What Dr. Loren Cordain Says About Grains

[tex]

Hi All,

The question of whether it might be helpful for us to avoid some grains, or all of them, comes up so often that I thought it might be worthwhile to review some of the basic facts involved. Since IMO, there is no better source of information on this topic than Dr. Cordain, here is how he starts a detailed article that discusses cereal grains, (written over 10 years ago). (Note that "Maize" is the name used in most of the world, for the grain that we here in the U. S. refer to as "Corn"). Also, the red emphasis is mine, of course:

Introduction

The number of plant species which nourish humanity is remarkably lim-
ited. Most of the 195,000 species of flowering plants produce edible parts
which could be utilized by man; however less than 0.1% or fewer than 300
species are used for food. Approximately 17 plant species provide 90% of
mankind’s food supply, of which cereal grains supply far and away the greatest
percentage (tables 1, 2). From table 1, it can be shown that the world’s four
major cereal grains (wheat, maize, rice and barley) contribute more tonnage

Table 1. The world’s top 30 food crops
Million metric tons
(estimated edible dry matter)

1 Wheat 468
2 Maize 429
3 Rice 330
4 Barley 160
5 Soybean 88
6 Cane sugar 67
7 Sorghum 60
8 Potato 54
9 Oats 43
10 Cassava 41
11 Sweet potato 35
12 Beet sugar 34
13 Rye 29
14 Millets 26
15 Rapeseed 19
16 Bean 14
17 Peanut 13
18 Pea 12
19 Musa 11
20 Grape 11
21 Sunflower 9.7
22 Yams 6.3
23 Apple 5.5
24 Coconut 5.3
25 Cottonseed (oil) 4.8
26 Orange 4.4
27 Tomato 3.3
28 Cabbage 3.0
29 Onion 2.6
30 Mango 1.8


Adapted from Harlan [3].

to humanity’s food supply than the next 26 crops combined. Eight cereal
grains: wheat, maize, rice, barley, sorghum, oats, rye, and millet provide 56%
of the food energy and 50% of the protein consumed on earth [1]. Three
cereals: wheat, maize and rice together comprise at least 75% of the world’s
grain production (table 1). It is clear that humanity has become dependent
upon cereal grains for the majority of its food supply. As Mangelsdorf [2] has
pointed out, ‘cereal grains literally stand between mankind and starvation’;
therefore, it is essential that we fully understand the nutritional implications
of cereal grain consumption upon human health and well being.
Modern man has become so dependent upon eating cereal grains (grass
seeds) that it has prompted at least one author [3] to say that we have become
‘canaries’. However, this has not always been the case. For the vast majority
of mankind’s presence on this planet, he rarely if ever consumed cereal grains
[4]. With the exception of the last 10,000 years following the agricultural
‘revolution’, humans have existed as non-cereal-eating hunter-gatherers since
the emergence of Homo erectus 1.7 million years ago. Although the first
anatomically modern humans (Homo sapiens) appeared in Africa 90,000
years ago, humans prior to the mesolithic period (~15,000 years ago) like
other primates rarely if ever utilized cereal grains [4]. Post-pleistocene (~10,000
years ago) hunter-gatherers occasionally consumed cereal grains; however
these foods were apparently not major dietary components for most of the
year [5]. It is apparent that there is little or no evolutionary precedent in our
species for grass seed consumption [6–8]. Consequently, we have had little
time ( 500 generations) since the inception of the agricultural revolution
10,000 years ago to adapt to a food type which now represents humanity’s
major source of both calories and protein.

The sum of evidence indicates that the human genetic constitution has
changed little in the past 40,000 years [7]. The foods which were commonly

Table 2. Food group totals (estimated edible dry matter)

Million metric tons

1 Cereals 1,545
2 Tubers 136
3 Pulses 127
4 All meats, milk and eggs 119
5 Sugar 101
6 Fruits 34

Adapted from Harlan [3].

Table 3. Key events in the development of agriculture and domestication of cereal grains

Event Time from present Location
years

Development of agriculture 10,000 Near East
8,000 Greece, West Africa
7–8,000 Central and S. America
7,000 China, India and SE Asia
6,500 Paris basin
6,000 Central Africa
5,500 Scandinavia, England
Domestication of wheat and barley 10,000 Near East
Domestication of rice 7,000 China, India and SE Asia
Domestication of maize 7,000 Central and S. America
Domestication of millets 5–6,000 Africa
Domestication of sorghum 5–6,000 East Africa
Domestication of rye 5,000 SW Asia
Domestication of oats 3,000 Europe

available to preagricultural man were the foods which shaped modern man’s
genetic nutritional requirements. Although our genetically determined nutri-
tional needs have changed little in the past 40,000 years, our diet has changed
dramatically since the advent of agriculture 10,000 years ago [7]. Cereal grains
as a staple food are a relatively recent addition to the human diet (table 3) and
represent a dramatic departure from those foods to which we are genetically
adapted. Discordance between humanity’s genetically determined dietary
needs and his present day diet is responsible for many of the degenerative
diseases which plague industrial man [9]. Although cereal grains are associated
with virtually every highly developed civilization in mankind’s history and
now occupy the base of the present day food selection pyramid in the United
States [10], there is a significant body of evidence which suggests that cereal
grains are less than optimal foods for humans and that the human genetic
makeup and physiology may not be fully adapted to high levels of cereal grain
consumption.

37 pages later, he offers these conclusions:

Conclusions

From an evolutionary perspective, humanity’s adoption of agriculture,
and hence cereal grain consumption, is a relatively recent phenomenon. Table
3 shows that this event occurred in most parts of the world between 5,500
and 10,000 years ago. Cereal grains represent a biologically novel food for
mankind [341, 342], consequently there is considerable genetic discordance
between this staple food, and the foods to which our species is genetically
adapted.

Cereal grains lack a number of nutrients which are essential for human
health and well-being; additionally they contain numerous vitamins and min-
erals with low biological availability. Furthermore, the inability of humans to
physiologically overcome cereal grain antinutrients (phytates, alkylresorcinols,
protease inhibitors, lectins, etc.) is indicative of the evolutionary novelty of
this food for our species. This genetic maladaptation between human nutrient
requirements and those nutrients found in cereal grains manifests itself as
vitamin and mineral deficiencies and other nutritionally related disorders,
particularly when cereal grains are consumed in excessive quantity. More
disturbing is the ability of cereal grain proteins (protease inhibitors, lectins,
opioids and storage peptides) to interact with and alter human physiology.
These interactions likely occur because of physiological similarities (resultant
from phylogenetic commonalities) shared between humans and many herbi-
vores which have traditionally preyed upon the gramineae family. The second-
ary compounds (antinutrients) occurring in cereal grains (gramineae family),
were shaped by eons of selective pressure and were designed to prevent pre-
dation from traditional predators (insects, birds and ungulates) of this family
of plants. Because primates and hominids evolved in the tropical forest, wherein
dicotyledonous plants prevailed, the human physiology has virtually no evolu-
tionary experience with monocotyledonous cereal grains, and hence very little
adaptive response to a food group which now represents the staple food for
many of the world’s peoples.

Cereal grains obviously can be included in moderate amounts in the diets
of most people without any noticeable, deleterious health eects, and herein
lies their strength. When combined with a variety of both animal- and plant-
based foods, they provide a cheap and plentiful caloric source, capable of
sustaining and promoting human life. The ecologic, energetic eciency
wrought by the widespread cultivation and domestication of cereal grains
allowed for the dramatic expansion of worldwide human populations, which
in turn, ultimately led to humanity’s enormous cultural and technological
accomplishments. The downside of cereal grain consumption is their ability
to disrupt health and well being in virtually all people when consumed in
excessive quantity. This information has only been empirically known since
the discovery of vitamins, minerals and certain antinutrients in the early part
of this century.

The realization that cereal grain peptides interact with and induce change
in human physiology and therefore elicit disease and dysfunction is even newer
and dates to the early 1950s with the discovery of wheat gluten as the causative
agent in celiac disease. In the past 10 years has come the evidence (admittedly
incomplete) that certain cereal peptides may interact with the immune system
to elicit a variety of autoimmune-related diseases. These two seemingly distinct
entities (autoimmune disease and consumption of a staple food) are connected
primarily through an evolutionary collision of dissimilar genes which bear
identical products (molecular mimicry). Although, cereal grain consumption
may appear to be historically remote, it is biologically recent; consequently
the human immune, digestive and endocrine systems have not yet fully adapted
to a food group which provides 56% of humanity’s food energy and 50% of
its protein.

Cereal grains are truly humanity’s double-edged sword. For without them,
our species would likely have never evolved the complex cultural and techno-
logical innovations which allowed our departure from the hunter-gatherer
niche. However, because of the dissonance between human evolutionary nutri-
tional requirements and the nutrient content of these domesticated grasses,
many of the world’s people suffer disease and dysfunction directly attributable
to the consumption of these foods.

And here is a PDF of the complete article, for anyone who wants to read all the details. Note that there are no less than 342 references.

http://www.thepaleodiet.com/articles/Ce ... rticle.pdf

Loren Cordain knows his stuff.

Tex

[Polly]

Excellent, Tex!

We MCers are the living proof that our bodies are affected adversely by (and therefore rebelling against) grains. And, in my case, as I have said many times......I feel my best when I eat no grains at all.

Thanks for reminding us of all of the reasons why we are better off not eating grains. Although we have been forced by MC to cut most, if not all grains out of our diets, it may in fact be a blessing in disguise for our future health.

Is there a good forum to save this post so that it can be at our fingertips? Whenever I feel sorry for myself that I can't eat a grilled cheese sandwich, I can go back and re-read this.

Love,

Polly

[tex]

Polly,

I believe you're right on target - we as a group are an excellent example of why grains shouldn't be a major part of the human diet.

Good suggestion, I'll move it to the "Information on Diet" forum in about a week.

Love,
Tex

[Rosie]

The Paleo Diet discussion and the recent "salt" posts got me thinking about how salt fits into the Paleo diet. Consuming too much salt is rather common and leads to modern problems like high blood pressure. I mentioned that I recently read the book "Salt: A World History", and I went back to look about the early history of salt. Here is a quote:

Whatever records exist of humans in different stages of development,......it is generally found that hunter tribes neither made nor traded for salt but agricultural tribes did. On every continent, once human beings began cultivating crops, they began looking for salt to add to their diets.......Vegetable diets, rich in potassium, offer little sodium chloride.

Of course the domestication of herbivorous animals required providing them salt, as they weren't free to wonder and find natural "salt licks", and also the necessity of salt for preserving the meat. Also, it is amazing how much high salt food was consumed before refrigeration and canning became available in the last century. People consumed huge amounts of salted meat and fish, as well as picked cabbage and other vegetables. Does Cordain talk about salt?

This whole concept of the Paleo diet and the way modern diets aren't in tune with the way we evolved for millions of years is a real eye-opener!

Rosie

[mbeezie]

Thanks for sharing Tex. Great article for making the case for paleo.

it may in fact be a blessing in disguise for our future health.

Polly,

I truly beleive this is true. I work really hard at reminding myself of this frequently.

Love,

Mary Beth

[tex]

Rosie,

I'm not aware of any detailed articles written about salt, by Loren Cordain, but he does seem to stress a low-salt diet, based on the claim that salt was not a significant part of the paleo diet.

Personally, I feel that he does go a bit overboard, in stressing the consumption of lean meat, and very limited salt in the paleo diet. The reality is, the carcasses of a lot of wild animals do contain a lot of fat, especially at certain times of the year. Anyone who has skinned an elk or mule deer, (or caribou, or whatever), in the fall of the year, will tell you that the carcass is loaded with fat - in places it is often 2 or 3 inches thick, or more. And, I have no doubt that when our ancestors first discovered fire, and the cooking benefits that it provided, they immediately discovered how much better meat tasted, when it contained cooked fat. How could they not notice?

When you look at the surviving societies that still follow somewhat "traditonal" lifestyles and "traditional" diets, (such as the Inuit), you see that not only was fat not avoided, but it was preferred. Why would we assume that paleo people were too stupid to take advantage of the energy available in fat in the diet. They burned a lot of energy, and fat is excellent fuel. Even among the other native American tribes, (for example the plains Indians), pemmican was/is a staple in the diet, and pemmican is a mixture of dried meat, (jerked meat), and fat. I haven't been on an Indian reservation in decades, but the last time that I had an Indian guide, (Jicarilla Apache), his lunch/snacks while we were out all day, was pemmican. He offered me some of it, but I politely declined, and stuck with my sandwiches, and candy bars.

Fat, of course, is a luxury that has to be consumed promptly, because it is a primary cause of spoiling. To successfully store meat for extended periods, most of the fat must be removed before drying the meat. Salt will help to preserve even fatty meat, though, by helping to remove most of the water, while preserving the fat, without totally drying out the meat. That made it a very popular way to preserve meat.

I'm not the only one who feels that the paleo people ate more fat than is popularly claimed, incidentally. Have you ever read Sally Fallon's review of Dr. Cordain's "The Paleo Diet"?

http://www.westonaprice.org/book-review ... -diet.html

Most of us don't think of Dr. Cordain as a "professor of exercise", but it is indeed true that he is a professor in the Department of Health & Exercise Science, at Colorado State University, so I suppose we need to keep that in mind, when considering his writings.

Concerning general health, and the influence of a diet shifted to the use of grains, and dairy products, there is no doubt that the dawning of the Neolithic age led to a general decline in human health/stature.

The ancestors of modern Europeans arrived in Europe at least 40,000 years before present. Pre-glacial maximum Upper Palaeolithic males (before 16,000 BC) were tall and slim (mean height 179 cm, estimated average body weight 67 kg), while the females were comparably small and robust (mean height 158 cm, estimated average body weight 54 kg). Late Upper Palaeolithic males (8000-6600 BC) were of medium stature and robusticity (mean height 166 cm, estimated average body weight 62 kg). Stature further decreased to below 165 cm with estimated average body weight of 64 kg in Neolithic males of the Linear Band Pottery Culture, and to 150 cm with estimated average body weight of 49 kg in Neolithic females. The body stature of European males remained within the range of 165 to 170 cm up to the end of the 19th century.

http://hormones.gr/preview.php?c_id=127

Tex

[starfire]

, Tex. I love it!! I'm a big fan of (good tasting) fats and salt so naturally I loved it. I think the processed oils & such we use today are more harmful than natural fats. Call me crazy.

Love, Shirley

[Rosie]

Tex, it sounds like we need to take Dr Cordain's advice with a "grain of salt"......

I read Sally Fallon's review and not having actually read Dr Cordain's book, it sounds like he has tried to combine certain aspects of the way people ate way back when with what is considered to be a "healthy modern diet". After all, we can't all go out in the woods to hunt and wildcraft. But you certainly are correct that animal fats played a huge role in getting enough calories in the Paleo days. My concern is that if you try to adapt the true Paleo diet to what is available now, you might get the worst of both worlds. In other words, lots of animal fat may be good, but only in the context of eating the other food items like tubers, fruits, etc. that were normally part of the diet back then.

But all we can do is make the best compromises based on limited information and our personal intolerances. For me, I try to incorporate extra fat, both animal and vegetable, in my diet simply because I'm trying to maintain and hopefully put on some weight. So I don't skim the fat from my home-made stock, and eat nuts for snack. Avocado and coconut are major staples. But I eat chocolate and make gluten-free baked goods too. I will say that after this discussion, I am going to at least reduce the other grains in my diet, as I notice that they make up a larger percentage of calories than they probably should. But not eliminate them...... at least not now.........

Rosie

[Polly]

I tend to agree with you, Tex, about Cordain's over-emphasis on lean meats. But I would imagine that he would consider any free-range/wild animal to be safer food, even if it does contain fat. Studies have shown that the animals that graze have a better ratio of healthy fats - particularly, they are higher in the "Queen of Fats" - omega 3. I'm sure he feels that the way commercial animals are usually fed - stuffed with unnatural food like corn and soy (of all things) is much more unhealthy for them - not to mention the humans that eat them.

I really enjoyed this article. I had remembered the arguments about the relatively recent introduction of grains in human diets and consequent inabilty of our genes to adapt to their digestion, and I also recalled some discussions here about the natural toxins that grains contain to ward off certain predators, toxins that may be harmful to us. But I never realized that evolutionary fact - the fact that humans did not evolve with cereal grains in their natural environment. That says a lot, IMHO. I place a lot of importance on that. Just like in the case of vitamin D - humans began life on the African savannah where they were exposed for hours a day to full sunlight with little clothing so the skin could make TONS of vitamin D. When humans moved away from the equator, vitamin D levels dropped precipitously and certain diseases arose as a result. We are still suffering the consequences of this move today......well, not THIS group, which is very pro-vitamin D! LOL!.

Love,

Polly

P.S. I have a very strong suspicion that most of our autoimmune diseases are food-related, predominately grain-related. Time will tell..............

P.P.S. Shirley, I share your belief about nat'l. fats being healthier than processed fats!

[Joefnh]

Great article Tex, it does certainly help make the case for a Paleo diet which I have been doing quite well on. I never thought I would be eating this way but am finding the Paleo like diet very palatable. Polly your note on the vitamin D makes sense. I remember a documentary I saw on this topic,that stated the first described symptoms of rickets was noted in the nomadic European tribes that had wandered more than 20 degrees from the equator. In my area here in NE this time of year, we do not see the sun until about 8 AM and its gone by about 4PM certainly during those hours I am locked in a lab anyway.. its no wonder I have vitamin D deficiency.

--Joe

[tex]

Shirley,

I agree about the oils. When I was a kid, we butchered our own livestock, and starting with the first good norther, and repeating it every few months or so, (until the cold weather fizzled out), we would butcher a couple of hogs, and render the lard. We used 10 gallon metal cans, and if my memory is correct, we usually filled about a can and a half or so, which would provide enough lard for cooking, to last a long time. Crisco was available in the stores, but we seldom used any, except for later in the summer, when we ran of lard, (before the arrival of cold weather - pork processing needs to be done on a cold day, of course).

Tex, it sounds like we need to take Dr Cordain's advice with a "grain of salt"......

Polly,

I agree that grain feeding does not lead to healthy fat. And I truly believe that you're right about the probable connection between autoimmune diseases and grains in the diet. Of course our ancestors embraced any new source of food, since they were regularly facing the harsh reality of starvation. Basically, they didn't have any choice - it came down to either eating grains, or starving. These days, of course, if grains were just now being introduced as a possible source of food, knowing what we know now, in the face of good solid scientific evidence, many of us here would certainly never even consider eating them. I have a hunch, though, that most of the gullible, "unwashed masses" wouldn't hesitate to jump on them like a chicken on a June bug. Especially if they were available as "fast food".

Love,
Tex