relied upon by decision-makers” and it cannot be ensured “that Federal funds were being spent in an appropriate manner.”
Read it all here: https://wattsupwiththat.com/2014/02/07/report-from-the-office-of-the-inspector-general-global-climate-change-program-data-may-be-unreliable/
More recently, I presented at AGU15 : Watts at #AGU15 The quality of temperature station siting matters for temperature trends
And showed just how bad the old surface network is in two graphs:
Now, some of the very same people who have scathingly criticized my efforts and the efforts of others to bring these weaknesses to the attention of the scientific community have essentially done an about-face, and authored a paper calling for a new global climate monitoring network like the United States Climate Reference Network (USCRN) which I have endorsed as the only suitable way to measure surface temperature and extract long term temperature trends.
During my recent trip to Kennedy Space Center (Thanks to generous donations from WUWT readers), I spotted an old-style airport ASOS weather station right next to one of the new USCRN stations, at the Shuttle Landing Facility runway, presumably placed there to study the difference between the two. Or, possibly, they just couldn’t trust the ASOS station when they most needed it -during a Shuttle landing where accurate temperature is of critical importance in calculating density altitude, and therefore the glide ratio. Comparing the data between the two is something I hope to do in a future post.
Here is the aerial view showing placement:
Clearly, with its selection of locations, triple redundant state of the art aspirated air temperature sensors, the USCRN station platform is the best possible way to measure long-term trends in 2 meter surface air temperature. Unfortunately, the public never sees the temperature reports from it in NOAA’s “State of the Climate” missives, but they instead rely on the antiquated and buggy surface COOP and GHCN network and it’s highly biased and then adjusted data.
So, for this group of people to call for a worldwide USCRN style temperature monitoring network, is not only a step in the right direction, but a clear indication that even though they won’t publicly admit to the unreliable and uncertain existing COOP/USHCN networks worldwide being “unfit for purpose” they are in fact endorsing the creation of a truly “fit for purpose” global system to monitor surface air temperature, one that won’t be highly biased by location, sensor/equipment issues, and have any need at all for adjustments.
I applaud the effort, and I’ll get behind it. Because by doing so, it puts an end to the relevance of NASA GISS and HadCRUT, whose operators (Gavin Schmidt and Phil Jones) are some of the most biased, condescending, and outright snotty scientists the world has ever seen. They should not be gatekeepers for the data, and this will end their lock on that distinction. To Phil Jones credit, he was a co-author of this new paper. Gavin Schmidt, predictably, was not.
This is something both climate skeptics and climate alarmists should be able to get behind and promote. More on that later.
Here’s the paper: (note they reference my work in the 2011 Fall et al. paper)
Towards a global land surface climate fiducial reference measurements network
P. W. Thorne, H. J. Diamond, B. Goodison, S. Harrigan, Z. Hausfather, N. B. Ingleby, P. D. Jones, J. H. Lawrimore, D. H. Lister, A. Merlone, T. Oakley, M. Palecki, T. C. Peterson, M. de Podesta, C. Tassone, V. Venema, K. M. Willett
Abstract
There is overwhelming evidence that the climate system has warmed since the instigation of instrumental meteorological observations. The Fifth Assessment Report of the Intergovernmental Panel on Climate Change concluded that the evidence for warming was unequivocal. However, owing to imperfect measurements and ubiquitous changes in measurement networks and techniques, there remain uncertainties in many of the details of these historical changes. These uncertainties do not call into question the trend or overall magnitude of the changes in the global climate system. Rather, they act to make the picture less clear than it could be, particularly at the local scale where many decisions regarding adaptation choices will be required, both now and in the future. A set of high-quality long-term fiducial reference measurements of essential climate variables will enable future generations to make rigorous assessments of future climate change and variability, providing society with the best possible information to support future decisions. Here we propose that by implementing and maintaining a suitably stable and metrologically well-characterized global land surface climate fiducial reference measurements network, the present-day scientific community can bequeath to future generations a better set of observations. This will aid future adaptation decisions and help us to monitor and quantify the effectiveness of internationally agreed mitigation steps. This article provides the background, rationale, metrological principles, and practical considerations regarding what would be involved in such a network, and outlines the benefits which may accrue. The challenge, of course, is how to convert such a vision to a long-term sustainable capability providing the necessary well-characterized measurement series to the benefit of global science and future generations.
INTRODUCTION: HISTORICAL OBSERVATIONS, DATA CHALLENGES, AND HOMOGENIZATION
A suite of meteorological parameters has been measured using meteorological instrumentation for more than a century (e.g., Becker et al., 2013; Jones, 2016; Menne, Durre, Vose, Gleason, & Houston, 2012; Rennie et al., 2014; Willett et al., 2013, henceforth termed “historical observations”). Numerous analyses of these historical observations underpin much of our understanding of recent climatic changes and their causes (Hartmann et al., 2013). Taken together with measurements from satellites, weather balloons, and observations of changes in other relevant phenomena, these observational analyses underpin the Intergovernmental Panel on Climate Change conclusion that evidence of historical warming is “unequivocal” (Intergovernmental Panel on Climate Change, 2007 2007, 2013).
Typically, individual station series have experienced changes in observing equipment and practices (Aguilar, Auer, Brunet, Peterson, & Wieringa, 2003; Brandsma & van der Meulen, 2008; Fall et al., 2011; Mekis & Vincent, 2011; Menne, Williams Jr., & Palecki, 2010; Parker, 1994; Sevruk, Ondrás, & Chvíla, 2009). In addition, station locations, observation times, instrumentation, and land use characteristics (including in some cases urbanization) have changed at many stations. Collectively, these changes affect the representativeness of individual station series, and particularly their long-term stability (Changnon & Kunkel, 2006; Hausfather et al., 2013; Karl, Williams Jr., Young, & Wendland, 1986; Quayle, Easterling, Karl, & Hughes, 1991). Metadata about changes are limited for many of the stations. These factors impact our ability to extract the full information content from historical observations of a broad range of essential climate variables (ECVs) (Bojinski et al., 2014). Many ECVs, such as precipitation, are extremely challenging to effectively monitor and analyse due to their restricted spatial and temporal scales and globally heterogeneous measurement approaches (Goodison, Louie, & Yang, 1998; Sevruk et al., 2009).
Changes in instrumentation were never intended to deliberately bias the climate record. Rather, the motivation was to either reduce costs and/or improve observations for the primary goal(s) of the networks, which was most often meteorological forecasting. The majority of changes have been localized and quasi-random in nature and so are amenable to statistical averaging of their effects. However, there have been regionally or globally systemic transitions specific to certain periods of time whose effect cannot be entirely ameliorated by averaging. Examples include:
- Early thermometers tended to be housed in polewards facing wall screens, or for tropical locales under thatched shelter roofs (Parker, 1994). By the early 20th century better radiation shielding and ventilation control using Stevenson screens became ubiquitous. In Europe, Böhm et al. (2010) have shown that pre-screen summer temperatures were about 0.5 °C too warm.
- In the most recent 30 or so years a transition to automated or semi-automated measurements has occurred, although this has been geographically heterogeneous.
- As highlighted in the recent World Meteorological Organization (WMO) SPICE intercomparison (http://www.wmo.int/pages/prog/www/IMOP/intercomparisons/SPICE/SPICE.html) and the previous intercomparison (Goodison et al., 1998), measuring solid precipitation remains a challenge. Instrument design, shielding, siting, and transition from manual to automatic all contribute to measurement error and bias and affect the achievable uncertainties in measurements of solid precipitation and snow on the ground.
- For humidity measurements, recent decades have seen a switch to capacitive relative humidity sensors from traditional wet- and dry-bulb psychrometers. This has resulted in a shift in error characteristics that is particularly significant in wetter conditions (Bell, Carroll, Beardmore, England, & Mander, 2017; Ingleby, Moore, Sloan, & Dunn, 2013).
As technology and observing practices evolve, future changes are inevitable. Imminent issues include the replacement of mercury-in-glass thermometers and the use of third party measurements arising from private entities, the general public, and non-National Met Service public sector activities.
From the perspective of climate science, the consequence of both random and more systematic effects is that almost invariably a post hoc statistical assessment of the homogeneity of historical records, informed by any available metadata, is required. Based on this analysis, adjustments must be applied to the data prior to use. Substantive efforts have been made to post-process the data to create homogeneous long-term records for multiple ECVs (Mekis & Vincent, 2011; Menne & Williams, 2009; Rohde et al., 2013; Willett et al., 2013, 2014; Yang, Kane, Zhang, Legates, & Goodison, 2005) at both regional and global scales (Hartmann et al., 2013). Such studies build upon decades of development of techniques to identify and adjust for breakpoints, for example, the work of Guy Callendar in the early 20th century (Hawkins & Jones, 2013). The uncertainty arising from homogenization using multiple methods for land surface air temperatures (LSAT) (Jones et al., 2012; Venema et al., 2012; Williams, Menne, & Thorne, 2012) is much too small to call into question the conclusion of decadal to centennial global-mean warming, and commensurate changes in a suite of related ECVs and indicators (Hartmann et al., 2013, their FAQ2.1). Evidence of this warming is supported by many lines of evidence, as well as modern reanalyses (Simmons et al., 2017).
The effects of inhomogeneities are stronger at the local and regional level, may be impacted by national practices complicating homogenization efforts, and are more challenging to remove for sparse networks (Aguilar et al., 2003; Lindau & Venema, 2016). The effects of inhomogeneities are also manifested more strongly in extremes than in the mean (e.g., Trewin, 2013) and are thus important for studies of changes in climatic extremes. State-of-the art homogenization methods can only make modest improvements in the variability around the mean of daily temperature (Killick, 2016) and humidity data (Chimani et al., 2017).
In the future, it is reasonable to expect that observing networks will continue to evolve in response to the same stakeholder pressures that have led to historical changes. We can thus be reasonably confident that there will be changes in measurement technology and measuring practice. It is possible that such changes will prove difficult to homogenize and would thus threaten the continuity of existing data series. It is therefore appropriate to ask whether a different route is possible to follow for future observational strategies that may better meet climate needs, and serve to increase our confidence in records going forwards. Having set out the current status of data sets derived from ad hoc historical networks, in the remainder of this article, we propose the construction of a different kind of measurement network: a reference network whose primary mission is the establishment of a suite of long-term, stable, metrologically traceable, measurements for climate science.
…
Siting considerations
Each site will need to be large enough to house all instrumentation without adjacent instrumentation interfering with one another, with no shading or wind-blocking vegetation or localized topography, and at least 100 m from any artificial heat sources. Figure 2 provides a site schematic for USCRN stations that meets this goal. The siting should strive to adhere to Class 1 criteria detailed in guidance from the WMO Commission for Instruments and Methods of Observations (World Meteorological Organization, 2014, part I, chap. I). This serves to minimize representativity errors and associated uncertainties. Sites should be chosen in areas where changes in siting quality and land use, which may impact representativity, are least likely for the next century. The site and surrounding area should further be selected on the basis that its ownership is secure. Thus, site selection requires an excellent working and local knowledge of items such as land/site ownership proposed, geology, regional vegetation, and climate. As it cannot be guaranteed that siting shall remain secure over decades or centuries, sites need to be chosen so that a loss will not critically affect the data products derived from the network. A partial solution would be to replace lost stations with new stations with a period of overlap of several years (Diamond et al., 2013). It should be stressed that sites in the fiducial reference network do not have to be new sites and, indeed, there are significant benefits from enhancing the current measurement program at existing sites. Firstly, co-location with sites already undertaking fiducial reference measurements either for target ECVs or other ECVs, such as GRUAN or GCW would be desirable. Secondly, co-location with existing baseline sites that already have long records of several target ECVs has obvious climate monitoring, cost and operational benefits.
Siting considerations should be made with accessibility in mind both to better ensure uninterrupted operations and communications, and to enable both regular and unscheduled maintenance/calibration operations. If a power supply and/or wired telecommunication system is required then the site will need to provide an uninterrupted supply, and have additional redundancy in the form of a back-up generator or batteries. For many USCRN sites the power is locally generated via the use of a combination of solar, wind, and/or methane generator sources, and the GOES satellite data collection system provides one-way communication from all sites.
For a reference grade installation, an evaluated uncertainty value should be ascertained for representativeness effects which may differ synoptically and seasonally. Techniques and large-scale experiments for this kind of evaluation and characterization of the influences of the siting on the measured atmospheric parameters are currently in progress (Merlone et al., 2015).
Finally, if the global surface fiducial reference network ends up consisting of two or more distinct set-ups of instrumentation (section 4.1), there would be value in side-by-side operations of the different configurations in a subset of climatically distinct regions to ensure long-term comparability is assured (section 3). This could be a task for the identified super-sites in the network.
…
There are many possible metrics for determining the success of a global land surface fiducial reference climate network as it evolves, such as the number and distribution of fiducial reference climate stations or the percent of stations adhering to the strict reference climate criteria described in this article. However, in order to fully appreciate the significance of the proposed global climate surface fiducial reference network, we need to imagine ourselves in the position of scientists working in the latter part of the 21st century and beyond. However, not just scientists, but also politicians, civil servants, and citizens faced with potentially difficult choices in the face of a variable and changing climate. In this context, we need to act now with a view to fulfilling their requirements for having a solid historical context they can utilize to assist them making scientifically vetted decisions related to actions on climate adaptation. Therefore, we should care about this now because those future scientists, politicians, civil servants, and citizens will be—collectively—our children and grandchildren, and it is—to the best of our ability—our obligation to pass on to them the possibility to make decisions with the best possible data. Having left a legacy of a changing climate, this is the very least successive generations can expect from us in order to enable them to more precisely determine how the climate has changed.
Read the full open access paper here, well worth your time: http://onlinelibrary.wiley.com/doi/10.1002/joc.5458/full
h/t to Zeke Hausfather for notice of the paper. Zeke, unlike some of his co-authors, actually engages me with respect. Perhaps his influence will help them become not just civil servants, but civil people.
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While I completely applaud Anthony’s efforts to make this happen, I think the other half of the issue is to stop this from being taxpayer funded and make it something that is crowd-sourced so that the funding is voluntary, not forced, and to bring private sector efficiency and transparency. I can’t see any practical use for the information to anyone but possibly the agriculture industry who can pay for it if they want it, and government use of the data can only lead to some sort of predatory policy. And if we had a true climate threat such as global cooling from a volcano, then we would know that without any new instrumentation. If people are that interested in the data then that is what experiment.com is for. Please correct me if I’m missing something here.
Does that statement strike anybody else as ambivalent ?
Isn’t a distorted picture, a picture of questionablequality ? How is the picture “less clear”, unless the means of measuring the quality of the picture is less clear ?, namely the trend and the magnitude of changes? That whole paragraph, then, is doublespeak, saying something and then denying what is said in the same sentence, by changing the first assertion to different words in the second assertion that neutralizes the first assertion logically.
The fact that you mispronounce my last name does not call into question the correctness of your pronunciation. Rather, your mispronunciation acts to make my name less clear than it could be. Bullsh*t.
Once again, skeptics are proven correct.
Yet the climatocracy still refuses to have an open and hones dialog with skeptics.
Measuring global climate from a sparse set of data points 2m from the surface seems a meaningless concept anyway. Only an idiot would try to infer something global from that,
Weather stations at airports are used not because they give good data for the area. But because they that classic climate ‘science’ idea better than nothing.
This is really 101 stuff, if you cannot accurately measure you can only guess, throwing models at it does not change that.
The biggest fault with surface station measurements besides all the ones related to accuracy is that the measurement only applies to that tiny portion of the planet immediately adjacent to the station. Any averaging of readings is only an average of a multitude of tiny localities. This has virtually no relation to an average global temperature. Satellite measurements are slightly better but even they cannot take an instantaneous measurement of temperatures over the entire globe at every moment at any resolution and cannot arrive at a true mean.
It is what we have, however, and they seem to indicate an insignificant warming from a rather cool period in recent history. It probably means absolutely nothing in any terms relative to the human or natural environment.
What is important is the obvious damage being done by government policy based on the absurd predictions of climate models. But don’t get me started on that.
No we want to get you started on that. Rant away .we might learn something in your rant. This AGW nonsense has gone on long enough.
Check out my blog under my other pseudonym.
https://goo.gl/Rdk2cU
LINK TO FULL PDF: http://onlinelibrary.wiley.com/doi/10.1002/joc.5458/pdf
I was proud to be a participant in the audit process – I surveyed and logged most of the climate stations in Illinois. I also gained a healthy respect for the Verizon network. I used my phone as a hotspot for my laptop during the search process and not once, in all the backwoods and small towns in Illinois, did I not have signal.
If Nick says the sun will rise tomorrow in the East, 90% of the people here will disagree with him. When you get that blinkered, you ought to find another hobby.
If there were an article posted here about how the sun will rise tomorrow in the East, Nick would call-out the author for a misleading title and point-out that the sun doesn’t physically rise above the horizon. He spends the vast majority of his time here as a troll. It is particularly funny when he starts trying to address US political history. You, Dick, and Harry can go join him under the bridge.
Tom if Nick can prove CAGW to me I’ll swap sides I have no brainwashed mentality on either side but I can count to 14 so for now for me the ideology of CAGW is just that a religion based on faith not science .
You only need to count to 1 to know that AGW is a hoax. less than 1 C warming in a century.
1: Anthony, thanks for all your hard work.
2: A world temperature is not climate, and a small change in that temperature is not a change in climates. Note the ‘s’.
3: Evidence of a temperature change, or even a climate, is NOT evidence that the change was caused by more or less CO2.
4. Greater access, now, to inexpensive electricity is ethical and honorable. Making electricity more expensive and less reliable, and destroying wealth is neither ethical nor honorable.
5. I asked a surgeon how the medical folks determined a “go – no go” decision for elective intervention on a person with a condition that was slowly getting worse and might someday become critical.
The answer was the exact opposite of the precautionary principle. The intervention (surgery) is dangerous. If the patient will not notice a better life, there is not reason to go forward.
Likewise with CO2 and global warming. There is no justification for destroying the society that has been and is being created unless it can be shown there is a need and the solution(s) will work.
We are not to that level of understanding.
Great comment.
We must be cautious about surrendering to “The Precautionary Principal”.
I’ve read the article, and while I am glad to see that someone is finally using some common sense in regard to weather stations and how they should be placed, there is one thing that is seldom addressed, but should be.
That is how to get the meteorology people as a collective group to stop using bombastic advertising language in their opening or headline statements. At this point, Accuweather is the worst of the bunch, employing terms like ‘bombogenic’ and ‘bomb cyclone’, as if sever storms are something new, or inventing terms like ‘windmageddon’. I know this a means of drawing attention to their website, and, they hope, more traffic, but it is amateurish and makes them difficult to take seriously when they do that.
If you could address something like this – take The Howling out of the weather forecasts – it is badly needed.
Good article, Anthony. I enjoyed reading it. Small steps are what it takes to get things done.
Accuweather censors their blogs. Alternatively, the inhabitants therein all band together to spout the usual alarmists talking points while smeaing anyone who dares voice a different opinion.
The govt. NWS meteorologists do not have that problem – they don’t need to ‘sell’ weather but they have a mission & responsibility to convey a potential dangerous and/or life threatening situation when it occurs (tax dollars hard at work). However, folks like The Weather Channel, AccuWeather, etc. as well as CNN, MSNBC, etc. *do* have a need to ‘sell’ weather when it is in the headlines…and there is where you have your problems. That is why I have problems when people want to privatize aspects of govt. There is no profit in meteorology because it is (I believe) a moral obligation of the govt to protect life and property of it’s citizens and if it is driven by profit, you either have to glamorize the headlines to sell advertising or make people pay for warnings.
Well…’bomb cyclone’ & ‘bombgenesis’ are popular but valid terms used to describe explosive cyclogeneis (>24mb pressure fall in <24 hrs) and when those situations impact the public, the public needs to know the potential threats which will occur in a short time span. It won't be just cloudy & showery but heavy precipitation and high/potentially damaging winds for a potentially extended period.
https://oceanservice.noaa.gov/facts/bombogenesis.html
just my $.02
The govt. NWS meteorologists [generally] do not have that problem…but they can sometimes get enthusiastic 😉 (fixed)
JKRob, your big problem is that you only see the problems you want to see.
Yes, companies can and do use strong language to try and convince people that they need to use the companies products.
Your error is in your belief that governemt workers are immune from this temptation?
How many government agencies have used bombastic language to convince the people to call their politicians and protect the budget of X, Y, Z department?
Nobody at the EPA goes around trying to convince people that ever smaller levels of pollutants are going to kill us, therefore the EPA needs a bigger budget?
Just look at all the AGW alarmists who are constantly trying to scare people to justify their salaries.
The only difference between private companies is that private companies can’t force you to buy your products, nor can they jail you for disagreeing with them.
The government’s hurricane reporting service has over-hyped hurricane speeds and other metrics for at least the past 5 years. WUWT threads on individual hurricanes contain complaints about this.
(The excuse for the alarmism is that they are trying to get people to take the warning seriously and button down / get prepared / evacuate. But if they cry wolf regularly, people will take them LESS seriously.)
And they should stop giving thunderstorms names.
All of the above, including Accuweather’s censoring its website, and “selling” the weather to the public when it isn’t a product – all of these make them look VERY amateurish.
i sent Accuweather an e-mail telling them politely that their local weather station’s readings were incorrect and they might need to have someone check it, as it gave a reading that included cloudy and raining on a day when the weather was a clear, bright blue, sunny sky from the western horizon all the way out to Lake Michigan, and NO rain. The response I got was ‘we rely on our weather stations for accuracy’, ‘we take our job seriously’ – blah, blah, blah, but no acknowledgement that something was out of whack.
Weather Underground is better, letting you use readings from several weather stations which they show on a map.
Yes, weather guessers should stop naming thunderstorms. That is childish.
I have taken to looking out the windows or the front door. I have to get my own weather station. This just gets silly. Thanks for your responses.
This is clearly a step in the right direction and about time too.
With a change in the Sun Cycle and President Trump already looking on Global Warming as a hoax the ramifications are enormous.
Anthony, that is not an ASOS but a US Air Force AN/FMQ-19 or Fixed Base Weather Observing Systems (FBWOS) that was install by Coastal Environmental Systems of Seattle under contract with and supervision of the weather program office at Hanscom AFB, MA. We used the same 10 meter tilting wind tower as the FAA and NWS ASOS systems, but that is where the comparisons stop. Link below is to a briefing about systems handled by the Hansom office, including the FMQ-19.
http://www.afceaboston.com/documents/events/cnsatm2011/Briefs/01-Monday/08-Dreher-HBAJ%20WeatherOverview.pdf
As a meteorologist and supervising systems engineer for about 30 of the 110 projects, I constantly had a hard time agreeing with or feeling good about the location of most of them. We were guided by very strict FAA requirements for placement on airfields to avoid being an obstacle to flight. These CRN systems are placed there under the same restrictive guidance and will be no better in data gathering other than they will be more accurate than the FMQ-19. I know of a few FMQ-19 placements, including the very first one at McChord AFB, WA (Now Joint Base Lewis-McChord) that are tainted for temperature, and likely dew point, measurements. There was, and should still be, very specific guidance for placement of each sensor in regards to the surrounding area. When these consolidated systems came along, it became much harder to satisfy all the requirements equally and we were forced to accept locations that were less than optimal based on the overriding FAA safety of flight rules for airfield structures.
I admire your efforts in bringing these problems to light and thank you for your time and energy in educating us all.
Thanks, one similarity appears to be that they both use the HO-83 Hygrothermometer, at least from the photo that is what it appears to be. Unfortunately, my “handler” wouldn’t let me go over and inspect it first hand.
At one time I was officially referred to by most agency’s bosses as their resident cynic and skeptic. Also after working on a research project where we developed the best data set for any marine fish in the Atlantic Ocean we were forced to turn it over to the NMFS. That data set was never the same afterwards. Even though we pointed out where they had changed our data, which they had promised not to change, they claimed their models required the data be adjusted. We never received a good explanation as to why. Before I discovered Anthony Watts work with weather stations I knew we had a problem with weather stations. I knew of stations that had moved, stations that seldom saw upkeep, stations where instruments were replaced with no comparison to the instrument being replaced even though still functioning. Anyway, the idea of an improved data collection system is a wonderful idea. My concerns are the gatekeepers and other involved in maintain the stations, collecting and reporting the data. Is there a standards/ operating manual for properly maintaining the station and collecting and reporting data from each station. As one of my staff said during a meeting where another division was trying to get us to spend money on some federal mandate to get matching funds. “Why should we trust this to work at all?” The answer actually was, “we are a government agency, just trust us.” At which point my staffer said, “Trust hell, I have worked for government way too long to trust it.” Finally she said, “I guess we have to trust but verify.”
This is all fine, good and necessary. But my pet peeve from an engineer’s perspective is that air temperature alone is totally inadequate if you’re trying to monitor warming or cooling, otherwise known as changes in heat content. Minor changes in relative humidity produce drastic differences in the amount of energy contained in a given volume or mass of air. To the extent that several degrees of temperature change become irrelevant. If I try to run a heat balance on a system and i don’t have the accurate heat content of the components the calculations are going to be garbage. Which is why i shake my head every time they trot out a new, brightly colored temperature map of the world.
My thoughts exactly. If you are going to design and deploy a new measuring system, it should be a requirement to measure what is really needed – heat content, not temperature. Otherwise, you are equating the heat content of a station at 9000 ft. on the leeward side of a mountain range to a station at sea level on the coast. That would be ridiculous! The whole conversation needs to be changed away from temperature to heat content.
I give you full credit Anthony for having brought this issue to the forefront. I have the uncharitable thought that for the ideologues running these terribly compromised stations, they served to make adjustments as part of the plan. How reasonable it sounds that gee we have to adjust these stations because they are obviously off. They aren’t wrong on the face of it but it ran a cover for “algorithms” that Mark Steyn described best in a Senate hearing on quality of data: How can we know with certainty what the global temp will be in 2100 when we don’t even know what the temperature WILL BE in 1950!
I notice also that they have switched the message to a simple ‘Despite the status of the network we know that the weather has warmed since 1800.’ They leave the reader to conclude that this is because of our energy sins. My older Russian friends pick up on this kind of propaganda instantly.
Neither do most of the so called scientists on the AGW bench.
BTW, since you are such an expert in logic, surely you would be able to recognize what you just did is called ad hominem.
Rob Bradley delivers another laugh, sorry it took me this long to see it. Yes, Rob, Steyn dropped out of school; yet he bashes down the walls of CliSci’s strongholds so effectively that little science-site tr0lls like yourself can’t let his name be uttered without trying (failing) to slur him.
Nick Stokes March 2, 2018 at 12:19 pm says “Of course you can verify. The unadjusted data is available. You can calculate the index with no adjustment at all, if you prefer. It makes very little difference.”
Relevant to Australia, Nick, you must know that the full scientific job of verification has not been done, by you or any others I can find. You mainly count the number of plus adjustments and compare this count to the minus adjustments, say they are about equal, claim end of story.
This counting method does not address for example the charge, often levied, that the adjusters have cooled the distant past and/or warmed the near past to give an exaggerated warming trend.
The thorough way to verify uses not just the sign of adjustment, but also the magnitude of the adjustment, its duration and its potential on the time line to leverage regressions on which trend estimates are often based.
So here is a challenge. You know my email, we are both in Melbourne. You have access to facilities that I do not. I know how to do the exercise. Will you work with me to do the job properly, once and for all?
Here is a graphic example of my motivation. BOM state in a public report from 2016 that “The duration, frequency and intensity of heatwaves have increased across large parts of Australia since 1950”. The first non-northern case I tested the other day was Brisbane, result was this –
http://www.geoffstuff.com/35cdays.jpg
I had been working on another claim that was more affected by adjustment, that “The duration, frequency and intensity of heatwaves have increased across large parts of Australia since 1950”. Part of this compared how heatwaves were affected by adjustment, specifically raw CDO versus the BOM adjusted ACORN-SAT. Here is another first graph, this for one-day heatwaves as I computed 1, 3, 5, and 10 day heatwaves – Geoff.
http://www.geoffstuff.com/cool_sydney.jpg
Geoff,
“You mainly count the number of plus adjustments and compare this count to the minus adjustments”
No, here I am just calculating the global average (which is the most widely cited figure) with and without GHCN adjustment.
I think I have your email, but if you have mine handy, please drop me a line.
Nick,
sherro1 at optusnet dot com dot au
Oh bum. The first BOM claim should have been
““The number of days per year over 35 °C has increased in recent decades, except in parts of northern Australia.” – but the top graph was correct. At a major population centre, a change of 64 days to 4 days is hardly an increase, is it? Apologies, Geoff.
Perhaps this has been done before, but the problem of poor siting can be somewhat offset by working with normalized data, the temperatures at each time at the site divided by the temperature there at a given starting time or perhaps by the mean temperature over a set period, a year or a multiple number of years, then observing the trend of the normalized variables. The impact of “high” or “low” sites would be mitigated this way and trends made less obscure.
“buggy surface COOP and GHCN network and it’s highly biased and then adjusted data” Hey – I’m a COOP observer and I’m not biased. And all the effort I put in to keep my reporting consistent and accurate is purely volunteer, I get absolutely nothing for my efforts. Thanks a lot.
I know many of the observers personally, and this is not an indictment of any individual, but of the management of the COOP network by NOAA. I realize that many observers like yourself are truly dedicated/ What happens though, to those dutifully obtained observations is that they often get adjusted. That’s the biggest issue. That is where the bias comes from, not the observer.
Where I work we don’t report temperatures. We do report precipitation. When that is snow or ice, we melt it to get our number. When that’s been my job, I try to report the most accurate number I can.
What happens to that number after it is reported…, well, I did my part honestly.
Another Scott,
Keep honestly reporting the numbers. What others do with them is on their heads.
Anthony gets that.
(Have I ever mentioned how the record high and low temperatures for my little spot have been “adjusted”?8-)
Thanks Anthony, sorry to be such a snowflake :/ ….must remember to count to 10 before making a terse comment….
Dear Another Scott,
The complaint has not been about the observer, the complaint has been that the adjustment process is not fully vetted, tested, and verified. Rather, the adjustment process is undertaken by biased individuals whose reputation, credentials and politics have a lot riding on the outcome of the adjustment process.
Perhaps there is a more diplomatic way to put this . . . but bluntly: those in charge of the adjustment process assume that your fellow COOP observers are too stupid to realize that they are reading yesterday’s temperatures rather than today’s; therefore they put in a Time-Of-Day adjustment which accounts for something like .7 degrees of the warming in the adjusted series.
“those in charge of the adjustment process assume that your fellow COOP observers are too stupid to realize that they are reading yesterday’s temperatures rather than today’s”
No, they assume that the observers read and accurately reported the readings on the min/max thermometer at the arranged time. The observers don’t, or shouldn’t, report other values (except current temperature, in another place on the form).
Bad data, good data, fake report
Here’s the source article for that graph:
https://realclimatescience.com/2016/12/100-of-us-warming-is-due-to-noaa-data-tampering/
It’s Tony Heller’s work. I haven’t checked it, but he’s usually accurate.
1,500,000 penguins found in East Antarctica. It seems the scientists either took 2 years to count the nests or else they were deciding how to fit this discovery into the AGW hoax. They are still spinning the tale that penguins have been declining in west Antarctica. Well apparently these penguins in East Antarctica have been living through the whole industrialization of mankind era and they seem to be surviving quite well because the temperatures in East Antarctica are as cold as ever. AGW hoax exposed again.
https://www.cnn.com/2018/03/02/health/penguins-antarctica-massive-colony-trnd/index.html
Alan, those penguins aren’t in East Antarctica. They’re at the very tip of the tip of the Antarctic Peninsula, which probably has just about the mildest climate in all of Antarctica:
http://sealevel.info/danger_islands_680x461.jpg
Yet we’re supposed to believe that warming threatens the penguins? Seriously??
Actually, the penguins seem to prefer a warmer climate than most of Antarctica currently has. Unfortunately for the penguins, “polar amplification” of global warming seems to only work in the northern hemisphere (and nobody knows why). Even the Antarctic Peninsula (contrary to widespread misinformation) isn’t warming significantly, and Doran et al 2002† found that, although the Earth as a whole experienced 0.06°C/decade of warming during the 20th century, there was “a net cooling on the Antarctic continent between 1966 and 2000, particularly during summer and autumn.”
† Yes, that Doran!
I applaud the efforts that WUWT has made over the years regarding the proper placement of weather stations and the obvious failure of so many stations to provide so so accurate data, knowing what we do about the present placement of some of the weather stations. Or how some of that inaccurate data may have be massaged to get the biased confirmation that was sought. Much of this adjusted data is what has been used to determine that the earth has had increasing temperatures. Or a complete fabrication of the temperature record in some cases, by some climate scientist activists.
As someone already pointed out up thread about getting a new weather station network:, “Better late than never”. Designing and siting a whole new generation of accurately recording weather stations and proper sites should be one of out highest motivations in weather data collection, as well as to form the basis for any future policies regarding future weather and climate and to be able to show scientifically that the information was recorded accurately. And how would future generations be able to compare our older historic data from now on in, if we don’t get it right this time? We owe it to ourselves and future generations to start this accurate data collection now.
I would suggest that any new weather station network that is developed utilize a real time Blockchain application that ensures that every individual weather station represent actual data collected as incorruptible. In other words, the raw data every 5 minute interval is recorded and distributed and is forever the same data and not able to be tampered with in any possible future scenario. A simple blockchain ledger of the information would ensure the data is forever incorruptible. We have seen ‘adjustments’ to questionable weather stations, supposedly to try and make them read accurate. However, that leads many to question if original raw data records are correct, and what conformation basis was utilized by those doing the adjusting.
Let’s not make that mistake again either.
I suspect that a data-set that is constantly in need of adjustment will prove just too useful to let go.
Phil Jones retired as Director of CRU in 2017. His successor, Tim Osborn, is not a co-author of this new paper.
Again, something I’ve advocated doing for a while. But it needs a proper budget – and it needs real engineers doing it and not “I don’t know how to use excel but I’m sure it’s warming” academics.