In fact, more atmospheric CO2 will spur crop growth – if we let it
Guest essay by Dennis T. Avery
Historian Geoffrey Parker is the author of Global Crisis: War, Climate Change and Catastrophe in the 17th Century. In a recent opinion piece, he suggested that the desperate climate from 1600 to 1700 is a template for human collapse in our twenty-first century. There are two massive flaws in his theory.
Almost all past agricultural and cultural collapses occurred during “little ice ages,” not during our many global warm periods. In addition, today’s seeds, fertilizers and modern farming techniques and technologies are far superior to anything mankind possessed during previous crises.
The seventeenth century was part of the 550-year Little Ice Age, the most recent of at least seven “little ice ages” that have befallen the planet since the last Pleistocene Ice Age ended some 13,000 years ago. Studying sediment deposits in the North Atlantic, Gerard Bond of the Lamont-Doherty Earth Observatory found such centuries-long “little ice ages” beginning at 1300 AD, 600 AD, 800 BC, 2200 BC, 3900 BC, 7400 BC, 8300 BC, and perhaps at 9100 BC. In fact, these worldwide Dansgaard-Oeschger disasters arrived on a semi-regular basis some 600 times over the past million years.
Each of these icy ages blasted humanity with short, cold, cloudy growing seasons, untimely frosts, and extended droughts interspersed with heavy and violent rains. Naturally, their crops failed. Humanity’s cities starved to death, repeatedly – with seven collapses in Mesopotamia, six each for Egypt and China, two for Angkor Wat and at several calamities in Europe.
The early cultures gave the illusion of continuity: the Nile and the Yangtze always had at least a little irrigation water. However, “little ice age” hunger and disease drove human and animal migrations across thousands of miles and over continents, led to major invasions like the Huns into Europe’s Dark Ages, and caused the collapse of kingships and ruling dynasties around the globe.
While acknowledging the existence of the cold, chaotic periods, the Intergovernmental Panel on Climate Change has barely factored them into its computer models. The IPCC seems to think it is just coincidence that our warm and relatively stable Modern Warming directly followed the latest awful Little Ice Age.
Moreover, our recent climate has been more stable than the chaotic “little ice ages.” Iraq has not had a three-century drought recently. The Volga River Valley has not been too flooded to farm for 700 years, as happened after 600 BC. British logbooks show the Little Ice Age featured more than twice as many major hurricanes making landfall in the Caribbean, compared to the twentieth century.
Parker mentions three possible driving forces for the seventeenth century collapse: volcanoes, El Niños, and the sun. There’s no cycle in the volcanoes, however, and the El Niños are too short – rarely lasting more than a year or two. That leaves the sun, and the powerful influences it has on Earth’s temperature and climate.
Indeed, Parker’s own book focuses on the Maunder Minimum (1645–1715 AD), the solar cold cycle that existed during and caused the depths of the Little Ice Age. During this time, the sun had virtually no sunspots for 70 years, significantly reducing the crop-growing warmth reaching our planet, while producing long periods of horrendous storms and floods that killed crops and ruined harvested grains.
We must compliment Parker for recognizing that the climate was the key to these global crises. He fails, however, to acknowledge that this has been a recurring pattern.
With this omission, Dr. Parker draws the wrong conclusion about the threat to future societies. There is no visible reason to expect famines today due to carbon dioxide, which improves plant growth for crops, forests, grasslands and algae, as atmospheric CO2 levels increase.
The danger is the cold, chaotic weather of the “little ice ages” themselves. That will shrink agricultural zones and shorten growing seasons. Another such icy period is inevitably coming, though not likely in the next two centuries, if past cycles are an accurate guide.
Regardless, for the next 20-25 years, humanity will likely be in another cooling period, caused by the sun’s reduced energy output and the Pacific Decadal Oscillation. We are about 150 years into the modern warming. Since the shortest of these warm periods during the Halocene was 350 years, and they generally last 350 to 800 years, it is unlikely that we will enter another Little Ice Age for a couple more centuries.
But even a prolonged cooler period (akin to what Earth experienced 1860-1900 and 1940-1975) could create problems for some crops in some areas: such as grapes in Washington, Wisconsin and Great Britain. Mostly, though, modern crops and agricultural practices can handle colder weather and shorter growing seasons reasonably well – and certainly much better than was the case for previous generations of humans during previous colder spells
Dr. Parker nearly redeems himself by making the most valid point of all. We now have science and transportation to deal much more effectively with that coming “little ice age.” Our biggest advantage is our modern high-yield agriculture. Today we harvest perhaps six times as much food per acre as the desperate farmers of the seventeenth century, and our yields keep rising, thanks to scientific breakthroughs like nitrogen fertilizer, pesticides and hybrid seeds.
We must also thank unfairly maligned biotechnology, which lets us grow many crops that are disease, drought and insect resistant; rice that can survive prolonged periods under water; plants that are resistant to herbicides and thus facilitate no-till farming that improves soils and reduces erosion; and specialty crops like “golden rice” that incorporate formerly missing nutrients into vital foods.
Our crop yields are also rising because of another surprising factor: more atmospheric carbon dioxide. This trace gas (400 ppm or 0.04% of Earth’s atmosphere) acts like fertilizer for plants, and thus for the animals and people who depend on them. Studies show that doubling CO2 in the air will boost the growth of herbaceous plants by about 30% to 35%; trees will benefit even more.
Indeed, satellites show that Earth’s total vegetation increased 6% just from 1982 to 1999, as CO2 levels increased. Famines in a CO2-warmed tomorrow are therefore less likely, not more.
If humans have food, they can do all the other things necessary for civilization. However, we must double food production per acre – again and rapidly – to feed the world’s oncoming peak population, and enable all people to enjoy the nutrition that Americans and Europeans already do.
Equally important, since 1960, higher yields have also saved wildlife habitat equal to a land area greater than South America from being plowed for more low-yield crops. The price of farming failure in coming decades will not be famine. Instead, it will be the loss of hundreds of millions of acres of wildlife habitats.
Misguided opposition to biotechnology, fossil fuels and increased atmospheric carbon dioxide could very well condemn millions of people to malnutrition and starvation, and numerous wildlife species to extinction.
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Dennis T. Avery is an agricultural and environmental economist and a senior fellow for the Heartland Institute in Chicago and the Center for Global Food Issues in Virginia. He was formerly a senior analyst for the U.S. Department of State and is co-author, with S. Fred Singer, of Unstoppable Global Warming Every 1500 Years. Readers may email him at CGFI@mgwnet.com and visit his website at www.CGFI.org
re: Latitude says: June 2, 2014 at 7:33 am
Not really. We’ve been selectively breeding and hybridizing plants to grow better, period. Well, or at least with more pest resistance, drought resistance, and other various traits anyhow. We were NOT, however, selecting for anything specifically related to CO2 levels. In fact, in greenhouses they pump in CO2 to about 1,200 ppm.
The point is that all the selective breeding and hybridizing we’ve done may or may not have anything to do with growth v. CO2 levels at all. And, in fact, a number of studies seem to show that most modern day plants tested do in fact still grown notably better in far higher CO2 levels than we currently have on Earth. What’s more, satellites and other measures also show that in fact over the past few decades the Earth has “greened” and become more biodiverse – forests are growing faster, etc. Perhaps that’s due to the slight added warmth, but just as or more likely, because of the added CO2.
Physiologically (for plants), there is no denying that they all can AND DO grow far better at higher CO2 levels. Why? Because they mostly evolved during times of higher CO2. Carbon fixation works more efficiently at higher CO2 levels because a) there is more available for fixation into carbohydrates and the higher concentration helps push the chemistry in the direction of fixation, AND B) because the plants don’t have to open their stomata (leaf pores) as much to get X amount of CO2 inside the leaf tissue in order to be incorporated into carbohydrates, which means less water loss and greater drought/heat tolerance.
So, as a plant physiologist, all plants on earth readily taken advantage of higher CO2 levels because they aren’t unnatural and all plants evolved during times when CO2 levels were higher.
Cheers,
Alex Avery (Dennis’ son)
;^)
To underline Non Nomen’s point, the science &
science fiction writer Jerry Pournelle asserted that even now, rice
production in South India has not yet equaled what the Japanese
recorded in the 12th century. Pournelle also went on to describe
low-cost methods for stopping rats devouring stored grain, etc.,
that could easily be implemented.
I do not have an on-line reference for this; I will search for the book
I read this in and post at a later time.
Farmers put vegetables in greenhouses to grow faster. Warm climate is good for agriculture. Are we running out of food? We throw away 30% of global food production and cows eat more corn and grains than humans. World hunger is caused by poverty not lack of food supply.
Dr. Strangelove says, “We throw away 30% of global food production and cows eat more corn and grains than humans.”
The grains and corn that cows eat is converted into either beef or dairy. Both are superior sources of protein. Beef provides Zinc, Protein, and vitamin B and an 8oz glass of milk gives 8g protein.
Cows also eat a lot of crops which were bound to go to waste, such as apples and potatoes which did not make the grade. Cows graze and keep tall grasses from becoming fire hazards in the hotter months.
Dr. Strangelove says, “We throw away 30% of global food production…”
Can any one provide the reference for this statement?
Unless Dr. Strangelove is speaking of using arable land to fill American’s car tanks with Congressional designer green gas, when there is plenty of oil located on continental shelves and in ANWR.
Or perhaps the commenter is referring to the waste and loss of crops not taking measures to control weeds, insects, fungi, and blight, thus losing 100-50% of productivity per acre on a regular basis, as a matter of practice.
To Zeke:
I think Dr. Strangelove appropriated the 30% figure from
Non Nomen‘s post above. I suspect that the figure for
loss is roughly correct. Much of the world loses quite a bit of the harvest
to vermin.
This was the point that I seconded by quoting Jerry Pournelle, above.
The book which I referenced turns out to be After Armageddon
(There Will Be War, Vol. 9), edited by Pournelle. This was a book
of science fiction short stories premised by the idea that the world
civilization had collapsed–and what then? Pournelle also provided some
editor’s comments prefatory to each story. The revelation I quoted in my
post above came from a very extensive editor’s comment prefacing a John
Brunner story. The portion referencing food production was on pp. 204-205.
Pournelle may be correct about rats but no discussion about Indian rice is complete without repeating to every generation that Norman Borlaug is responsible for the increased production of wheat and rice in India, so that India became a net exporter of grain, just as Mexico had. The use of Borlaug’s methods have always been opposed by heartless environmental activists in the Western world, who yanked Borlaug’s funding before he could reach Africa. The arguments were that the pesticides, herbicides, and fertilizers would harm the African environment, and that the purity of local species would be compromised.
But organic practices require brown girls to get down and hand pick the weeds from the cotton and rice themselves. That is what will happen in India and even Europe if these Boomers ignore all objective reality and science and force agriculture into organic only farming through UN treaties, and diktats from the EU. Arguably, that is even worse than rats.
Zeke says:
June 3, 2014 at 11:22 am
Dr. Strangelove says, “We throw away 30% of global food production…”
Can any one provide the reference for this statement?
_______________________
There is the so-called cofresco survey that examined losses within the sphere of consumers/households. It is available as .pdf in german language here
http://www.cofresco.de/pdf/Results_Save_Food_Study_Germany.pdf
It says -in short- that (translation by google):
>>In Germany about 21 % of the food purchased by households to be thrown away .
This corresponds to a total of about 6.6 million tonnes, or
a total value of over 25 billion euros per year.
Each German raises annually thereafter , on average, about 80 kg of food away .
This corresponds to a per-head-Amount of about 310 euros .
For comparison in France, the proportion of discarded food is also
about 21% as high as in Germany ; in Spain it is somewhat lower at about 18%.<>59 %, significantly more than half of discarded food are the
result of improper procurement planning or not optimal storage .<<
The tons and tons of food that is discarded in the retails stores and the tons and tons of food that didn't make it to the stores has to be added.
So a 30% loss is not a figure from the rooms of fantasies….
->english version<-
http://www.cofresco.de/en/unternehmen/save-food/verschwendung.html
Zeke
Ask cattle raisers for more info. Cows eat many times their body weight so you get little beef vs. the grains they eat, which humans eat too. Soy beans are a good source of protein. Most commercial farms feed their cattle with animal feeds made of corn, also edible to humans. Grazing land can be planted with rice, wheat and other crops to feed humans.
30% is food spoilage in storing, transporting and leftovers.
For a forecast of the timing and extent of the coming cooling see
http://climatesense-norpag.blogspot.com/2013/10/commonsense-climate-science-and.html
Here are the conclusions.
“I have combined the PDO, ,Millennial cycle and neutron trends to estimate the timing and extent of the coming cooling in both the Northern Hemisphere and Globally.
Here are the conclusions of those posts.
1/22/13 (NH)
1) The millennial peak is sharp – perhaps 18 years +/-. We have now had 16 years since 1997 with no net warming – and so might expect a sharp drop in a year or two – 2014/16 -with a net cooling by 2035 of about 0.35.Within that time frame however there could well be some exceptional years with NH temperatures +/- 0.25 degrees colder than that.
2) The cooling gradient might be fairly steep down to the Oort minimum equivalent which would occur about 2100. (about 1100 on Fig 5) ( Fig 3 here) with a total cooling in 2100 from the present estimated at about 1.2 +/-
3) From 2100 on through the Wolf and Sporer minima equivalents with intervening highs to the Maunder Minimum equivalent which could occur from about 2600 – 2700 a further net cooling of about 0.7 degrees could occur for a total drop of 1.9 +/- degrees
4)The time frame for the significant cooling in 2014 – 16 is strengthened by recent developments already seen in solar activity. With a time lag of about 12 years between the solar driver proxy and climate we should see the effects of the sharp drop in the Ap Index which took place in 2004/5 in 2016-17.
4/02/13 ( Global)
1 Significant temperature drop at about 2016-17
2 Possible unusual cold snap 2021-22
3 Built in cooling trend until at least 2024
4 Temperature Hadsst3 moving average anomaly 2035 – 0.15
5 Temperature Hadsst3 moving average anomaly 2100 – 0.5
6 General Conclusion – by 2100 all the 20th century temperature rise will have been reversed,
7 By 2650 earth could possibly be back to the depths of the little ice age.
8 The effect of increasing CO2 emissions will be minor but beneficial – they may slightly ameliorate the forecast cooling and help maintain crop yields .
9 Warning !! There are some signs in the Livingston and Penn Solar data that a sudden drop to the Maunder Minimum Little Ice Age temperatures could be imminent – with a much more rapid and economically disruptive cooling than that forecast above which may turn out to be a best case scenario “