By Dr. Pat Michaels at World Climate Report, reposted with permission.
Here is another big one from PNAS.
For those who don’t know, PNAS stands for the Proceedings of the National Academy of Sciences and it has gained the unfortunate reputation for publishing scientific research articles that regularly get knocked out of the park within hours of their release. The lack of rigor stems from its rather unique “peer-review” process in which National Academy members can submit articles for publication that the authors themselves have had “peer-reviewed”—that is, they passed the article by a couple of friends of theirs for comments. It’s more like “pal review.”
It is hard to imagine many papers being rejected under this system, although it can happen. For example, a contributed article by National Academy member Dr. Richard Lindzen that argued that the climate sensitivity to anthropogenic greenhouse gas emissions isn’t as large as commonly thought was rejected by the PNAS editor in change, overruling the recommendations of the reviewers chosen by Lindzen. But such occurrences are quite rare.
Instead, papers with rather speculative conclusions can be regularly found in the pages of PNAS as we have documented on several occasions (see here and here for example).
A new paper has just appeared which should be added to this list in the form of a contribution by National Academy foreign associate and molecular biologist Dr. Luis Herrera-Estrella on the subject of polar bears, evolution, and climate influences.
While the paper employs cutting edge genetic analysis to try to better establish the evolutionary tree of the polar bear species, when it comes to tying climate changes to the branches of that tree the analysis reverts to visual association (and a selective one at that).
Genetically speaking, the research team compared the DNA make-up of today’s polar bears with those of brown bears and black bears, with that of a single polar bear from ~120,000 years ago. The differences among these genetic codes are clues to the when these animals diverged into separate color morphs*. Additionally, the authors were able to extract some information as to the size of the population of each “species” over time.
The main gist of the findings is that polar bears became a separate “species” some 4- 5 million years ago, although some interbreeding with brown bears occurred on and off throughout the period (see our footnote on the nature of separate species).
This result lends further evidence (which we have highlighted previously, here for example) that polar bears as a species have survived many interglacial warm periods and thus are less “fragile” to climate warming than the more “concerned” among us would have us believe.
But, curiously, the authors of the new PNAS paper arrive at a somewhat different conclusion based upon what we consider to be a less than thorough analysis of the climate data. Here is how they describe their take on the situation:
[T]he marked increase in [effective polar bear population] between 800 and 600 kya [Figure 2(top)], possibly facilitated by Middle Pleistocene [the era of ice ages] cooling, is approximately bounded by Marine Isotope Stage 11 (420–360 kya), the longest and possibly warmest interglacial interval of the past 500,000 y and a potential analogue for the current and future climate. Although [polar bear effective population] remains low thereafter, a small recovery roughly coincident with the [brown] bear–[polar bear] maternal split could be associated with post-Eemian cooling, although this could also indicate an increase in population structure. The very recent, slight increase in [effective population] during the Holocene [the current interglacial] might reflect cooling during the Last Glacial Maximum, although genomic signatures of such recent events are known to have less power. Overall, this analysis strongly suggests that although [polar bear effective population] might have been considerably larger in the past, it appears to have experienced a prolonged and drastic decline for the past 500,000 y, being significantly smaller than brown bear [effective population], and perhaps explaining the observed lower genetic diversity in [polar bears] compared with brown bears. Taken together, our results strongly indicate that key climatic events have played a significant formative role in bear effective population size. [emphasis added –eds.]
And further:
If modern [polar bear] populations result from Holocene range expansions from a few
small, contracted populations in Middle-Late Pleistocene refugia, this may explain the observed low genetic diversity in [polar bears] today, and possibly leave modern [polar bear] populations even more vulnerable to future climatic and other environmental disturbances. [emphasis added –eds.]
Basically, the authors contend that even though polar bears have been a separate “species “ for some 4 to 5 million years and have survived repeated interglacial warm periods, it is vulnerable to warming. It survived during a a period of 2 million years (from 3 million to 5 million years ago) with an average temperature about was as warm as today. Somehow this evolutionary history has made polar bears of today “even more vulnerable to future climatic…disturbances.”
Right. PNAS yet again has fallen victim to it’s “pal review” process.
That is certainly some creative interpretation of the data at hand!
Here is why.
Consider the temporal population data for the bear species derived by the authors compared with the relatively-well established general climate history of the earth. Figure 1 shows the full 5 million year record and Figure 2 shows just the last million years.
Figure 1 (top): Estimates of the effective population size over the past 5 million years of the different bear species studied; BLK—black bears, GRZ—brown bears, ABC1—a different kind of brown bear, PB7—polar bears (source: Miller et al., 2012). Figure 1 (bottom): General climate history of the earth for the past 5 million years as derived from a collection of ocean sediments (source: Lisiecki and Raymo, 2005).
Figure 2 (top): Estimates of the effective population size over the past 1 million years of the different bear species studied (as in Figure 1). The larger gray-shaded area on the right refers to the Early Pleistocene, and the other gray areas (from right to left) refer to the interglacial Marine Isotope Stages (MIS) 15, 13, and 11, and the Eemian, respectively. The arrows point to major events in bear population history discussed by the authors . H, Holocene epoch. (source: Miller et al., 2012). Figure 2 (bottom): General climate history of the earth for the past 1 million years as derived from a collection of ocean core sediments. The numbers are the various MIS (source: Lisiecki and Raymo, 2005).
While there is some bit of character to the population data, largely it is varies rather slowly considering the timescales involved. The character of the climate record is vastly different. The climate record is dominated by the repeated pulse of interglacial warm periods within ice age conditions. About a million years ago, the variance increased and the time between warm periods increased to about 100,000 years (from ~ 41,000 years characteristic of the previous 4 million+ years). During the past million years, there have been 11ish warm events during which time the temperature approached the average temperature of the period from about 3 to 5 million years ago. However, during the majority of the past million years, the temperatures were much colder than those experienced in the period spanning 3 to 5 million years ago.
Now, perhaps you could make a case that as the temperature variance increased about a million years ago and most notably the coldest periods got colder that this had a general negative impact on brown bear (ABC1 and GRZ in Figure 1) populations.
But it is hard to know what to make of the polar bear population (PB7 in Figure 1) trace. It basically bears no resemblance at all to the climate signal—a strong indication that the environmental pressures on the polar bear populations arose from a non-climate origin.
To us, the authors conclusion that climate variation played a strong role in the evolutionary history of the polar bear over the past 5 (or even 1) million years derives from a reasoning (described in the block quote above) that just doesn’t jive with the climatological record. Assuming that the paleoclimate record and the paleo-polar bear population record are fair representations of what actually transpired over the past million years (and there is some questions about the reliability of the latter), to us it seems that the polar bear populations fluctuated over time largely independently of the climate variations.
If, as the authors assert, that interglacial warm periods were warm enough to reduce the polar bear population down to only a few bears in climate refugia thus setting the stage for enhanced vulnerability to climate change as a result of low genetic diversity, then any of the past 3-4 interglacial warm periods could have pushed them to extinction. Clearly they did not. And, further, it seems rather than extinction, what a warmer climate leads to is an increase in interbreeding with brown bears—something which apparently took place with some regularity over the bears’ history, even more so in warmer times. So perhaps in extended warm periods, the polar bear becomes a bit browner—and takes on characteristics which are better suited for a warmer climate, only to re-emerge as the great white bear of the north when glacial conditions return.
Certainly this is just speculation on our part, and perhaps is incompatible with the genetic data. But the genetic methodologies applied in the paper are very young and the sampling of bears analyzed is pretty sparse. Consequently, these first results are liable to be much less than robust as are any conclusions derived from them—especially those related to the specific details of the climate.
But one thing that is undeniable is that the polar bears have survived a score or more climate swings over the past 5 million years, including extended periods as warm as today. If climate were the only stressor on polar bear populations, these new findings should bode well. But as it is not, polar bears will almost certainly face a challenging future. But in discussing and planning their future, focusing on climate change would be off the mark—a story that is told through the findings of the PNAS paper, but not so much by the authors.
*Note that the brown bear and the polar bear are not separate species, at least in the classic sense. Mate the two and you get viable cubs that are reproductively competent. That’s the definition of what comprises a species.
References:
Lisiecki, L., and M. Raymo, 2005. A Pliocene-Pleistocene stack of 57 globally distributed benthic δ18O records. Paleoceanography, 20, PA1003, do:10.1029/2004PA001071.
Miller, w., et al., 2012. Polar and brown bear genomes reveal ancient admixture and demographic footprints of past climate change. Proceedings of the National Academy of Sciences, www.pnas.org/cgi/doi/10.1073/pnas.1210506109
Who Else says:
July 27, 2012 at 7:38 am
Gail Combs @ur momisugly July 27, 2012 at 5:02 am
…Although commonly known as Koala Bears, Koalas are not Bears at all. …
________________________________
That is why I put in (marsupial) they do not even make it near anything in the North American continent except for opposums our only marsupia. Marsupials and placental mammals split well before the period in this study so I doubt they have any close relation to pigs. (Pigs are a member of the infraclass Eutheria, not Marsupialia.)
As for Tim Flannery, he was the only reference I could find on the internet about the brain shrinkage. I would really like to see the paper on that information.
Gail Combs says:
July 27, 2012 at 7:46 am
Bill, I am well aware that hunters were the first conservationists. I was just pointing out that humans are their predator and climate means diddly compared to that.
I knew that. Honest.
“I sometimes think that the obsession with polar bears signals either teddy-bear deprivation, or perhaps over-attachment, in its adherents. Or is it because they are big? It is like focusing on elephants, or whales, as a metaphor for … oh, wait.”
….allow me to assist: There is a specific size envy underlying. However, to disguise that envy, they occasionally throw in a frog attachment or adherence. The same creature that will voluntarily cook themselves. Maybe we have something here…. 😉
What intrigued me in the original report was the drop in genetic diversity of the polar bear population over time. This is consistent with the hypothesis that polar bears went through genetic bottlenecks as warmer conditions at the peak of interglacials forced them into refuge areas in high Northern latitudes. There small populations could survive until conditions became more suitable across the rest of the Arctic.
http://evolution.berkeley.edu/evosite/evo101/IIID3Bottlenecks.shtml
DocMartyn says:
July 27, 2012 at 7:12 am
Rob Potter, Northern Europeans have up to 7% Neanderthal DNA and it appears that some Asian population have about 3% of a Devonian DNA.
I think you meant “Denisovan” DNA.
Denisovans were to Neanderthals as polar bears are to the brown bears on the Alexander Archipelago.
Population dynamics are chaotic — sorta like climate dynamics.
I notice that they “studied” ‘BLK—black bears, GRZ—brown bears, ABC1—a different kind of brown bear, PB7—polar bears.’
Is ABC1 the Shrot Faced Bear? (Arctodus simus and Arctodus pristinus) This long legged critter could likely have run down a horse if it wanted to.
If the “study” didn’t take it into account, there might be a bit of an issue with just how believable it is. It would have been a major competitor.
“polar bears, is that they are really just brown bears spray-painted white by big oil corporations.”
I KNEW IT!!!!!!!!!!!!!!!!!
“Which came first, the study or the title?”
Actually in MSM driven Climate science (not the real stuff we so rarely see) the conclusions come first. Everything else is just noise to be lost, misplaced, hidden…
Peter Plail says: “I am sorry to say this in case I offend polar bear lovers, but does it really matter whether a species survives?”
Only Homo Sapiens. A warmer climate is 99% beneficial to our species. In their desperation to find a pretext for banning vital CO2, Warmists have spent tens of billions trying to scrape up the 1%, totally ignoring the 99%. Should we be surprised that the results are fabrications, exaggerations, and misconceptions? No. Science is dead, dead, dead and may never recover.
DocMartyn says:
July 27, 2012 at 7:12 am
Rob Potter, Northern Europeans have up to 7% Neanderthal DNA and it appears that some Asian population have about 3% of a Devonian DNA.
Interesting. I was curious when one graduate course elective psychopath shrink prof pronounced that humans and chimps are genetically 98% similar. Ah, so are worms, etc., so I responded with a question on the % difference between the human male Y and human female X. No answer. (3:1, female to male) All those sleeper genes just waiting for climate change.
Evolution is how Mother-Nature hedges her bets to ensure life goes on. Organisms diversify and adapt to occupy every ecosystem available, and then continue to change as those ecosystems change. Biodiversity is a reflection of ecosystem diversity. The divergence of bears, wolves, dogs, foxes raccoons and pandas from a common ancestor is a perfect example.
Extinction events usually result from extreme ecosystem changes over short periods of time. There is no credible evidence to support the claim that the Earth’s climate is changing, or could change fast enough to cause polar bears to become extinct. But even if that happened, during the next glacial interval a new subspecies of bear would move into the arctic and the evolution of a new “polar” bear would begin again. While we should be careful to ensure our activities don’t drive any species to the brink of extinction (with the exception of parasites perhaps), when extinction happens naturally, it’s just evolution.
You know that these estimations of the Polar Bear populations are nothing but bunk? Right?
DocMartyn says:
Northern Europeans have up to 7% Neanderthal DNA…
And some of us here may have even more, (which Real Climatologists believe is the explanation for our unevolved, knuckle dragging, mouth-breathing attitude toward anthropogenic climate change!) (sarc)
BillD says:
July 27, 2012 at 3:49 am
Since the main diet of polar bears is seals hunted on the ice, it would be interesting to know what they would eat if the near-shore ice disappears.
———————
When there is no ice for the polar bears, there is no ice for the seals either. The seals come to shore to rest, and are caught by lurking polar bears.
Just this morning CBC was broadcasting a story of a lady being mauled by a polar bear at a remote camp.
CBCNunavut
http://twitter.com/CBCNunavut
Bear in mind:
+/- 20 million years ago = Ailuropoda melanoleuca ->
> 10 million years ago = Tremarctos ornatus ->
+/- 5 million years ago = Ursus ursinus ; which became distinct bears as
< 5 million years ago = Ursus americanus & U. malayanus & U. thibethanus
as well as these
< 1 million years ago = Ursus maritimus & U. arctis ….
Be fair, I don't see the study authors placing polar bears in a climate past 1 million years.
They have roads on Spitzbergen? Who knew? Seriously, I thought the place was no more than a coal mine and a port for shipping the coal.
Entropic man, I can’t help but think you are still rehashing the drawing-of-silly-trend-lines concept that is still so badly understood by Richard Black at the BBC.
Statistician William M. Briggs has a good blog article on how not to be confused by spurious, arbitrary “trend lines” here:
http://wmbriggs.com/blog/?p=5107
To summarize:
“Again, if you want to claim that the data has gone up, down, did a swirl, or any other damn thing, just look at it!”
The evidence of Founder Effect impoverishment in the polar bear population is consistent with this study showing superwarming of the Arctic during the peak Milankovich warming of previous interglacial periods.
I always enjoy it when jigsaw pieces fit together.
Some polar bear population data for your perusal.
http://pbsg.npolar.no/en/status/status-table.html
http://pbsg.npolar.no/en/status/population-map.html
michael hart says:
July 27, 2012 at 10:35 am
“Statistician William M. Briggs has a good blog article on how not to be confused by spurious, arbitrary “trend lines” here:
http://wmbriggs.com/blog/?p=5107
To summarize:
“Again, if you want to claim that the data has gone up, down, did a swirl, or any other damn thing, just look at it!” ”
You may have missed the point of Mr. Brigg’s article. If you just look at the data you are filtering it through your own cognitive dissonance and confirmation bias.
If you use the statistical techniques designed to show patterns in data, you get an outcome independant of observer expectations.
GeoLurking says:
July 27, 2012 at 8:52 am
I notice that they “studied” ‘BLK—black bears, GRZ—brown bears, ABC1—a different kind of brown bear, PB7—polar bears.’
Is ABC1 the Shrot Faced Bear? (Arctodus simus and Arctodus pristinus) This long legged critter could likely have run down a horse if it wanted to.
ABC1 is the population on Admiralty, Baranof, and Chichagof Islands in the Alexander Archipelago. Short-Face was supposedly a vegetarian, which would make him an unlikely ancestor for Ursus maritimus, but the most probable one for Ursus teddy…
Entropic man says:
July 27, 2012 at 12:13 pm
michael hart says:
July 27, 2012 at 10:35 am
“Statistician William M. Briggs has a good blog article on how not to be confused by spurious, arbitrary “trend lines” here:
http://wmbriggs.com/blog/?p=5107
To summarize:
“Again, if you want to claim that the data has gone up, down, did a swirl, or any other damn thing, just look at it!” ”
———————————————–
You may have missed the point of Mr. Brigg’s article. If you just look at the data you are filtering it through your own cognitive dissonance and confirmation bias.
If you use the statistical techniques designed to show patterns in data, you get an outcome independant of observer expectations.
———————————————–
Just words. What are you trying to say that I may have misunderstood?
The authors should have considered the “Spirit Bears” of the British Colulmbia rain forest. These are “white” black bears that live a long way away from arctic ice. Apparently the white bears are better at catching fish than black (invisble to the fish?_)
http://bing.search.sympatico.ca/?q=White%20Spirit%20Bear&mkt=en-ca&setLang=en-CA
Note the white bear with black cubs.
Following up my previous post; the use of the extreme El Nino year of 1998 as the starting point for describing 21st century warming is an example of choosing a starting point which distorts the outcome in the way you want, xactly as Mr Briggs describes.
Now, back to the polar bears….