Guest Post by Willis Eschenbach
There is a new paper out in the Proceedings of the National Academy of Sciences called Linkages among climate change, crop yields and Mexico–US cross-border migration (hereinafter L2010). It has Supplementary Online Information (SOI) here. The editor of the paper is (the late) Dr. Stephen Schneider.
The paper basically advances the following theory of linkages:
Climate Change —> Reduced Mexican Crop Yields —> Migration to US
Hmmmm … their Abstract says:
Climate change is expected to cause mass human migration, including immigration across international borders. This study quantitatively examines the linkages among variations in climate, agricultural yields, and people’s migration responses by using an instrumental variables approach. Our method allows us to identify the relationship between crop yields and migration without explicitly controlling for all other confounding factors. Using state-level data from Mexico, we find a significant effect of climate-driven changes in crop yields on the rate of emigration to the United States. … Depending on the warming scenarios used and adaptation levels assumed, with other factors held constant, by approximately the year 2080, climate change is estimated to induce 1.4 to 6.7 million adult Mexicans (or 2% to 10% of the current population aged 15–65 y) to emigrate as a result of declines in agricultural productivity alone.
Although the results cannot be mechanically extrapolated to other areas and time periods, our findings are significant from a global perspective given that many regions, especially developing countries, are expected to experience significant declines in agricultural yields as a result of projected warming.
YIKES! … scary. Makes a man think seriously about mitigation.
I often divide things into the good, the bad, and the interesting. Regarding this study, first, the good. The authors have done a workmanlike job of pointing to the data that they used, all of which is online. This is to be highly commended, as it allows a quick determination of the validity of their work.
Next, the bad.
Because they were clear about their data, I was able to replicate their results exactly for the corn yields. My practice is to make replication the first step in any analysis of this type. It verifies whether they have done what they say they have done. In doing so, I discovered a most curious thing.
First, a small digression. “Yield” is how many tonnes of a crop are produced per hectare (or acre) harvested. Yield is affected by a number of things, including location, soil quality, and climate. If the yield in a certain location starts to fall, this is an indication that something is going wrong in the farming cycle in that location.
The curiosity that I discovered is that the paper calculates “yield” in a way that I had never seen. Yield is defined as how much crop production you get for every hectare (or acre) that was harvested. The authors, on the other hand, calculated yield as the amount produced for every hectare (or acre) that was planted. This often yields a very different number.
The source of their data is here. Click on the “Maiz Grano” (Corn) in the first column, mid page. On the resulting page, click “Producción” (Production), second button from left. Then look in the far left column and click on the “Anuario” (Annual) button. Select 2004 as the year (“Año”) and press the “Consulta” button.
Now take a look at the data for 2004. The headings are:
Ubicación, Sup. Sembrada, Sup. Cosechada, Producción, Rendimiento
Or in English
Location, Area Planted (ha), Area Harvested (ha), Production (tonnes), Yield (tonnes/ha)
Over the period in question (1995-2004) Baja California averaged about 3 tonnes of corn per hectare. For Baja in 2004, their site says
BAJA CALIFORNIA, 592 hectares planted, 10 hectares harvested, 25 tonnes produced, yield 2.5 tonnes/ha
Note that, in common with other authorities, the Mexican web site itself calculated yield as production divided by area harvested, not divided by area planted. This is the normal definition of “yield” used by all other analyists. For example, from the UN Food and Agriculture Organization (FAO) web site glossary we have (emphasis mine):
Title: Crop yield
Definition:
Harvested production per unit of harvested area for crop products. In most of the cases yield data are not recorded but obtained by dividing the production data by the data on area harvested. …
“Harvested area” in turn is defined as:
Title: Area harvested
Definition:
Data refer to the area from which a crop is gathered. Area harvested, therefore, excludes the area from which, although sown or planted, there was no harvest due to damage, failure, etc. …
From this, it is clear that the authors of L2010 are not calculating the yield correctly. They have calculated the yield for Baja 2004 as 25 tonnes / 592 hectares planted = 0.04 tonnes/ha, a meaningless result. This is why yield is always calculated based on the area harvested, not based on the area planted. Obviously, something happened in Baja in 2004 that wiped out most of the corn crop. But for the remaining area, the yield was 25 tonnes / 10 hectares harvested = 2.5 tonnes/ha, not far from normal.
Overall, this is a very significant error. To take one example of the effect of the error, Figure 2 shows the correlations between Mexican annual temperatures and corn crop yields (correctly and incorrectly calculated).
Figure 2. State by state correlations between annual temperature and corn crop yields, 1995-2004. “Yield” is production / area harvested. “Incorrect Yield” is production / area planted, as used in L2010.
Note that in some States (Aguascalientes, Campeche, Yucatan), one dataset shows a very small correlation between temperature and yield, while the other shows 20%-40% correlation. In some cases (Nueva Leon, Queretaro, San Luis Potosi) one shows positive and one shows negative correlation. Overall, there are many results which are significantly different.
Because the correlations of the yield are central to their analysis, this error invalidates the paper and requires the recalculation of all the relationships. Remember that their thesis is:
Climate Change —> Reduced Mexican Crop Yields —> Migration to US
Note that there are two separate mathematical relationships in their claim. One relates climate change (temperature and rainfall) to changes in yield. The other relates changes in yield to migration rates. An error in the yield, therefore, requires a recalculation of both relationships, with new error bounds, etc.
Since the original web site is in Spanish, this error may simply be a misunderstanding of what the web site says. However, that slides over the question of why they didn’t simply use the yield figures provided in their data source …
I have posted up the Area Planted, Area Harvested, Production, Annual Temperature, and Yield figures here as an Excel spreadsheet. To determine which one they used (area planted or area harvested), it is necessary to take 5-year averages of the data (1995-1999 and 2000-2004) and compare the answers to Table S1 of the Supplementary Online Information. I can reproduce their results only by the incorrect usage of area planted instead of area harvested. Note that “Log Corn Yield” in Table S1 of their paper is the natural log (ln) of the yield.
I have pointed out some good about the study, and some bad, so onwards to the interesting. One interesting thing to me is the variety of responses of different states to increased or decreased temperatures. In a third of the Mexican states, warmer is better for corn (positive correlation). In two-thirds of the Mexican states, on the other hand, cooler is better for corn. Hmmm …
Another interesting thing is the change in the Mexican country average yield for corn. Figure 3 shows both the country average yield and average annual temperature for 1995-2005:
Figure 3. Mexican Corn Yield (red line, left scale) and Temperature (blue line, right scale) Photo Source
Fig. 3 highlights one of the real shortcomings of their study. This is the very short time period that they are investigating. However, taken at face value, this graph does not give much credence to the idea that increasing temperatures will reduce Mexican corn yield … (note that I make no claim that this relationship is meaningful or statistically significant. I only say it does not support the authors’ argument.)
As noted above, there are two mathematical relationships involved in their claim. One is temperature/precipitation vs yield, and the other is yield vs emigration. For the yield vs. emigration, the Mexican dataset is short. So I understand that they have to make do with what they have. But yield versus temperature has a much longer dataset. The temperatures from their source span 1971 to the present, and the state-by-state crop data goes back to 1980. So they should have established the corn yield/temperature link using all of the data available (1980-2009), even though the other yield/emigration link has so much less data.
How does something like this get published? I suspect that this is another example of a member of PNAS using their “Proceedings” publication as a vanity press with little in the way of peer review. The article is edited by Stephen Schneider, who also edited the other recent “blacklist” paper, so it’s clandestinely flying across the border under the peer-review radar …
Hopefully, this will be the last of the posthumous Schneider “science” for us to deal with. The only good thing about Schneider was that when I saw his name on something, I knew I could likely find errors in it … made my job that much easier.
Look, I don’t like to speak ill of the dead. Stephen Schneider was probably a nice man who loved his family and petted puppies and brought the homeless blankets and dinner. But his general claims were often a “post-normal science” abomination, and his scientific work (as in the present instance) was sometimes very slipshod.
In particular, Schneider is noted for his statement regarding the obligations of scientists:
To capture the public imagination, we [scientists] have to offer up some scary scenarios, make simplified dramatic statements and little mention of any doubts one might have. Each of us has to decide the right balance between being effective, and being honest. This ‘double ethical bind’ we frequently find ourselves in cannot be solved by any formula. Each of us has to decide what the right balance is between being effective and being honest. I hope that means being both.
To me, the most scary scenario is scientists who balance their honesty with effectiveness, or with anything else for that matter. I don’t want scientists who make little mention of their doubts. I don’t want scary scenarios from scientists, that’s why God made Hollywood and the BBC.
I want scientists who are as honest as possible, about their doubts and everything else. Schneider’s view, that scientists should balance honesty and effectiveness, is extremely and insidiously dangerous to science.
So, as un-PC as my view might be, I am overjoyed to see the last post-mortem gasp of Schneider’s apocalyptic alarmism. Am I glad he is dead? No way. As the poet said,
Each man’s death diminishes me,
For I am involved in mankind.
I am very happy, however, that he is no longer teaching at Stanford, that he is no longer writing garbage for me to wade through, and that he is no longer busily filling up the porches of the Stanford students’ ears with “cursed hebenon” …
My regards to all,
w.
PNAS has now completely jumped the shark. If the authors had attempted to explain why acres harvested were so much lower than acres planted, maybe they would have an interesting study. Without that, though, it’s just fantasizing. Yield is, and always has been, measured by how much you harvest relative to the size of the area harvested. There is no other acceptable way of measuring it. Otherwise you are incorporating discontinuous factors (fire, mechanical failures, etc.) into what should be a measure of continuous effects (weather, cropping practices, soil fertility, plant strains, etc.). If the description of this study is accurate, it is the result of contemptible distortionary practices on the part of the authors.
Heh, I was wondering about Central America and the northern parts of South America. Will those populations migrate north into Mexico?
Phil R says:
July 28, 2010 at 6:38 pm
Heh, I was wondering about Central America and the northern parts of South America. Will those populations migrate north into Mexico?
_______________________________________________________
They already are.
The only reason you do not notice is because:
1. Mexico has much tighter border control than the USA so there is not quite as much of a flood.
2. Most Americans can not tell the difference between Mexicans and others. Many of my customers are Spanish speaking and have a variety of homelands including Spain.
Just spitballing here but…
2007 was teh warmest year since the time the Rio Grande emptied into Africa
2007 was teh largest corn production year in teh US since teh Mehicans invented maize
2007 two billion bushels of US corn (20% of total US crop) used for alcohol production up from 0.2 billion bushels in 2000 and (go figure) we’re still as dependent on foreign tequila as ever
2007 price of corn in Mexico half what it was in 1994 due to NAFTA passage flooding their market with cheap US corn causing 1.3 million small farmers in Mexico to go belly up
Conclusion is obvious:
Don’t drive when you can drink!
Or something like that…
Obvious!
Robert says:
July 28, 2010 at 5:10 pm
“No need to speak ill of Schneider?” What planet are you from? Schneider and his actions have done untold damage to science. Perhaps you would like to ignore that or sweep it under the rug. Me, not so much. You want to construct a hagiography, that’s your choice, you can pretend he deserved respect. I’d prefer to remind people of just who Schneider really was, an activist politician poorly disguised as a scientist. He not only damaged science when he was alive, he has reached out from the grave with his final paper to continue doing so, making alarmist claims based on shoddy math.
Finally, if bloggers want to diss me when I’m dead, fine. They diss me plenty when I’m alive … what’s the difference?
harrywr2 says:
July 28, 2010 at 5:34 pm
Yes, that’s one of the more common reasons for not harvesting, simply because the price is too low. As I said above, including those kinds of events by using “area planted” in a study of the effect of climate on crops merely makes your results less accurate.
Robert Kral says:
July 28, 2010 at 6:33 pm
I was with you up to the last sentence. I don’t know whether what they did was an honest mistake or “contemptible distortionary practice”. Given the shoddy general state of climate science, a mistake is far from improbable.
Since I don’t know what caused the error, and since a mistake is quite possible (particularly since the source data is in Spanish) I’m sticking with “foolish mistake” until otherwise notified.
Pat Frank says:
July 28, 2010 at 6:19 pm
I don’t know enough about the inner workings of the PNAS to know if that is true or not. I have read that NAS members can submit a manuscript to PNAS which does not have to pass the regular peer review. I’m not aware if Ralph Cicerone is involved in the process or not. However, you are correct that Cicerone is part of the problem, not part of the solution.
Willis Eschenbach says:
July 28, 2010 at 4:37 pm
“There are many non-climatic reasons that crops are not harvested. These include such prosaic things as fire, locusts, bad seed, plant diseases, and business failure of the farmer. Why would you want to include the area of production destroyed by non-climate disasters in a study of climate?”
I side with pax and the authors on this one. Why exclude crop failures due to droughts, hail and floods when doing a climate study. Surely the majority of non-harvested crops are due to natural effects like this. You may get an overly rosy picture by excluding such failures, and should look closely at the reasons for them before dismissing them all in bulk in case you have missed major droughts, for example.
This freeway road sign has been in use in the San Diego area for many, many years. It is so iconic that T-shirts are sold with the image.
And here are the poor Mexican farmers entering the U.S.
The problem predates the current administration [watch the background evidence of desperate farmers escaping the Mexican climate holocaust].
Even as the poor Mexican farmers emigrate, they take their cultural values with them.
Amazingly, Mexico is plagued by climate change much more than other countries.
Poor Mexican farmers. Only Dr Stephen Schneider surely understood their plight.
Good deconstruction job as usual, Willis. Editor Schneider’s paper was total crap, as he certainly should have known.
With all the Mexicans illegally crossing our southern borders, the number of farm workers in Mexico will decrease, which in turn will decrease Mexico’s food supply, which will cause more migration, which will …… It looks like we’ve finally found the elusive AGW positive feedback.
re; border transgressions
My wife’s ancestors were, as she pointed out to me 30 years ago shortly after we met, living here (Texas) for 10,000 years before a boatload of my ancestors arrived on the Mayflower.
So I says to her, tell me that in Spanish ya hot little tamale, it turns me on.
Then she got mad. Her only language is the King’s English.
gail combs –
your link to goldman sachs/amstutz connection is not working properly, tho i was able to go to the homepage and do somesearching…
btw perhaps someone can contact Diana Liverman?
Arizona Daily Star: Climate change predicted to cause Mexican influx
Diana Liverman, a University of Arizona climate researcher, criticized the new study for basing its forecasts in part on research that she worked on in the early 1990s that looked at crop yields in only two central Mexico sites.
In reply, Oppenheimer said the Princeton study found similar results in a second crop-yield study, and the crop reductions predicted for Mexico are typical of what has been predicted for other countries in that latitude.
Liverman said that while she believes climate change could cause widespread migration, she has seen no study documenting it. Having studied the problems of Mexican farmers for two decades, she said she has found that a bad economy, the government’s withdrawal of agricultural subsidies and the North American Free Trade Agreement have caused problems far greater than climate change.
http://azstarnet.com/news/local/border/article_7a77f457-a50d-5c40-b26a-a8072befedfe.html
If all the Mexicans were moving to Iowa they would have some supporting evidence. But since the vast majority of Mexicans end up within a relatively short distance of the USA/Mexico border (where the temperatures are no different than in Mexico) it leads one to suspect the impetus to immigrate was not temperature or corn yield. (See: National Geographic Nov 2003 map of where the latino nation is rising.)
One reason that there are so few hectares harvested in Baja though there are many planted is that drug farmers grow pot in between rows of corn. Drug rivals and DEA raids burn these fields to the ground, thus no harvest is possible.
Now, since most illegals coming across the border are mules carrying drugs, it stands to reason that the more hectares that are planted as “corn” but are in reality marijuana, there will be greater need for more mules to carry the larger pot crop, hence you get more illegals when drug gangs have higher yields of marijuana….
In the movie HOOSIERS, during the state chanpionship game an early time-out is called because the protagonist team (the Huskers) is getting whupped. As the players reach the bench, one of the players says: “This is embarrassing!” If I were a member of the AGW team (the Hucksters), that’s how I’d feel after reading the PNAS paper “proving” cause and effect between global warming and Mexican northern migration. And for you AGWers who want to respond by saying: “Yeah but the Huskers won the game”, I have this response. The Huskers were coached by a reformed bully who taught fundamentals. The Hucksters are coached by a cadre of practicing bullies who wouldn’t know a fundamental if it bit them on the butt.
Willis, I admire your generous impulse in calling this a mistake rather than deliberate distortion. But think of it this way: if they were writing an article involving measurements of blood pressure, and instead of the standard metrics of blood pressure they made up their own measurement, what would you call that? Honest mistake or hanky-panky?
In a previous comment I erroneously referred to “0.3 to 0.5 mm/year of sea level rise envisaged by IPCC”. Sorry for that. It should have been 3 to 5 mm/year (about 30-50 cm per century). However, the rest of the comment stands.
Jim D says:
July 28, 2010 at 7:50 pm
….I side with pax and the authors on this one. Why exclude crop failures due to droughts, hail and floods when doing a climate study. Surely the majority of non-harvested crops are due to natural effects like this. You may get an overly rosy picture by excluding such failures, and should look closely at the reasons for them before dismissing them all in bulk in case you have missed major droughts, for example.
______________________________________________________
Because you had better start determining exactly why each field was not harvested such as corn earworm (Helicoverpazea), fall armyworm (Spodoptera frugiperda), black cutworm (Agrotis ipsilon), and western bean cutworm (Striacosta albicosta) larva, European corn borer, stalk rot or rootworm damage, not to mention the cows got out and munched their way through the field, the equipment is broken, you broke a leg…..
(European corn borer (Ostrinia nubilalis) and corn root worm (Diabrotica sp), the most widespread and damaging insect pests of corn in the U.S. Corn Belt.)
You can lose an entire field to any of these diseases or pests and in some cases, especially if insecticides and fungicides are not available, the only control may be to burn the field. I lost every single apple in my orchard to the Plum Cucurio. It is a big problem in fruit treas and can easily take 98% of the crop. You have a 24 hour window to spray for the plum cucurio or you lose the year’s crop. (I do not grow corn so I do not know if there are similar problems)
That is why the yield per acre is used.
@willis
“Look, I don’t like to speak ill of the dead.”
Must have been quite a painful experience writing this article then.
I’ve read more far credible articles than this latest bit of limp PNAS in the now defunct National Lampoon.
Willis, another confounding factor is that the migrants are human beings, not ants. They get paid more and enjoy superior benefits harvesting US corn! Maybe the Baja corn was left behind by workers who went to harvest California corn.
A fantastic “quote of the day” is made near the end of the article.
“I don’t want scary scenarios from scientists, that’s why God made Hollywood and the BBC.”
Jim D says:
July 28, 2010 at 7:50 pm
You generally want to exclude such catastrophic effects in most studies of gradual changes, regardless of their cause. This is particularly true when we have absolutely no idea whether the changes are climate related, or are due to low prices, equipment breakdowns, fires, labor strikes, lack of transportation, fungus-infested seeds, plant diseases, or other non-climate reasons.
For example, if we want to see if a nutrition regime improves the speed of a sprinter, we would not want to include the times when the sprinter stumbles coming off the blocks. All that does is include erroneous noise.
This is all ex post facto reasoning, however. If they wanted to use production / area planted instead of production / area harvested like everyone else on the planet uses, they needed to both point that out and justify their action. And to justify their actions, they would need to do more than simply make your claim that “Surely the majority of non-harvested crops are due to natural effects.” They would need to show how much of the catastrophic losses are caused by climate and how much are not.
Since they did neither, I hold that it is in fact an error.
Gail Combs says:
July 28, 2010 at 8:51 pm
“Because you had better start determining exactly why each field was not harvested such as corn earworm (Helicoverpazea), fall armyworm (Spodoptera frugiperda), black cutworm (Agrotis ipsilon), and western bean cutworm (Striacosta albicosta) larva, European corn borer, stalk rot or rootworm damage, not to mention the cows got out and munched their way through the field, the equipment is broken, you broke a leg…..”
Have you ruled out that pests/fungi can relate to climate in any way? Hint: how about pine bark beetle? Willis also didn’t want to include fires; not so sure about that one either. If the additional factors leading to non-harvesting were truly random, they would have destroyed rather than enhanced the correlations.