Guest post by Rud Istvan
Fabius Maximus alerted Charles the Moderator to a new alarming ‘agitprop’ paper in Nature Communications (here) concerning global warming induced sea level rise (SLR). Since I previously contributed to WUWT on SLR and its lack of acceleration, CtM asked if I would provide a guest post reviewing this new SLR paper. I read it and explain below why you don’t have to. The post title is h/t to Fabius Maximus’ alerting email to CtM.
The alarming new paper by Kulp and Strauss is titled (paraphrased) “New DATA triple estimates of SLR vulnerability”. One knows immediately that agitprop follows, since the paper is about a new way to model coastal land elevations. Models produce data only in alarmist climate circles.
The paper has two parts. The first is a new way to remove a known high bias in coastal elevations derived by SRTM (satellite altimetry like that used to estimate SLR). The land problem is that satellite altimetry ‘sees’ the land’s top surface, not the actual land underneath a forest canopy or a cityscape. The alternative much more accurate and expensive method, airplane flown LIDAR transects, has only mapped the US and Australian coastal regions of those two wealthy countries. Comparison shows an SRTM positive US median bias of +3.7 meters!
The new method used for SRTM bias correction is a software neural network (a form of artificial intelligence, AI) incorporating 23 variables. The AI was trained on the US LIDAR/SRTM discrepancy, and then validated using Australia. That is a robust AI software methodology. Good work.
Unfortunately, the AI bias correction was good but not great. For those two countries, AI cut the root mean square error (RMSE) of SRTM compared to LIDAR ‘roughly in half’ (translation, to ‘only’ ~1.8 meters). The discussion in the paper uses South Florida as a physical example of the remaining causal bias. The neural network failed because South Florida’s coasts are densely populated with many high-rise condos (in between is a virtually uninhabitable Everglades), compared to the entire US coastline it was trained on. As an example of new AI induced error, the AI model applied to ‘current’ global coastal populations estimated that 110 million people already live below mean highest high water (MHHW). Which is sort of true for Miami’s South Beach during King tides, but way more people than just Dutchmen on their polders. I give kudos to the authors for being honest and illustrative about the remaining and newly introduced SRTM uncertainties after their AI ‘improvement’.
My only criticism of this first part is that the paper explicitly did NOT make the AI code available to scrutinize for logic and coding mistakes.
With this new AI model of SRTM bias ‘sort of firmly except not’ in hand, the bulk of the paper then uses it to TRIPLE SLR climate alarm.
To do that, the paper starts with a survey of some (ten to be exact, footnotes 3-12) of the many already alarming SLR papers that exist. The paper uses some of the usual suspects WUWT has previously discussed, including several WAIS instability speculations. That survey concludes +20-30cm of SLR by 2050 (so SLR had better hurry up and start accelerating), and +70-100cm by 2100 for RCP4.5. By comparison, most serious observational SLR papers predict less than 20-30cm by 2100 under business as usual, not a meter under RCP4.5. No SLR acceleration is evident in long record differential GPS corrected (for vertical land motion) tide gauges. So ~2.2mm/year with closure equals about 22 cm for the 21st century. The climate alarm survey bias is evident from that fact alone.
It then proceeds to model how many people end up under water. The first scenario illustrated in the body of the paper (most are in the SI) is ‘median K17/RCP8.5/2100’. It is the basis for the climate disasters illustrated by paper Figure 1 for the Pearl River Delta, Bangladesh, Jakarta, and Bangkok. (I checked the paper MSM PR. Figure 1’s Bangladesh and Bangkok are very popular.)
This scenario identifier needs explicit decoding, which no one I could find in the MSM PR about this paper, or using parts of Figure 1, has yet done.
1.Checking footnotes, we find that this new paper’s SLR scenario K17 expressly ‘includes early onset WAIS instability’. The old and thoroughly discredited ‘WAIS slides into the sea’ about Pine Island Glacier and the Amundsen Embayment.
2. RCP8.5 is the physically impossible but real bad one from AR5.
3. 2100 is sea level that year, based on CMIP5 climate models that provably run hot in the tropical troposphere by a factor of over 3x.
Applying that doubly impossible and 3x hot erroneously climate modeled scenario to the ‘current’ populations of global coastal areas, the new AI model ‘data’ shows that over 400 million people will be flooded out. The paper then carefully notes that the actual climate impact will be much worse because of population growth—so the new estimate is conservative.
Still high bias understating disaster! Conservative estimate! Triply alarming!
NOPE^3.
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What has always intrigued me is how do you project Glacial ice melt due to air temperature? Glacial melt principally occurs due to the direct absorption of sun light from what I have read. Air has a puny heat content by contrast. Further complicated by the air ice interface. Does anyone know how they do the calculation?
Most of the UK flood mapping is based on LIDAR. It only proved that the Ordnance survey were exactly right 100 years ago.
Stripping back LIDAR to a bare ground model to negate the effects of built up areas and vegetation has exercised the flood mapping community for some time.
However once you get a bare ground model it doesn’t tell you which buildings will flood, as you stripped the building level information out.
The old maps are just as good as the new maps for emergency planning.
Nice to be reminded what great engineers our ancestors were. I’ve often wondered if anybody today would tackle designing the Golden Gate Bridge with only slide rules…
In the UK we do not need a model to tell us where we are.
Over 100 years ago the Ordnance survey worked out exactly where Mean Sea Level is relative to all our coastline. So please shove your model where the Sun doesn’t shine!
Geodetic levelling of the UK
Starting at Newlyn and working its way to every corner of England, Wales and Scotland, this process was all done manually using land levelling equipment. From this primary network, secondary benchmarks are set up and these are in turn used to level in the tide gauge pressure points, thereby referencing all tidal monitoring points to the same datum, and each other.
There were some extremely high and low waters at the start of the 20th Century, and I can find no explanation for this.
Any conclusions based on RCP 8.5 should immediately be round-filed, but I have a better idea. Peer reviewers should have forced the following statement in the Abstract: “probability of this paper’s conclusions being valid = Probability of RCP8.5 x Probability of WAIS collapse before 2100”. Since both values are vanishingly small, that would pretty much put this paper to bed…
I’ve concluded that RCP 8.5 was only created so academics and others could wite impactful papers.
Those wascally academics!
All the extrapolation curves shown use quadratic or exponential growth. In my paper (now corrected for typos)
https://drive.google.com/file/d/17lXnNtsLSlzSOx7tRvbDPwYMDibpvXKG/view?usp=sharing
I show that a sinusoidal curve is just as good a fit. In the paper the period of 770 years was just an eyed in guess and could have easily been a bit longer in line with the approximate 1000-year intervals between warm periods. Using a 1000-year curve points to an amplitude of nearly +/- 300mm with the next peak in 230 years at about 200mm above todays values. The previous minimum is shown as in about 1750 (mini ice age!?). The velocity based on the 1000-year curve is just peaking at about 1.6 mm/year and the acceleration has just turned negative. As discussed in my paper underlying velocities and accelerations are greatly changed over short time scales by decadal ocean oscillations (20 to 60-year range) that appear both in the Tidal and Satellite readings (see figs 14, 15, 23 and 24). These show up as residuals between actual measured levels and smoothed long-term trends as shown in Appendices 2 and 3.
The sinusoidal patterns are interesting in light of what I have recently been wondering about: changes in tides from year to year. This came up as a consequence of our boat club president commenting that there had been more 17 foot tides this year than in previous years, and the breakwater needed maintenance. A quick google search suggests about a 10 year period for fluctuations in tides.
I wonder if the tidal phenomena relate to the sinusoidal pattern in the residuals.
There is a variation in lunation with a period of ~8,8 years and we are currently near the maximum so that may be the effect you are seeing.
The sinusoidal curves are very interesting. Wavelet analysis of the Church and White global sea level reconstruction shows strong 18 yr and 50 yr periodicity pre-1940 and a weaker 50 yr and 20-30 yr periodicity post-1940.
https://imgur.com/a/gHtyTa2
I can make debunking these propaganda papers masquerading as science even easier. Take a moment to skim the abstract. If it mentions “climate models”, CMIP, or “carbon scenarios”, it’s using projections based on climate models and can be immediately rejected as unscientific. The models have been never been validated. They are grossly inaccurate when checked against observations. See, for example, this graph from IPCC AR5 (2013) highlighting how badly they overstate warming:
Any paper based on CMIP projections is a scientific sham, period.
Great analysis by Rud, as usual! Two additions..
(1). The ‘median K17/RCP8.5/2100’ scenario is not just extreme, but bizarrely unlikely. Using it as, in effect, a base case would be malfeasance in other fields. RCP8.5 is Somewhere between unlikely or impossible. Ditto for West Antarctica instability by 2050.
The odds of both by 2050 are microscopic. That this conclusion went thru peer review shows what a farce this has become for climate science.
(2). There are harsh words in the comments about AI. As people in that field say, “AI” is just cutting edge software. Once a method becomes widely used, people no longer consider it AI.
Also, the authors run rigorous validation checks on their methodology, and clearly state the resulting uncertainties. This is too rare in climate science. They should be commended for it.
Thanks Rud,
… and ctm, and David M., and . . . others
A flood model is only as good as the actual flood you calibrate it to, there are so many variables, elevation is only one.
An uncalibrated flood model is of little use for planning anything, and if you wish you can just make things up.
Not just “grossly inaccurate”, but anti-science nonsense. There is no science involved in climate models as we now can see from Frank 2019 and Thompson/Smith 2019.
People, please stop denying that ocean level is NOT rising at an alarming level, I have first hand experience. Just two weeks ago I went fishing off Newport Beach, CA, about 15 miles from the shore; the ocean level looked much higher, then it did three years ago( the last time I was out there) significantly higher. I’m encouraging all my friends and family to immediately abandon their beach front homes in Newport Beach, Sunset Beach and Mission Beach and move to higher ground; say Bakersfield, Fresno, Ridgecrest.
I had the same epiphany while I was flying over the Atlantic Ocean in my private jet; you look down and you can immediately see how the Ocean level has risen.
Genesis 9:11 God said. never again will I destroy the earth with a flood. What you need to concern yourselves with is the fire that will come one day.
A sure sign this paper will be used for mass media agitprop is that it is “open access”.
Expect wide fear mongering articles from the usual suspects…
“… LIDAR transects, has only mapped the US and Australian coastal regions of those two wealthy countries.”
What is a wealthy country? It is one with abundant natural resources, particularly energy, and the infrastructure to provide its citizens with adequate and dependable inexpensive energy. The inexpensive energy allows the country to produce sufficient food and building materials so that its citizen’s needs can be met without shortages, interruptions, or exorbitant costs for essentials.
The way things are going, California may find that it soon will not meet that definition because of the costs of energy, taxes, and insurance rates. If the high tech companies start leaving the state for states with more reliable and affordable power, it will exacerbate the situation for those who can’t leave.
“The alternative much more accurate and expensive method, airplane flown LIDAR transects, has only mapped the US and Australian coastal regions of those two wealthy countries.”
Nonsense. How many densely populated coastal areas are there that have:
1. No accurate altitude data.
2. Are covered by dense forest.
Note that any area mapped by any other method than satellite altimetry is immune to this problem. That includes any area reasonably accurately mapped before c. 1990, which would include at least almost all of Europe, most of North America, Japan and coastal Australia.
Does anyone seriously believe that e. g. in Thailand they have no idea what the ground level is in Bangkok?
The problem is that the authors of the paper have belatedly recognised that the satellite DEM that has previously been used was completely inadequate for the purpose. You are of course correct that virtually every coastal community uses much higher quality topographic data to measure levels, so have a very good understanding of the effects of inundation, whatever the cause, in their area. Photogrammetry from aerial photography has been providing accurate levels of urban areas for about a century now.
This application of “AI” to inflate sea level rise sounds more like a mechanical Turk. An activist hiding in a box.
Phil, “Mechanical Turk”, “Activist in a box” sounds like Zoltar from the Liberty Mutual commercials – not sure if you’ve seen them, pretty hilarious.
Here is Andrew Bolt’s interview with Daniel Fitzhenry a few months ago, concerning mean SLs at Fort Denison at Sydney Australia.
So far the BOM mean SL data shows it is lower today than in 1914. And Fitzhenry points out that it rises and falls by about 15 cm ( 6 inches) over the last 105 years.
The data is shown onscreen per decade up to 2019. How can these con merchants get away with so much of their deceptive nonsense?
Thanks to Bolt and Fitzhenry for telling us the truth.
Here is the full Govt BOM data for MSL Fort Denison Sydney NSW since 1914. Note it is lower today than 1914.
Also most of the island states have more land area today than just 30 years ago. Looks like coral atolls haven’t changed much since a young Charles Darwin figured this out in 1836.
See Kench et al, Duvat et al studies etc. Here’s the BOM’s MSL data since 1914.
http://www.bom.gov.au/ntc/IDO70000/IDO70000_60370_SLD.shtml
Neville
There are over 1500 tide gauges in the PMSL data set. Less than a half show negative trends, and the rest show positive trends.
PMSL station 196 aka Sydney, Fort Denison 2, shows (without VLM correction) a trend of 1 mm/yr over 105 years.
So what!
In the UK we do not need a model to tell us where we are.
Over 100 years ago the Ordnance survey worked out exactly where Mean Sea Level is relative to all our coastline. So please shove your model where the Sun doesn’t shine!
Geodetic levelling of the UK
Starting at Newlyn and working its way to every corner of England, Wales and Scotland, this process was all done manually using land levelling equipment. From this primary network, secondary benchmarks are set up and these are in turn used to level in the tide gauge pressure points, thereby referencing all tidal monitoring points to the same datum, and each other.
There were some extremely high and low waters at the start of the 20th Century, and I can find no explanation for this.
Link to their website:-
https://coastal.climatecentral.org/
In the audio ( https://www.rnz.co.nz/audio/player?audio_id=2018720411 ) at 1min40sec in Dr Ben Strauss explains the inaccuracies of the NASA satellite. He mentions the area of signal beam that NASA uses is some 30m diameter and therefore captures roofs etc sending back a noisy signal giving incorrect data.
Is that true? Surely NASA aint that dumb?
Then he says that they get their data from aircraft with pin point laser measurements. As a layman I ask, how accurately does an aircraft fly to know whether or not the land is going up or down or the aircraft?
Replies please.
Rud Istvan,
Thanks for the review and revelations. Much appreciated!
“actual climate impact will be much worse because of population growth”
Kind of hints at the mentality of these activists. They just need to lead stupid people into the light (or away from the prime beach front property). You can’t expect them to have already started building new housing on higher ground.
In a collegiate spirit, might it be added that Judith Curry at Climate Etc did a rather thorough job of analysis of alleged acceleration a few months ago. It is hard for authors to make special pleading when the main evidence is so strong – but some diehards persist against the odds. However, the slow creep of the special pleading is becoming a worry. Geoff S
I lived on a beach side property in Melbourne, Australia for over 50 years, beginning in 1955. I mean my back gate was the beach.
I have seen the beach width alter many times over those years and I was there recently to scatter my late sister’s ashes.
You know what?
It is just the same. Someone might produce data that says sea level has risen and if so it is within the parameters of us sceptics!
More fear mongering carp!
Meanwhile, in the real world, much is known from observations about the effects of tides on coastlines. In the UK, this is the situation on the Eat coast in the county of Lincolnshire (I’ve lost the source reference for what follows, but there’s plenty about the British East coast on the internet):
Storm waves off the Lincolnshire coast are around 3 – 4 m in height with a 10 – 12 second period. The highest significant wave height was 3.5 m and recorded at Chapel Point. Chapel Point is the frontage that received the highest waves with the most energy. The highest waves in each year all occurred during March storms. The main wave direction is east to north-east with high storm waves coming from the north east. The gentle gradient of the near shore shallows reduces wave heights as they travel towards shore. Banks and overfalls are also features of the Lincolnshire bathymetry that modify incoming waves. The strong current system off the Lincolnshire coast is presumed to have the dominant effect on waves. The flood tide progresses south along the Lincolnshire coast and extends the wavelength of swell waves coming from the north. In turn, the ebb tide compresses the swell and counteracts the progressive energy of waves from the north. This leads to a steepening of waves, shortening the period and dissipating energy. This influence is combined with the energy loss and wave attenuation caused by the bathymetry. This means that despite a flood tide conserving energy, the stretched wavelength encounters the effects of bed friction earlier. The alongshore currents also cause wave refraction and it is presumed the dominant waves from the north-east will be directed to the south. Longer period waves identified in the peak period distribution plots and refracted waves may focus more energy and have a greater impact on sea defences and possible breach points. The tidal range is greatest to the south of Lincolnshire, and the highest tidal levels are shown to be at Skegness.
A dose of reality – waves up to 4m in height, contrast this with silly alarmist claims about millimetre rises in sea level due to CO2!
Carbon500
Thanks a lot for these lines reflecting a reality you experienced. On this blog, such comments unfortunately are exceptions.
There will be a lot of places looking like what you describe, and lots of others showing the inverse:
https://drive.google.com/file/d/1kLZZQH-zQjkWMvwT72JxAM34cLPOUjMr/view
I couldn’t find any UK tide gauge located around your Chapel Pointin the PMSL data set.
But there is for example CROMER
1632; 52.934361; 1.301639; CROMER
https://www.google.de/maps/place/52%C2%B056'03.7%22N+1%C2%B018'05.9%22E/@53.8385498,-2.4996304,7z/data=!4m5!3m4!1s0x0:0x0!8m2!3d52.934361!4d1.301639?hl=en
which shows, for 1993-2013, a rise of 11 mm / year. That’s a little bit more than the worldwide average of all gauges for 1900-now (1.5 mm / year).
Still not that dramatic, but not necessary negligible.
Thanks for your comments, Bindidon. Something I never see discussed is all the factors which affect sea level in a given locality. My own view is that ‘global’ doesn’t mean much. Factors such as erosion, silting-up, sediment transport, compaction, deep ocean sea bed changes and more all have an effect – yet it’s always CO2 that the alarmists and media bleat about!
The Lincolnshire coast as a whole suffers from sea erosion, and is regularly subjected to what’s called ‘replenishment’ – effectively building beaches up with sand pumped via giant pipes from elsewhere in the sea – my apologies if you live in the UK and already know this!
Cromer has its own complex erosion-related problems:
https://www.north-norfolk.gov.uk/media/3084/cromer-coastal-strategy-study.pdf
Subjectively, visit Cromer and it’s the same as it’s ever been – it’s certainly not in any danger of submersion from rising seas.