Guest Post by Willis Eschenbach
There’s a new study out called Increase in mercury in Pacific yellowfin tuna by Paul E. Drevnick, Carl H. Lamborg, and Martin J. Horgan. It claims that:
By compiling and re-analyzing published reports on yellowfin tuna (Thunnus albacares) caught near Hawaii (USA) over the past half century, the authors found that the concentration of mercury in these fish currently is increasing at a rate of at least 3.8% per year.
That seemed a bit too neat for me, so I took a deeper look. To their credit, they posted the data as used along with the study. As usual, I started by taking a look at all of the data. There were three samples of tuna studied, which were caught in 1971, 1998, and 2008. Here is a boxplot of the raw data.
Figure 1. Boxplot of the tuna mercury data by year of collection. Width of the box is proportional to the number of data points. Boxes show where half of the data is located. Heavy black line is the median of the data. Notches are the error intervals on the median. Units are parts per million (ppm)
OK, so far, so good. Next, they removed both the big fish and the small fish. They also removed two outliers, which had mercury values of 1.32 and 0.015 ppm. Once those are removed, the result is shown in Figure 2.
Figure 2. As in Figure 1, but for the reduced dataset.
Note that because of the greatly reduced numbers in the 2008 data, the uncertainty notch has become much wider, and the width of the box is smaller.
Finally, they adjust the mercury content for the weight of the fish. This is important because as the fish gains weight, it bioaccumulates mercury. Figure 3 shows what happens to the reduced dataset once the mercury content has been adjusted (either upwards or downwards) depending on the weight of the individual fish.
Figure 3. As in Figure 2, but with the mercury levels adjusted for the weight of the individual fish.
This has made some obvious changes to the results. First, the outliers have been greatly reduced, as has the range of the data. This is because the outliers were heavy fish with lots of mercury, so when they were adjusted their mercury levels came down. And curiously, while there is not a lot of change in the median and spread of the 1971 and 1998 data, the 2008 data has risen significantly. Finally, while the adjustment process reduced the error of the median in 1971 and 1998 data, it actually increased the error of the median in the 2008 data.
Now, these are the results that they claim show that mercury in these tuna is “increasing at a rate of at least 3.8% per year.” I’m sorry, but I’m not seeing that. For starters, if anything the mercury levels fell during the period where we have good data, from 1971 to 1998. That means that the entirety of the purported increase occurred over 10 years, after being stable for nearly thirty years? I’m not buying that claim at all.
So why did the results in 2008 move up so much due to the adjustment by weight? The problem is in the weight distribution of the fish in the three groups. Figure 4 shows the same three groups, but this time it shows the weights of the fish instead of the mercury levels.
Figure 4. Boxplot of the weights of the fish involved in the tuna study.
As you can see, while the distribution of the weights of the fish caught in 1971 and 1998 are quite similar, the 2008 sample are predominantly small fish. In theory, then, the mercury levels in these fish should be increased to bring them in line with the larger fish.
However, there are a couple of problems with that. First, the mercury/weight relationship gets flat down at the lower end. As the authors say:
It was necessary to remove the fish of less than 22 kg from the analysis, because these fish did not adhere to the assumption of linearity. Mercury concentrations in young tuna tend to be low but highly variable [18]. A diet shift occurs in young tuna when a critical body mass is developed that enables endothermic capability to allow access to prey in deeper, colder water [19]. At a certain size (depending on species), likely because of this ontogenetic diet shift, the relationship of mercury concentration versus size conforms to expectations (i.e., a linear relationship).
But here’s the problem with that theory … ugly data. Figure 5 shows the scatterplot of mercury levels versus fish weight.
Figure 5. Scatterplot, fish weight versus raw (unadjusted) mercury levels. Colors indicate the years as in previous figures (red-1971, gold-1998, and blue-2008)
A couple of points stand out here. First, their 22 kg cutoff seems way too low. According to their own data, there is little difference between mercury levels in tuna up to about 40 kg. This means that there will be errors in the adjusted mercury for fish less than 40 kg or so. Second, most of the blue 2008 data is low-weight fish (blue dots) … and as a result, the adjusted mercury levels of the 2008 data will be overestimated. Finally, this preponderance of light weight fish in 2008 is also the reason that the mercury adjustment, rather than reducing the spread of the 2008 data, actually increased the spread of the data.
So to summarize. The 1971 mercury data is statistically indistinguishable from the 1998 data, and the fish have about the same weight distribution. Together, these two groups comprise 94% of the data. They show no change in mercury levels over that twenty-seven year period.
They’ve built their entire claim of an increase in mercury on a mere 14 fish, 6% of the data, which are significantly lighter in weight than the other 94% of the sample. And as Figure 5 shows, it is likely that their adjusted mercury content is overestimated. Fourteen small-fry fish are all they have to hold up their claims? Really? This is almost to the level of the One Yamal Tree farrago.
And in any case, the idea that there would be absolutely no increase in mercury levels for nearly thirty years and then the mercury would jump significantly over the next ten years doesn’t pass the laugh test.
Best to all,
w.
PS-if you disagree with someone, please QUOTE THEIR EXACT WORDS that you disagree with, so that we can all understand the exact nature of your objection.
ALSO-
Folks not familiar with them might be interested in my other posts on mercury, viz:
In the process of writing my piece about Lisa Jackson and the EPA, I got to reading about the EPA passing new mercury regulations. Their regulations are supposed to save the lives of some 11,000 people per year. So I figured I should learn something about mercury. It turned out…
I’ve been puzzling for a while about why the areas with the most power plants aren’t the areas with the worst levels of mercury pollution. Why aren’t the areas downwind from the power plants heavily polluted? I keep running across curious statements like “There was no obvious relationship between large-mouth bass or yellow perch fish…
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Thanks Willis. Good debunking.
Very nice graphs too.
I love analysis done well. The way Willis sliced and diced the data is very interesting.
Can it be the researchers see no issue with basing the alarming conclusion, “the concentration of mercury in these fish currently is increasing at a rate of at least 3.8% per year” on a sample of 14 fish?
Not only is the 2008 sample size inadequate by itself, it doesn’t match the sample sizes from previous years. Even before the Willis deeper dissection, the study is suspect.
Numbers don’t lie, unless dummies are using numbers.
Your assumption is that the result is due to incompetence. More likely it is due to selection bias. The publishers likely rejected a large number of competent papers that showed a negative result, but latched onto the one nonsense positive result because it had a marketable message.
The problem is that there is no market for papers that show a negative result, so they don’t get published. Positive papers do because they are more interesting. However, it is the negative papers that are most important scientifically, because they show when theories are incorrect.
The increase in Mercury is obviously associated with the government mandate that we employ mercury containing lightbulbs while banning the safer alternative, incandescent bulbs.
I had to dispose of one of these curly things that failed prematurely at the re cycle center and the attendant there did not know what to do. Ultimately he told me to dispose of it in the trash bin.
Is there even a single case of an individual becoming ill or dying from casual environmental mercury? Seems to me the mercury fall out around a coal fired power plant should have generated several generations of mercury related illness and death.
Of course there are – its called Minamata Disease. Its due to the good public health policies over the last 50 years that you have never heard of it.
Minamata Disease was an exceptionally large discharge of an organic compound of mercury.
We’re talking here about the metal – which does accumulate in fats but not by the same method or to the same extent.
There is a hypothesis that elemental mercury will be picked up at the bottom of the food chain and concentrated up as each larger predator eats the smaller. Fish (like people) have difficulty in getting rid of mercury.
But has anyone ever seen this? It might be true but there isn’t any evidence that I am aware of.
So, no, I’ve never heard of anyone getting ill from environmental mercury – except in the methylmercury incident you refer to.
I had a set of encyclopedias (Compton’s Encyclopedia, I believe – British from 1887) It listed a Blue Pill which it stated was common in most people’s medicine cabinets. The only thing I could find on line was the Blue Mass pill.
The “Blue pill was recommended as a remedy for such widely varied complaints as tuberculosis, constipation, toothache, parasitic infestations, and the pains of childbirth.”
”
“Blue pills were produced by substituting milk sugar and rose oil for the glycerol and rose honey. Pills contained one grain (64.8 milligrams) of mercury.” (from Wikipedia)
Ingredients:
33% mercury (nearly one-third, measured by weight)
5% licorice
25% Althaea (possibly hollyhock or marshmallow)
3% glycerol
34% rose honey
This pill was common as late as 1887…according to this encyclopedia which I no longer have as the bindings all fell apart…Just FYI…
If this was chemically uncombined or elemental mercury, it is not very toxic in small quantities. Re Medline:
“Elemental mercury is usually harmless if touched or swallowed. It is so thick and slippery that it usually falls off your skin or out of your stomach without being absorbed.”
http://www.nlm.nih.gov/medlineplus/ency/article/002476.htm
When I worked for the USGS (I’m now retired), one of the analyses I performed was trace organics in fish. This was a difficult analysis, requiring days of sample preparation to separate the analytes from the fish (primarily from the high lipid content). One of the main problems I had was performing preparation and analysis in such a way that there was no background contamination. One of the compounds I looked for was triclosan. One day, triclosan started showing up in blanks, and I noticed someone had brought some antibacterial hand soap (containing triclosan) into the lab. Well, once, someone had agreed for our lab to grind up some large fish, for another lab, which would perform determination of mercury, and other metals. All I had was a large metal band saw, and a large metal Hobart grinder with a metal blade. If I ground up the fish with this equipment, it would have produced high metal contamination. I believe that ceramic equipment with a ceramic cutting blade is required. I insisted we couldn’t do this, and the customer finally found a better-equipped lab for the project. Just sayin’ that it’s easy to botch things on the analysis end too.
One other comment I have about this post is that I love box plots — makes it very easy to see the way the data is statistically arranged. I wish box plots were used in many other areas, such as stocks and financial data.
Great! Excellent!
The Valhalla Standard “Peer-Review” is nothing more than a bias filter.
If the paper, like those in Geophysical Research Letters – ‘AGU’ Journals – Nature and such, pass i.e. fit the bias of the “‘Gods Descending From Valhalla’ in fine Lizt Score” Editors … Then it is a Pass.
VVounderbar ! Sieg Heil ! Welcome be to the new GODS; Mortals commanded to face prostrate to the profound GREATNESS of the new GODS.
It is Treason for a mortal to see, i.e. view a GOD. If transgression transpires then the mortal must DIE on a prior of FLAME and own eternal damnation.
Ha ha.
PS. Is is said that on reading this, “Gore pee-d a bloody piss.”
There study, with its fatally flawed 2008 fish cohort, would never have been published if they told the truth.
ThereTheir…IPCC will benefit enormously from the wisdom of these fine fishermen.
I was going to have fish ‘n’ chips for my evening meal – as I have each Friday for the past 70 years, but not now.
You can fool some of the people some of the time, but ? ? ? ? “
I think we have a genuine miracle here!
These scientists have turned the water to whine, and allowed 14 fish to feed the hysteria of millions of CAGW religious fanatics…
Praise be the demigods of science!
I do believe this is a textbook case of SIMPSON’S PARADOX!
http://en.wikipedia.org/wiki/Simpson%27s_paradox
“found that the concentration of mercury in these fish”.
“These fish”. The fish are not the same fish, they are different fishies. If it was the same fish they would have had to throw them back and re-catch them.
Ok, so they are the same species of fish. But they are not the same size fishies, so they have to adjust the data. And there the problem starts.
They would have to have the same weight fishies, and presumably of the same age to allow for different growth and mercury accumulation rates at different times in the life cycle. And then they would have to catch them at the same place, as perhaps the mercury levels at different volcanos and parts of the ocean in Hawaii is different.
And so on, and so on.
I wish scientists would mean what they say when they say ‘these fish’.
I have never before come across such a bunch of ill-disciplined fish.
Certainly of no credit to their school.
I understand that the Natural History Museum has found mercury in Tuna many thousands of years old. Mick G From: Watts Up With That? To: mickgreenhough@yahoo.co.uk Sent: Thursday, 5 February 2015, 23:19 Subject: [New post] Something Fishy about Mercury #yiv7819904904 a:hover {color:red;}#yiv7819904904 a {text-decoration:none;color:#0088cc;}#yiv7819904904 a.yiv7819904904primaryactionlink:link, #yiv7819904904 a.yiv7819904904primaryactionlink:visited {background-color:#2585B2;color:#fff;}#yiv7819904904 a.yiv7819904904primaryactionlink:hover, #yiv7819904904 a.yiv7819904904primaryactionlink:active {background-color:#11729E;color:#fff;}#yiv7819904904 WordPress.com | Willis Eschenbach posted: “Guest Post by Willis EschenbachThere’s a new study out called Increase in mercury in Pacific yellowfin tuna by Paul E. Drevnick, Carl H. Lamborg, and Martin J. Horgan. It claims that:By compiling and re-analyzing published reports on yellowfin tuna ” | |
“Each year power plants and other sources create tons of mercury pollution, which makes its way into our homes and bodies in fish.
Some of the major sources of mercury pollution in the US include coal-fired power plants, boilers, steel production, incinerators, and cement plants. Power plants are the largest source, emitting around 33 tons of mercury pollution in the US annually, and contributing to almost half of all mercury emissions. Large boilers and heaters, many of which are powered by coal, are the next largest source of mercury emissions, followed by steel production. Incinerators, once the largest source of mercury in the U.S. have drastically reduced emissions, though they remain the fourth largest source. Overall, mercury emissions have gone down by 65 percent in the US over the past two decades.”
http://www.nrdc.org/health/effects/mercury/sources.asp
it seems: a) they knew beforehand what answer they wanted to get and b) they were funded by a green blob such as Greenpeace.
My thanks to everyone for your comments. I fear that this kind of nonsense masquerading as science is fast becoming the rule rather than the exception. Not sure what the solution is, given the pressure on the researchers to publish or perish, and the endless search for funding.
Ah, well, nothing for me to do but keep fighting the good fight …
Best wishes to all,
w.
Indeed. A somewhat serendipitous article after watching a Mary Rose documentary last night featuring several examples of this instrument:
http://love-of-history.tumblr.com/post/31266579045/this-syringe-was-found-on-the-mary-rose-it-would
Hi Willis, a factor not considered by many is that much more mercury is emitted into the ocean by hydrothermal metal sulphide bearing fractures “black smokers” than what we add. Here is a geological link to native mercury collecting on the ocean floor from volcanic activity near New Zealand.
http://pdc-connection.ebscohost.com/c/articles/2370996/elemental-mercury-submarine-hydrothermal-vents-bay-plenty-taupo-volcanic-zone-new
If you google black smokers, mention of mercury associated with them seems to be filtered out of the results – cadmium, too. They mention copper, lead, zinc, gold and silver. Mercury is next door to Gold in the Periodic Table of the Elements and as a geologist, I’m very much aware that mineral occurrences almost always contain neighboring elements.
Oh, yeah. Folks not familiar with them might be interested in my other posts on mercury, viz:
The EPA’s Mercurial Madness
In the process of writing my piece about Lisa Jackson and the EPA, I got to reading about the EPA passing new mercury regulations. Their regulations are supposed to save the lives of some 11,000 people per year. So I figured I should learn something about mercury. It turned out…
Mercury, the Trickster God
I’ve been puzzling for a while about why the areas with the most power plants aren’t the areas with the worst levels of mercury pollution. Why aren’t the areas downwind from the power plants heavily polluted? I keep running across curious statements like “There was no obvious relationship between large-mouth bass or yellow perch fish…
Enjoy,
w.
I had long since bookmarked those posts, which this one has now joined.
I never decided what I thought about the distinctions that commenters at those threads made among the different mercury-bearing substances (elemental mercury, methyl mercury, etc.), but I’m hopeful that those posts will at least serve as good can-openers into the issue if I ever need to get knowledgeable enough to write my congressman about it.
Thank you for your efforts.
Thanks, Joe, always good to hear from you.
w.
Check out the declining size in the samples. I love Tuna fish sandwiches and Tunafish casserole but I stopped eating them 15 years ago as it was clear they were/still are being overfished. Never mine Art Sireze’s ice. I think we have more important problems, like safe food supply
“The first emperor of unified China, Qin Shi Huang, it is reported, died of ingesting mercury pills that were intended to give him eternal life.[51]
The phrase mad as a hatter is likely a reference to mercury poisoning among milliners (so-called “mad hatter disease”), as mercury-based compounds were once used in the manufacture of felt hats in the 18th and 19th century. (The Mad Hatter character of Alice in Wonderland was, it is presumed, inspired by an eccentric furniture dealer named Theophilus Carter. Carter was not a victim of mad hatter disease although Lewis Carroll would have been familiar with the phenomenon of dementia that occurred among hatters.)”
http://en.wikipedia.org/wiki/Mercury_poisoning
“We have done a study but cant find anything interesting, all is under control but we would like to do a bigger follow up later. Will you contribute?”
Sorry the money wont come!
Up to age 5 I remember playing daily with mercury that had leaked from a barometer located in the hallway of my grandmother’s home where we were living at the time. Great fun. Where did those 70 years go?
How many quarters have been turned shiny by how many kids doing just what you did?
I’m 65 and I remember doing it too.
We’re all obviously suffering the effects of lifelong mercury poisoning and are just imagining that we remember things so distant in past.
Imagined memories? Maybe we could go to work for MSNBC.
Used pennies actually.
I remember it as the coolest thing I saw as a kid… pennies floating in a custard dish full of mercury my dad brought home from the lab.
I too remember playing with mercury. My father worked in a lab and we had a bottle in the basement. We would put it in our palm and note that it would puddle in an interesting way as we played with it.
Elemental mercury is not the problem. Organic mercury is the problem. So while it’s true that many of us played with elemental mercury as kids, including myself, Minimata Disease is a very real thing as well … and a very ugly thing.
w.
Elemental mercury is a problem when it starts evaporating at 26C and we breath it in. That’s why amalgam fillings are a problem, Our body temp is above 26c so they constantly out gas and this out gassing is accelerated when we drink or eat hot food.
They definitely should have compared apples to apples (similar weight fish to similar weight fish). The mercury content depends on the mercury content in the water and on the diet, and the diet changes with size. The higher up the food chain they are, the higher up the food chain their prey often is, and the more mercury is consolidated. They can’t just normalize this by comparing mercury/weight; it’s not a linear relationship.
In addition to the apples-to-oranges statistical comparison, their results hide the fact that human exposure rates are based upon the actual fish we eat. If the discarded sub-22 kg sample has lower mercury levels then today’s exposure rate is probably lower than 1970 or 1998.
Excellent point.
The only real case of mercury poisoning from tuna or swordfish was a retired farmer’s wife in Iowa. After her husband died, she sold the farm and retired, eating her favorite food for two years, a half pound swordfish steak almost three times a day. She suffered irreversible brain damage.
[Mercury] in Wisconsin lakes is also a problem as it tends to accumulate, although it does get sequestered into the anaerobic bottom mud. Again, the only problem there was a fishing buff who ate “unlimited” amounts of fish from these lakes.
As a biochemist, we always like to remind people, “THE TOXICITY’S IN THE DOSE.”
Did the autopsy include a mercury test?
I like the old one: “a lethal dose of milk will kill you”
milk – try to at least drink a gallon in an hour – you mioght not die, but might wish you would. it is supposed to be impossible to not throw up if you get close to this achievement.
Swordfish is one of the species that doesn’t have higher quantities of selenium than bio available methylmercury compounds. The people in the Seychelles study, who eat ocean fish twice a day every day of their lives, had no such toxification issues. What they left out was the role of selenium.
They always leave that stuff out…