Guest Post by Willis Eschenbach
For years now, folks have searched desperately for the “fingerprints” of human climate change. These are things that are supposed to reveal how and where humans are affecting the climate. One of these fingerprints, which is alleged to be a sure and certain harbinger of the thermal end times, is the appearance of the long-awaited “First Climate Refugees”. The UN IPCC confidently forecast that there would be 50 million climate refugees by 2010 … we saw none. But before that there were supposed to be climate refugees from the coral atolls of Tuvalu … which turned out not to be sinking but instead expanding in area. So I guess they were the First Climate Refugees, and since it turned out there weren’t any climate refugees from Tuvalu, that makes the missing 50 million the Second First Climate Refugees.
Then the Third First Climate refugees were supposed to be in Bangladesh, but that turned out to be a recent squatter settlement on one of the many silt islands that appear and disappear in the river mouth there, once more nothing to do with climate.
In each case, of course, the people involved were widely touted as “the First Climate Refugees”, and like the first robins of spring, were predicted to be the first of many such occurrences … but they were never the first, because no refugees actually appeared. Plus there have been some more, I think the folks from Shishmaref Village in Alaska were something like the Fifth First Climate Refugees.
As a result, when a friend of mine said he was concerned about reports of a village in Alaska which was going to be lost and the people become refugees, I figured it was the old favorite in that regard, Shishmaref Village. But it turned out that he was talking about the latest poster child, the Sixth First Climate Refugees, a village called Newtok in Alaska. And I’ll get to Newtok, but first, I went back to see what I could find out about Shishmaref, and it’s hilarious. Shishmaref was said to be eroding away because of CO2 leading to less ice, leaving open water for storms, which erodes the foreshore … Figure 1 shows the damage we’re talking about.
Figure 1. Erosion damage along the foreshore at Shishmaref, Alaska. SOURCE: NOAA
Clearly, there are serious problems. At the time the Shishmaref news came out, a few years ago now, I figured “Meh, erosion, what’s new”? But it turns out I was wrong, there is something new. And what does NOAA say about the problems? Well, after a ritual obeisance to the CO2 alarmists, they get to the actual causes of the erosion shown above, saying:
Erosion at Shishmaref is somewhat unique along the islands because of its fetch exposure and high tidal prism, relatively intense infrastructure development during the 20th century, and because of multiple shoreline defense structures emplaced since the 1970s.
Erosion rates along the island front exceed (and are not comparable with) those along adjacent sectors. Erosion is occurring along the entire island chain, but it is exacerbated at Sarichef Island [where Shishmaref is located] in part because of the hydrographic impacts of hard armoring of a sandy shoreface and permafrost degradation that is accelerated by infrastructure.
So it turns out that the erosion is not from global climate change, or global anything. If it were it would affect the other islands. Instead, the problem stems from previous efforts to protect the foreshore that had unintended consequences. What they did was to “hard armor”, which means lay a solid layer of rocks on, a sandy shore. These early well-meaning attempts to affect the coast often had unintended consequences.
What was not appreciated back then is that a sandy beach, like the ones that they hard-armored, naturally evolves to take the form that dissipates the maximum energy of the waves. The shape of the beach changes to absorb and dissipate the energy in several forms. One is to have the water roll up and down the beach in as thin a sheet as possible given the physical constraints. This maximizes turbulence and thus energy loss. Another is the picking up and dropping of tons and tons of sand per hour. When each wave breaks, the top layer of sand is picked up and mixed throughout the turbulent white water. This constant lifting of tonnes of material helps absorb the wave energy.
But when you “hard armor” such a beach, you lose much of that. The village is being preferentially eroded because they hard armored a section of sandy shoreline. As usual with this kind of amateur meddling, you rarely get what you expect. In this case what happens is that energy that previously was absorbed by waves breaking on the sand is simply redirected elsewhere along the coast … which changes the direction and strength of the currents, and surprise, surprise, the seafront along town starts eroding. Because if the wave energy is not absorbed, it has to go somewhere. So it goes into pushing the water along the beach. And this, obviously, can cause problems down the coast.
So once again humans are indeed the cause … but it has nothing to do with CO2.
To make it worse, understandably when Shishmaref village was built (around 400 years ago), these folks weren’t concerned about melting the permafrost when they built their traditional homes. Modern practice if you are concerned about preserving permafrost is to build up off of the ground. But traditional houses in the north are built on or even in the ground, because it’s much warmer not to have wind whistling under your house. And for hundreds of years this wasn’t a problem.
At present, however, they are living in modern buildings of fairly recent vintage, not their traditional structures. Plus the population increase, with lots of new buildings. Plus clearing land for roads, which exposes it to the sun. Plus increases in house heating … and at the end of all of that, as a result of thousands and thousands of days of more and more fires warming more and more houses, the permafrost is diminished, and the erosion is increased.
But but to blame CO2 as the culprit for that, as was shouted from the rooftops by Greenpeace and the Sierra Club? Sorry. If that were the case the whole coastline would be eroding. It isn’t. We know why the village shore is eroding, and it’s local actions, not global actions, that are the culprit..
Now, I said that what I found out about Shishmaref was very funny, and I’ll get to that in a bit. But first, I had to go research the village my friend was referring to, the latest poster child for Arctic climate change victims, the Sixth First Climate Refugees. A google search for “climate victims Alaska” brings up dozens and dozens of articles about the new one, talking about how because of climate change the sea is causing erosion in Newtok Village in Alaska. One article starts off “Newtok is losing ground to the sea at a dangerous rate.” It’s a regular quack-fest of folks that are terribly and visibly concerned about this latest effect of CO2 …
But when I go to Google Earth, I find that the dang village is not even on the ocean. Not only that, but it’s near the outer edge of the Yukon-Kuskokwim River Delta. This is one of the largest river deltas on the planet. Between them, the Yukon and Kuskokwim rivers drain a huge amount of Alaska. And as is common with northern rivers, they are loaded with sediment. Add in hundreds of thousands of years, and you get Figure 2 …
Figure 2. The amazing expanse of the Yukon-Kuskokwim delta. Originally, everything inside of the red line was once ocean. At that time the two rivers flowed into a bay, but over the millennia, silt has been deposited over a huge area. The village of Newtok is indicated by the red “A” marker, just off of the river that drains the large lake.
First comment. Within the red line, most of the land is less than 2 metres (6′) above sea level. Second comment. The current positions of the rivers are not the historical positions. All over the delta there are cutoff oxbow lakes and relict channels showing where at some time in the past some branch of one of the two rivers flowed to the sea. Figure 3 should give you a sense of what the turf looks like …
Figure 3. Kuskokwim delta wetlands. Miles and miles of silt.
And here is a photo of the village itself, along with the small drainage channel on the north side:
Figure 4. Newtok Village, Alaska.
Next, here is a more detailed map of the village location, showing the drainage channel to the north and the main channel to the south …
Figure 5. Location of the village of Newtok, as seen on Google Maps. This is the map layer. Land is white, water is blue. Newtok Airstrip is just south of the “A” marker.
Note all of the cutoff sections of previous river channels that are now lakes. So Newtok is a town a few feet above the water, built on silt, on a small drainage channel that feeds into a larger drainage channel that connects a delta lake to the ocean (see Figure 2). You can see the larger channel at the lower left of Figure 5. Next, Figure 6 shows the exact same view, but in the satellite layer of Google Maps. Check out the difference, obviously the map layer is older, as the newer satellite photo shows extensive changes:
Figure 6. Exact same view in Google Maps, but showing the satellite layer.
Note the change in the main channel. Just like every other meandering channel on the planet, it has eaten away on the outside of the bend. That’s what rivers do. They eat away at the outside of bends, and the silt is deposited on the inside of the bend. It’s totally predictable. Compare the inside of the bend with Figure 5. See how it has built out?
So let me recap the bidding. The village of Newtok is built on top of a couple of feet of silt, in a relict channel towards the seaward side of the Yukon-Kuskokwim Delta. It is surrounded by cutoff oxbow lakes testifying to the constantly meandering, shifting nature common to all river deltas. Like all river deltas, we can assume that the ground is subsiding, it’s what they all do. And in such conditions, both erosion and deposition are constant processes. At any time, any given location is either gaining or losing soil.
Not only that, but the village is built on the outside of a bend in the main channel, a location which can be confidently predicted to be eroded away sooner or later simply because that’s the unchanging ancient nature of river deltas.
… and they claim this erosion is a total surprise, and that CO2 is to blame?
Get real!
It’s a village built on a thin layer of geologically recent and only lightly consolidated silt. The silt is slowly compacting and sinking. And to top it off, it’s on the outside of a bend in an active channel near the outer (newer) edge of a huge river delta. It’s a couple feet of freshly created land in a location we know will erode, what the heck do they expect? Long-term stasis?
So that’s the story of how the Sixth First Climate Refugees might have to move their village, but like all the rest, there are no climate refugees. We can now await the announcement of the Seventh …
Now, I said I’d finish the Shishmaref story. Here’s the funny part that I hadn’t understood. I’ve seen lots of small rocky islands when commercial fishing in the Bering Sea, some not all that far from Newtok actually. So that’s how I imagined Shishmaref. But to my surprise, it’s not like that at all. Here’s the large-coverage map.
Figure 7. Map showing the area from Newtok Village (in the Yukon-Kuskokwim Delta, bottom center) to Shishmaref Village. Russia is on the top left, and Shishmaref (“A” marker) faces the Arctic Ocean.
Next, here’s a closer view.
Figure 8. A view of the entire peninsula. Shishmaref is one of a chain of islands along the coast.
When I saw that map, my jaw dropped to the floor, and I flat busted out laughing. Shishmaref is not on a rocky island at all. It’s on a barrier island! These guys have a village on a barrier island, and they’re surprised that the geography is changing? Barrier islands are notorious for that. They should go talk to the folks from New Jersey or the Carolinas about the joys of building on barrier islands. For millions of years, large storms have regularly changed the world’s barrier islands by cutting new passes right straight through some part of a barrier island chain.
Here’s a more detailed map of Shishmaref, and it just gets worse:
Figure 9. Closup of the location of Shishmaref village on Sarichef Island.
Not only is the village on a barrier island. It’s on the most vulnerable island, the one with the main inflow-outflow channels on either side. This is a common feature of barrier island chains, that there will be a short island with a channel on each side opposite an inlet, as in this case. The two channels allow storm and tide and melt water to circulate in and out of the inlet.
Unfortunately, this also means that these are the highest current locations along the coast, the channels adjacent to the island where tidal and storm and melt waters have to pass through, and thus the most subject to erosion.
Anyhow, that was the funny thing I found out that I hadn’t known—that the whole Shishmaref furor is about erosion on a vulnerable barrier island which is routinely battered by fierce storms … I’d be shocked if the island didn’t erode and change and alter its shape.
But ascribing that to CO2? That dog won’t hunt …
All the best to you all,
w.
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For Newtok also see ‘Thermokarst Slumping’
And….
Nothing to do with carbon dioxide. Newtok’s citizens were forced to settle there in 1959. They were traditionally semi-nomadic folk so the alleged problem is man-made, but has absolutely nothing to do with co2 inspired thermageddon.
By the way the people of Newtok rely mostly on fuel oil for their heating. See what looks like 2 fuel tanks in the image above. Now think about the possibility of soot on ice and snow.
Fuel use in Newtok.
http://www.usa.com/newtok-ak-housing–historical-house-heating-fuel-data.htm
“”So then who moved the trashcan, and why ?””
I say it was the photographer, for a more “scary” effect.
Willis always nails it.
I, myself have been considering life as a climate refugee from the US.
I will be fleeing the political climate.
I don’t know who the world’s first climate refugees were but they sure aren’t from the last 50 years.
The DUST BOWL of the 1930s USA produced climate refugees.
http://memory.loc.gov/ammem/afctshtml/tsme.html
We have a lot of people that are willing to risk a lot of money by building vacation houses on the dunes of barrier islands. I’m not sure that I like the idea of lessening their risk by paying for replacing those dunes they are altering. If you are going to build on a barrier island, do it behind the second dune. Nature will have a better chance of protecting your property from storms that are going to come. This has nothing to do with rising CO2 levels. It is economic good sense.
Willis,
As someone with a degree in geography I greatly enjoyed your article, especially the maps. I too burst into laughter at your final reveal about the barrier island Shishmaref is built on.
I have a map on my wall of Hatteras Island in North Carolina. It notes the many places where channels have been cut and filled in over recorded history in the area. I wonder if their little barrier island might become two barrier islands in the right storm!
In response to John Coleman’s question on sea level rise-
I tried to use Satellite Altimeter data to get as close as possible to Shishmaref for sea level rise-
http://sealevel.colorado.edu/content/interactive-sea-level-time-series-wizard?dlon=184&dlat=64&map=v&fit=s&smooth=b&days=60
The trend since 1993 is about 2.9 mm/year. According to NOAA Technical Report NOS CO-OPS 53, the uncertainty in the trend for a 20 year record length is +/- 2.9 mm/yr.
Coastlines eroding? What an unusual occurrence…. /sarc
But when, enquiring minds want to know, will the first phony farcical refugees sally forth from the Firth of Forth, near Fife?
Great post W.
When I was a kid, dad would leave me in the lab with the erosion table. I could adjust flow and declination to form little oxbow lakes. Loved it.
Portage La Prairie is a town in Manitoba whose central park is located within an oxbow formation. Pretty cool, actually.
T. G. Brown says:
July 3, 2013 at 3:04 am
“You have to appreciate the trick photography in Figure 1. Different perspective, different distance to the shore–the result is an exaggerated picture of the shore erosion.”
What about the tyre tracks that go over the edge? Look closer.
T. G. Brown says:
July 3, 2013 at 3:04 am
Since the location from which someone took the first shot is now in midair fifteen feet above the open ocean, I fail to see how they could have avoided a “different perspective, different distance to the shore”. But you seem to have the plan, so I tell you what.
You go bring us a picture taken from the same spot as the first picture so we can compare them.
Sometimes, the stoopid, it burns …
w.
Mike Bromley the Canucklehead says:
July 3, 2013 at 5:56 am
Mike, thanks, that’s quite funny. I originally wrote in “relict”, but then I looked at it and thought “That can’t be right” …
Anyhow, fixed, my appreciation,
w.
Independent says:
July 3, 2013 at 6:53 am
Thanks, Jim. I wasn’t kidding, I laughed out loud when I saw that map and the barrier islands. And yes, their island could easily become two, it’s happening all over the world wherever there are barrier islands. I just never even conceived of the possibility of barrier islands in the Arctic Ocean, don’t know why …
w.
The tide gauge at Prudhoe Bay Alaska is showing 0.28 mms/yr of sea level rise since 2002.
The GPS monitoring stations at Prudhoe Bay and Barrow Alaska are not showing any vertical motion since 2002.
Prudhoe Bay tide gauge.
http://www.psmsl.org/data/obtaining/rlr.monthly.plots/1857_high.png
Barrow GPS.
http://s8.postimg.org/qo7en4dd1/Barrow_GPS.jpg
Soory, Prudhoe Bay tide gauge is since 1994.
Sorry double screwup. Prudhoe Bay tide gauge is showing 3.4 mms/yr since 1994.
http://www.psmsl.org/data/obtaining/stations/1857.php
Jimbo says:
July 3, 2013 at 6:08 am
For Newtok also see ‘Thermokarst Slumping’
Thanks, Jim. I pointed this out regarding the road that we see in Figure 1 for Shishmarf … with only two feet of soil above sea level and the below-sea level soil interpenetrated with sea water with a lower freezing temperature, however, it seems to me this wouldn’t be a big issue in Newtok … but I’ve been wrong before. Hang on, let me look … OK, I was right, but not by much:
As I figured, only the part of the delta nearest the solid land has permafrost, and that’s discontinuous. The closer you get to the ocean, the warmer it is. Since Newtok is in the far western edge of the delta, I doubt if their problem involves much permafrost … but if the facts change so will my opinion …
w.
Mike Bromley the Canucklehead says:
July 3, 2013 at 5:56 am (Edit)
Good catch, Mike. I mentioned subsidence due to the compaction of the soil itself. But I suspect you are right that there would also be isostatic subsidence due to just the weight of the sediment pile.
w.
This is the number of Ameridan unemployed, isn’t it? They are mostly caused by this insanity.
See The Two Minute Conservative via Google or: http://adrianvance.blogspot.com and when you speak ladies will swoon and liberal gentlemen will weep.
I assume the delta at the mouth of the Amazon River that formed during the last Ice Age is now submerged under 200 feet of sea level rise ?
Is anyone taking cores of it ?
Might be interesting.
StephenP says: July 3, 2013 at 12:38 am
Maybe the 11th Hussars, who were in the Charge of the Light Brigade along with the 17th Lancers, would be a better choice, They were known as the ‘Cherry Pickers’ because of their cherry red pants (trousers). This would seem to be a better name for AGWists.
Excellent choice! I think they should have quite elaborate headgear too, black feathers like the Bersaglieri perhaps (although without the marksmanship of course)?
‘When can their glory fade?
O the wild charge they made!
All the world wondered.’
” T. G. Brown says:
July 3, 2013 at 3:04 am
You have to appreciate the trick photography in Figure 1. Different perspective, different distance to the shore–the result is an exaggerated picture of the shore erosion.”
The perspective and distance are indeed different by I am not sure “trick” is fair.
Using the pole with an angling brace and the white window and door casings on the mansion behind it the pointing direction and alignment are not that far off (and I not sure the “off” is in direction favorable to an intent to deceive.
The tire tracks look honest and make it clear there WAS road there not long ago.
And I think the different focal length is hostile to the illusion-intent speculated as to the shape and depth of the eroded portion.
“Alberta Slim says:
July 3, 2013 at 6:18 am
“”So then who moved the trashcan, and why ?””
I say it was the photographer, for a more “scary” effect.”
I say it was the driver of the first vehicle to drive past after the earlier tire tracks had disappeared.