Guest essay by Jim Steele, director emeritus, San Francisco State University
The Inuit claim “it is the time of the most polar bears.” By synthesizing their community’s observations they have demonstrated a greater accuracy counting Bowhead whales and polar bears than the models of credentialed scientists. To estimate correctly, it takes a village. In contrast the “mark and recapture” study, which claimed the polar bears along South Beaufort Sea were victims of catastrophic global warming and threatened with extinction, relied on the subjective decisions of a handful of modelers.
In mark and recapture studies, the estimate of population abundance is skewed by the estimate of survival. For example, acknowledging the great uncertainty in his calculations of survival, in his earlier studies polar beat expert Steven Amstrup reported three different population estimates for bears along the South Beaufort Sea. If he assumed the adult bears had an 82% chance of surviving into the next year, the models calculated there were 1301 bears. If survivorship was 88%, the abundance climbed to 1776 bears. If he estimated survivorship at a more robust 94%, then polar bear abundance climbed to 2490.1 Thus depending on estimated survival rates, a mark-and-recapture study may conclude that the population has doubled, or that it has suddenly crashed.
Here are the simplified basics of estimating survival.
Assume the fenced-off area is your study area. For statistical reasons you ignore observations outside that designated area. During the first year, you reach into your study area and capture four bears, which you then mark by painting a big white cross on their chests. (Researchers first painted big numbers on polar bears for easy identification from a helicopter, but the tourism industry complained that it ruined photographs. They now use discreet ear tags and a tattoo under their upper lip in case the tag falls off.)
The next year you return to your study area and randomly capture four more bears. However, only two are marked with a white cross. Now the researcher must decide what happened to the two missing bears that were marked last year. Did they die or did they avoid detection? Assuming they avoided detection, then survival is estimated to be 100%. Since the two recaptured bears represent half of last year’s marked bears, the models assume the four bears captured during the study’s second year similarly represent about half of the total population. So the models estimate that there were at least eight bears within the study area.
However the calculations change if the researcher assumes the missing marked bears died. In this case, it means that in the second year you captured every possible marked bear. So your model assumes that you also captured every possible bear in the study area. Now the model estimates that there were only about four bears living in your study area. Because the survival rates are greatly affected by this guesswork, these estimates are called “apparent survival rates.”
Apparent survival rates are heavily biased by any migration in and out of the study area. The earliest mark and recapture models were tested on rodent populations, and the statisticians warned that barriers should be erected to prevent the rodents from moving. Otherwise all statistical calculations were totally unreliable. But that tactic is impossible for highly migratory polar bears.
Unlike other species that defend a territory with reliable resources, polar bears never defend territories. They walk and swim across great distances and will congregate wherever the Arctic’s ever-shifting food supply becomes most abundant. A study of radio-collared female bears denning on Wrangel Island determined that after the bears left the island they travelled an average distance of about 3700 miles.2 Although much of their travel is confined within a less extensive region, one radio-collared female was observed in Alaska in late May and tracked to Greenland by early October.3 Such wide-ranging movements allow rapid adjustments to the Arctic’s annually varying food supplies. However it presents great difficulties for any mark and recapture study. Deciding if a bear was travelling or died thus becomes guesswork, and the amount of guesswork increases with shorter studies.
Instead of erecting barriers, a small percentage of female bears are equipped with radio collars. (Males have such big necks the collars will slide off. Young bears outgrow their collars too quickly and could choke themselves to death. So typically only adult females are collared.) Because collared bears can be tracked, there is no guesswork unless the batteries die. If a radio-collar remains in one spot for a long time, researchers locate the collar and determine if the bear died or just lost the collar. The vastly more accurate survival-rate data produced by collared bears is called “biological survival”. Researchers normally use biological survival to evaluate the accuracy of “apparent survival”. For example, if a large percentage of collared bears survived but simply moved out of the study area, then researchers assume a similar percentage of marked bears had also moved away. In that case, a low apparent survival rate was an illusion due to temporary migration and the avoidance of detection, not death.
Amstrup diligently followed up his earlier study on the apparent survival of South Beaufort Bears using radio-collared bears over a 12-year period. It turned out that his high-end apparent survival estimate of 94% was still too low. If only natural deaths were used, polar bears had a 99.6 % biological survival rate.4 Most bears died at the hands of hunters. If death at the hands of hunters was also considered, then biological survival was still higher than apparent survival, but fell to 96.9%. In 2001 Amstrup concluded that the South Beaufort Sea population was increasing and the current hunting quotas insured a growing population.
To appreciate the magnitude of the problem in estimating apparent survival rates, imagine a human mark-and-recapture study in which the local supermarket is your study area. For statistical reasons, you can only use observations inside your defined study area to determine whether or not your neighbors are alive or dead. (Because you recognize your neighbors’ faces, there is no need to add ear tags or body paint.) How often do you see your neighbors in that store? Although my neighbors and I shop at the same supermarket 2 or 3 times each week, 50+ weeks a year, I don’t see 90% of them at the supermarket more than once every 5 to 10 years. If I was doing a human mark and recapture study, and did not see my neighbors after 5 years, my model would assume most of my neighbors had died! For that reason mark and recapture studies must persist for several years in order to estimate the probability of marked animals being alive but not observed. Otherwise they will underestimate survival. Amstrup warned ““Models that predict rapid increases or decreases in population size would not mirror reality”
Perhaps it was the growing pressure from adversarial lawsuits, and speculation that the polar bears were endangered from CO2 warming, but in a subsequent series of USGS publications coauthored by Amstrup, they suddenly emphasized the illusion of apparent survival and downplayed biological survival to suggest the polar bears were facing extinction. The study was far too short to reliably estimate survival. Still during the first three years of their “extinction” study, the researchers reported apparent survival ranging from 92‑99%574. The higher estimate was the same as the biological survival rates of Amstrup’s radio-collared bears. However apparent survival dropped dramatically for the last two years of the study. The final years of a study always underestimate survival because newly marked are less likely to be observed a second time relative to bears marked in the first years of a study. Claiming “radiotelemetry captures present methodological difficulties” they oddly excluded radio-collared data from critical statistical tests!5 Despite knowing that biological survival rates had never rapidly changed before, and despite knowing more collared bears migrated outside their study area in 2004 and 2005, the USGS report argued polar bear survival had abruptly dropped from 96‑99% in 2003, down to 77% in 2004.6
In their first USGS report, the authors demonstrated high integrity in their analyses and were upfront about the problems of their models, writing, “the declines we observed in model-averaged survival rates may reflect an increase in the number of “emigrants” toward the end of the study, and not an actual decrease in biological survival”, and they noted male bears had exhibited unusually high transiency.5 When apparent survival rates were high, only 24% of the collared females had wandered outside the study area. In contrast during last two years of the study when apparent survival plummeted, the number of collared bears wandering outside the study area had nearly doubled to 47% in 2005 and 36% in 2006, but they never published their biological survival rates. They chose to dismiss the high percentage of bears migrating out of the study area and subjectively chose to argue fewer captured bears meant more dead bears. The authors oddly argued that using 18 years of data the bears are eventually observed in the study area. In keeping with my human/supermarket analogy, it was the equivalent of labeling all your neighbors dead if you don’t see them in the market over a two year span, because over a ten year period you always see them at least once. We need Steve McIntyre to do a polar bear audit!
The dramatic drop in survival meant 400 bears suddenly died but there were no carcasses. To support their unprecedented claims, one USGS report emphasized in the abstract that subadult males showed reduced body condition and that was evidence of nutritional stress that lowered survival.7 However if you read the results section and did some math, you discover that subadult males only represented 5% of all captures. The other 95% were stable or improving. In contrast, adult females represented about 34% of all captures, and despite being under the most stress due to an eight-month fast while giving birth and nursing their cubs, their body condition had improved. That good news wasn’t ever mentioned in the abstract, you had to search the results section: “There was no trend in mass of adult females during the study, but the mean BCI [body condition index] of females increased over time”.7
Their abstract also implied “a decline in cub recruitment” to support their model’s uncharacteristic dip in survival rates. But that too was an illusion. Recruitment compares the number of cubs in the spring with the number of cubs in the fall. Using older studies their observed results found that the number of cubs per female had increased between 1982 and 2006 during the spring. This would be expected. When the female body condition increases, they usually produce more cubs.8 To counteract that good news, the authors then argued there was a decline in cubs during the fall, and thus a decline in recruitment. However they had not surveyed in the fall since 2001.7 They were using deceptive zombie data to support a bad model.
That is how global warming advocates counted bears to refute the claims of the Inuit. That was the driving evidence that led to the uplisting of the polar bear as threatened species. Based on such studies Dr. Derocher, chairman of the IUCN’s Polar Bear Specialist Group (PBSG) warned, “It’s clear from the research that’s been done by myself and colleagues around the world that we’re projecting that, by the middle of this century, two-thirds of the polar bears will be gone from their current populations”.
Don’t count on it!
Jim Steele monitored bird populations on the Tahoe National Forest for 20 years using mark and recapture. Director emeritus, Sierra Nevada Field Campus, San Francisco State University
Adapted from the chapter “Inuit and Illusions in the Time of the Most Polar Bear” in Landscapes & Cycles: An Environmentalist’s Journey to Climate Skepticism
Literature Cited
1. Amstrup, S. C., Stirling, I., and Lentfer, J. W. (1986), “Past and Present Status of Polar Bears in Alaska,” Wildlife Society Bulletin, 14, 241–254.
2. Garner, G. et al. (1994) Dispersal Pattersn of Maternal polar bears from the denning concentration on Wrangel Island. Int. Conf. Bear Res. and Manage. vol. 9, p. 401-410.
3. Durner, G., and Amstrup, S. (1995) Movements of a Polar Bear from Northern Alaska to Northern Greenland. Arctic, vol. 48, p. 338– 341
4. Amstrup, S. and Durner, G. (1995) Survival rates of radio-collared female polar bears and their dependent young. Canadian Journal of Zoology, vol. 73. P. 1312‑1322.
5. Regehr, E.V., Amstrup, S.C., and Stirling, Ian, 2006, Polar bear population status in the southern Beaufort Sea: U.S. Geological Survey Open-File Report 2006-1337, 20 p.
6. Regehr, E., et al. (2010) Survival and breeding of polar bears in the southern Beaufort Sea in relation to sea ice. Journal of Animal Ecology 2010, 79, 117–127
7. Rode, K. et al. (2007) Polar Bears in the Southern Beaufort Sea III: Stature, Mass, and Cub Recruitment in Relationship to Time and Sea Ice Extent Between 1982 and 2006. USGS Alaska Science Center, Anchorage, Administrative Report.
8. Derocher, A., and Stirling, I., (1998) Offspring size and maternal investment in polar bears (Ursus maritimus). Journal of Zoology (Lond.) vol. 245, p.253–260.
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george e. smith says:
“See that’s howcome we just don’t remember what the hell color zebras were, before we painted them all.”
That reminds me, I have a pic of my wife & me in Tijuana 20 years ago, sitting on a cart hitched to a zebra. The Mexican’s camera was an actual pinhole camera made from a shoe box. He pulled out the pin for about 5 seconds, put it back, then went into a little shed to develop the B&W film.
It is one of my favorite pictures. But of course, it was a donkey, not a zebra. The Mexican had painted stripes on it for some incomprehensible reason. But its tackiness makes me like the picture even more!☺
Yeah, and if you look at the pictures you see WHITE walruses in the background. Wow! My crap-o-meter is just going crazy! Obviously Jim Steele doesn’t know a thing about walruses either!
Eugene WR Gallun
Oh, perhaps I should have added — great article.
Eugene WR Gallun
Polar bears are very dangerous predators. Here is a damn interesting article about some explorers who ran into a few.
Scott Scarborough says:
July 3, 2013 at 1:17 pm
“Using these methods it seems that they would get “apparent survival rates” of over 100% many times. That right there, tells you there is something wrong.”
======================================================
Great Scott! Zombie Bears!!
Is there nothing CO2 can’t do?!?
This is a very poor use of statistics. The method works when used with a fairly large sample. Because of the random act of sampling, error is unavoidable. The error generally varies as the inverse of the square root of the sample size. Four bears is laughably small. If you want a census of fish, you catch and tag about 200. A year later, another sample of 200 will include some of those you tagged. This will give you an estimate of the population. I won”t go into details here; this can be looked up in an elementary stats text. This four bears notion is about as accurate as those ads from 50 years ago saying that “4 out of 5 doctors recommend” some product. A Ouija board would be just as helpful as four bears.
commieBob says:
July 3, 2013 at 5:01 am
I haven’t read past the first couple of paragraphs and seen a couple of illustrations. This post set off my crap-o-meter…..
So, based upon not definitely not reading the article, and definitely looking at the cartoons, you commented? Have you considered running for office? You’ll be a natural.
Since you didn’t read it, you probably didn’t notice that the article is about polar bears to begin with. It is about statistical sampling methods, using methods suited to the actual behaviour of the living animals you’re studying, and the results of administrators insisting that reliability tests be ignored after they have already determined on a policy based upon faulty methods. Nor are the cartoons supposed to illustrate polar bears, nor anywhere in the article does anyone claim that any researcher painted white crosses on polar bears.
Thanks for your article Jim. About 25 years ago I was doing some research during the summer months south of Churchill, Manitoba and we were not allowed to leave the high-fenced compound we ate and slept in without a loaded slug gun due to the polar bears. Every year the ice on Hudson Bay melts and the bears move onto land to forage until the until the bay freezes again. The is an annual routine and yet there are plenty of bears. I worked as a wildlife biologist for the USFWS for 30 years and I asked a number of the upper level management folks why the bears on the Arctic would go extinct if the ice melted during the summer when their kissing cousins on the Hudson Bay were doing just fine? They all said they had never thought about that.
These frauds really have to be picked apart and the fraudsters prosecuted. This sort of shonky “science” to keep alive the myth of impending doom will continue until actual individuals are actually held accountable and face real jail time. Right now, anything goes. This is not good enough.
Do we really need blood in the streets to put a halt to this crime? I want to see individuals held responsible for their claims that cost societies billions and countless thousands of winter deaths due to fuel poverty. I want to see accountability and jail time for doom-and-gloom prophets and profiteers.
Great post Jim Steele!
There might have been a typo in your statement Alexander. Perhaps you meant
“A demographic study of shock-collared professors should yield even more radio results.”
;->
Did someone says polar bears are white ?
I have lead a sheltered life and had been told over the years that they are black in skin colour, it being the hollow fibres of the coat that make them look white.
Perhaps the theoretical researcher shaved an area of fur (with an imaginary root) before applying a white cross
“””””…..
mathman2 says:
July 3, 2013 at 2:05 pm
This is a very poor use of statistics. The method works when used with a fairly large sample. Because of the random act of sampling, error is unavoidable. …..”””””
We seem to have readers, who don’t seem to catch on, unless you rub their noses in it.
Jim Steele presents a model; a concept. So he has a corral; fenced to keep a few cows in. Fat chance the bears will stay in the corral; well we’re talking about polar bears; but we’ll make the bears brown. Well that forces us to paint the walruses white to distinguish them from brown polar bears with toothache. Short on colors so we’ll use white crosses on the brown polar bears, instead of red. Well how do you whip out 200 brown polar bears in a corral the size of a smartphone. Mox nix, we’ll just draw 4 brown polar bears with white crosses, imagine the rest of the 200, while you imagine the brown polar bears are actually black underneath that brown fur, which is actually white like we painted the walruses; which are actually brown; well maybe pink.
Did not Jim’s cartoons present enough of an image of the real model, to let one fill in one’s own numbers or color details.
Now if one yamal tree can make a hockey stick, I think four brown polar bears in a corral, with white crosses on them, is descriptive enough to imagine hordes of them swimming from Alaska to Greenland.
I thought Greenland was in the Atlantic; how did it get over there in the north Pacific, by Alaska.
PS for “swimming” read “hiking”
Tom Trevor says: Is it racist of me to ask why the polar bears in the drawings aren’t white?
Careful I hired an African American art student to do my illustrations. When I specifically asked for polar bear drawing he did a very nice job.
This essay is adapted from a longer chapter filled with polar bear and walrus pictures and illustrations. When I asked my illustrator for these drawing to help visualize mark and recapture, I didn’t specify polar bear. So he gave me what you see. I liked the drawings, and went with them thinking they were a nice contrast and stood out on the printed page.after all it was more about mark and recapture methodology. Coming at the end of the chapter, it seemed most people would not mistake them for polar bears. Little did I know that it would become the focus such efforts to discredit the scientific flaws.
I have learned one thing from the politics of climate change. That when ever some one is incapable of arguing the evidence, they turn to character assassinations. Apparently the truth revealed about the USGS’ bad model is quite threatening.
WOW! A simple depiction of the concept of the statistical technique causes so much consternation. This whole example was to give the layman an idea of what went into the experimental technique. It was an article written for a wide audience not necessarily fluent in population studies and did a rather good job of it. When writing for an audience with widely divergent backgrounds, the art of simplification is highly necessary. If it gets too much into the technical jargon of a field, it runs into an issue that the same words may mean very different things to a biologist than to a chemist or a statistician.
mathman2 says:
July 3, 2013 at 2:05 pm
This is a very poor use of statistics. The method works when used with a fairly large sample.
==========
the point of the article is that you are sampling more than numbers, because the bears are not geographically confined to the place in which the sample is drawn. there is only limited ability to tell if a bear has died or has simply moved to a different area. so, your statistics can yield nonsensical results by confusing mortality and mobility.
@george e Smith Well, I can’t say, I actually understood Jim Steele’s rationale for how you count bears, based on ideas of their survival rates; but I’ll assume it makes sense to those who do understand it.
Its not my person rationale, it is the basis for all models, but you seem bent on diverting attention from more serious matters. Wikipedia discusses mark and recapture. Perhaps that will help you understand the basics behind most population models. “The “capture histories” generated are analyzed mathematically to estimate population size, survival, or movement”
http://en.wikipedia.org/wiki/Mark_and_recapture
@ur momisugly Owen in GA WOW! A simple depiction of the concept of the statistical technique causes so much consternation. This whole example was to give the layman an idea of what went into the experimental technique.
It is indeed a prime example how those whose politic’s are aligned with spreading CO2 fear, are dedicated to obscuring any attempt to explain the science to the public. Not one critic discussed the basics, but all tried desperately to divert our attention elsewhere. Each critic not only accepted the fraudulent claims but they sought to protect them. Now we at least know some of their names and methods, although it is easy to log in under another name.But such is the nature of science and such tactics have bedeviled honest scientific debate for centuries.
When John Muir wrote that glaciers had created Yosemite Valley, he was attacked as an ignorant shepherd who lacked the credentials of a geologist. His main tormentor was chief of the California Geological Survey and Harvard professor Josiah Whitney. Whitney had hitched his authority, fortune and fame to a more catastrophic interpretation. Yet despite Whitney’s lofty credentials, it was the “ignorant shepherd” whose ideas stood the test of time and no one did more for conserving the environment. Muir published in popular magazines and newspapers and eventually caught the world’s attention. We must thank Anthony for maintaining a website that strives to bring science to the people, and allows enough openness so that those who try to obscure the science will expose themselves for what they really are.
For clarification, I posted a story about counting sheep and a dog because it was funny and more or less on topic. It was never intended as a comment on the quality of the work of anyone.
It’s a long familiar technique to the analytical chemist, commonly known as ‘isotope dilution’. The analogy we were taught in the 60s was about estimating fish numbers in a pond. You catch a number of fish, mark them in some way, then throw them back. When you resume fishing, the number of marked fish to unmarked fish gives an estimate of total.
In the lab, one adds a measured quantity of radioactive isotopes to a sample of known weight, mixes, separates the element being analysed, then measures radioactivity of the again. It’s a very good method when the element has a convenient isotope.
We don’t have polar bears in the Southern hemisphere, but beware the vicious drop bear.
An excellent article. and well written. I learned a lot.
Am I the only person who actually read the whole thing and found at the end that Jim Steele has a couple of decades of hands-on experience in population studies (albeit of birds, not bears).
If there is any weakness in the essay, it might be in the section on survival rates. I had the same reaction as Alan McIntire. 99.6% survival rate? The Inuit don’t have that or anywhere near that and they can radio for an air drop of food/fuel/medicine should things break badly for them. Very high survival rates seem implausible for large predators living in a hostile and somewhat dangerous environment, no matter how well adapted. Not to mention the issue of idiots with firearms shooting the bears for no very good reason — a problem the Inuit presumably don’t have to anywhere near the same extent.
Overall, it sounds to me like a reasonable take away is that counting polar bears is very difficult and thus estimating population change is hard. Claims that the number of bears is dropping do not stand up well to scrutiny, and Inuit claims that the bears are more numerous than in the recent past seem entirely consistent with the evidence such as it is.
@ur momisugly Don
Several studies of large mammals, marine mammals and Emperor penguin all conclude that high survival rates >90% are necessary for population maintenance due to high mortality of their young. What was so unusual was the one year drop to 77%.
Jim
You’ve had decades to think about this stuff and doubtless know stuff that would take me years to learn. But my gut feeling is that adult survival rates between 90% and 95% seemed likely for a sustaining population of polar bears. That would correspond to an average lifespan of 10-20 years? (13-23 years because we are counting cubs separately from adults?) I could possibly make a better guess if I knew more about the impregnation rates, multiple births, and life expectancy/survival rates of cubs of course. But I imagine, that I’d be wrong no matter how much I “knew”.
Jim Steele, Thank you for the essay.
It is hard to believe anyone would take the stats. from such mediocre techniques seriously. Unfortunately ClimAstrology will be come a case study for a future edition of ‘How to Lie with Statistics’ Will the 20th century become notorious for the Climate scam where madness infected most of the Universities and Lysenkoism ruled the day?….
Personally, I’d count polar bear noses and divide by one, but that’s just me. I’m not sure how long I’d last in the business, but I’d guarantee my accuracy up to the time I was eaten.
“””””……
jim Steele says:
July 3, 2013 at 9:57 pm
@george e Smith Well, I can’t say, I actually understood Jim Steele’s rationale for how you count bears, based on ideas of their survival rates; but I’ll assume it makes sense to those who do understand it.
Its not my person rationale, it is the basis for all models, but you seem bent on diverting attention from more serious matters. Wikipedia discusses mark and recapture. Perhaps that will help you understand the basics behind most population models. “The “capture histories” generated are analyzed mathematically to estimate population size, survival, or movement”…..”””””
Jim,
You have quite mistaken my comments, and my intent.
a) I’m not any wildlife expert, particularly large predators.
b) I’m not a statistician; in over 50 years as a practicing Physicist in industry; statistics has never been used to perform any of my job responsibilities. My use of models, and modeling always produces results that work in practice.
So I only briefly scanned your paper, to try and understand what you were trying to determine. I specifically did not read in detail, to see if I agreed with your methodology. As I said, I accept that persons who DID understand those details probably know it all makes sense; and that was good enough for me.
What I then mainly addressed my attention to, was your pictorial description of the basic methodology; which evidently got some folks riled up on minutiae that had nothing to do with the validity of the study. The fact that your graphic artist colored his bears brown, and walruses white, was a total irrelevancy, as was his only drawing four crossed bears, and in a corral at that. Well he perfectly captured the concept of your study population, and with a humorous twist, that you shared with us. I also liked his “disguised” researchers.
My words were directed to those who thought you only marked 4 bears, and complained of your artists coloring.
No my words were not aimed at diverting attention from the study.
I admit, that I first had this mental picture of Alaska, and Greenland facing each other across a water body so I was wondering about how much of the route would be over ice, versus perhaps swimming. But then I quickly realized I had misplaced Greenland, so the route was different; although I guess the question still remained; did the bear make the entire trip across arctic ocean ice, or did it have to swim some open waters as well.
But nothing in my posts was intended to be critical of your study; and if you took it that way, then please accept my apology. My only criticisms were directed at those who for their own reasons, didn’t want to see your artist’s pictorial representation, as being fully descriptive of the study setup. And my compliments to your artist, for both his sketching talents, and evidently for his sense of humor.
Still can’t work out why that white crossed black bear is carrying a couple of large leaf like ferns over to the white walruses.
Maybe that bear had left the corral and migrated briefly to Florida.