Session 13 January 2024

Thank you for this jam-packed session! I always feel such hope when a new session comes out! About the glow in the veins, I do remember this from Session 8 April 2000:

Q: They ignore them. But, during the time Neanderthal man was on the Earth, did he live alongside Modern man?

A: Yes. Except modern type man was different then.

Q: In what ways?

A: DNA and psycho/electrical frequencies.

Q: Does this mean that their physical appearance was different from what we consider to be modern man?

A: Radiance.

Q: What do you mean "radiance?"

A: You find out!

Q: Oh, that's interesting. Well, there are legends that the Northern people had "light" in their veins. Very ancient belief. Is this what you are referring to?

A: Maybe.

Q: Was this light related to the hemoglobin level, the iron level in the blood?

A: Maybe.

Q: Did they have a much higher iron level in their blood?

A: Possibly....
 
Can anybody tell me more about how the agricultural way of life influenced people's thinking and development? Maybe there was a transcript. Or someone will share their observations.

After all, it is interesting that hunting and gathering do not provide guarantees of surviving the winter, and agriculture and raising livestock quickly led to the creation of money, states and gave rise to the vices of civilization and thinking. I really want to understand what Cassiopeia and nearby sources say about this.

I think I know what the C's have meant when they said, "The mindset of the purpose of the agrarian diet is related."

(gottathink) Dentist Weston Price has documented the drastic change in jaw structure following the introduction of agrarian diets to groups of peoples. Is this one of the causes of the DNA damage causing truncated fluid flow?

(L) Well, that's based on the question which we've already rejected. So I guess in a sense that question is unaskable as it's written... But the question is still valid: Does the introduction of agrarian diets help perpetuate this condition or this truncation, this genetic deficiency or lack of upregulation of the genes that allow for this?

A: Yes

Q: (L) So agrarian diets are wholly responsible?

A: No

Q: (L) Partly responsible?

A: Yes. The mindset of the purpose of the agrarian diet is related.

The purpose of the agrarian diet is about preserving the food for winter, because you cannot hunt and gather all year round in the current climate on this planet. So, what Weston Price has documented in his book is not actually the drastic change in jaw structure following the introduction of agrarian diets to groups of peoples, but he documented that drastic change in bone structure came as a consequence of introduction of food that came from the central states to its colonies. And the only way that food can be brought by long travel to the colonies unspoiled is by refining them. And in order to do that, you have to strip away that food from many nutrients. Wheat flour is stripped away from bran and germ, cows are fed certain food that makes the butter hard at room temperature, sugar is heavily used in canned food as a preservative, and so on...

And that is what Weston Price claimed that made people sick, the process of preserving the food, not agrarian diets per se.
 
We know that nothing can temper the spirit of a warrior as much as the challenge of dealing with impossible people in positions of power.
Suffering. Christ's spirit. Gotta think about how much even powerful Ceasar went through, it probably wasn't easy forgiving some of his enemies, whom he forgave only after defeating them. He strived like no other and is now mostly remembered as a 'dictator' by this generation. The 'Patriarchy' is hated on the left, which is sad, because they could use a little patriarchy in place of the 'Longhouse' ideology that drives Western woke society it seems.
 
I think I know what the C's have meant when they said, "The mindset of the purpose of the agrarian diet is related."



The purpose of the agrarian diet is about preserving the food for winter, because you cannot hunt and gather all year round in the current climate on this planet. So, what Weston Price has documented in his book is not actually the drastic change in jaw structure following the introduction of agrarian diets to groups of peoples, but he documented that drastic change in bone structure came as a consequence of introduction of food that came from the central states to its colonies. And the only way that food can be brought by long travel to the colonies unspoiled is by refining them. And in order to do that, you have to strip away that food from many nutrients. Wheat flour is stripped away from bran and germ, cows are fed certain food that makes the butter hard at room temperature, sugar is heavily used in canned food as a preservative, and so on...

And that is what Weston Price claimed that made people sick, the process of preserving the food, not agrarian diets per se.

In the session June 9, 2009, Laura speculates that our current agricultural situation came about because the spiritual technologies of the ancient megalith builders is no longer available to us - through a certain 'something' that happened:

(L) Well, if you think about a group of people who are setting up these massive stones like they were pieces of styrofoam. The stones collect energy and information. They then transduce the energy or amplify it. These people know things about movement, dances or spinning or something, that enables them to behave in concert with the stones so that they all become part of a grand machine that does things! All of the legends talk about stylized dances and the oldest things about Stonehenge say that it was the Temple of Apollo and that Apollo danced there all night at certain periods of time. Every 19 years, I believe. When you think about that, and the other places Apollo appeared, the inversions and redactions of the legends, and we come to these magical stones that produce things. Then we come to the head of Bran the Blessed which supposedly produced endless supplies of bread and fish or whatever else was desired. Bran’s head was the giver of all good things. But more than that, it was an oracle. It could speak. And here we have the idea of a similar function for Stonehenge: both an oracle as well as a giver of blessings and bounty. Anything you wanted or needed it provided for you. If you wanted to go somewhere, it transported you as in the legends of the flying carpets. It was magic transportation. All of these things are associated, when you track them back far enough, with a stone. The stones did everything.


(J***) And it is funny that stones come up. What I have been doing for the past 10 or 15 years is running around the globe collecting stones. I’ve been to some of the most ancient places on earth, and I go from one to the other. And from each one, I’ve collected stones. Plus, Apollo: on Crete, there was an oracle of Apollo on Tara…

(L) And there was Tara in Ireland…

(J***) I wouldn’t be surprised if Tara meant stone too! How is all this connected?

(L) Exactly. This is what I have always thought about these megaliths. They DID things. All of the things we think are the “signs” of civilization were done by the stones. Maybe Terry is right; these people were at some level of density where they could make this work. At some point, something happened, the ability was lost, and then people had to build cities, engage in agriculture, invent the wheel, and develop writing - because they could no longer do it the “easy” way. …

A: Stones were once utilized to provide for all needs, as the energies transmitted connected directly with the pituitary gland to connect spiritual realities with the material realms of 3rd and 4th densities. So you see, the “stone” was viewed as Matriarchal indeed!

Fast forward to now, the standard modern diet with lots of gluten, GMO corn, milk, etc., is poison to the human system, making humans became weaker, dumber, sicker, more reliant on the centralized authorities who controlled the food stores, and more subservient to the government. So I think we can say that agrarian diets, which have became increasingly high-carbohydrate, and now full of preservatives, additives, glyphosate, and other poisons, were a major part of the general 4D STS mindset to essentially enslave or domesticate human beings.
 
This is probably one of the top best articles to understand what the Cs said, "The mindset of the purpose of the agrarian diet is related."

It portrays very well how the agricultural mindset is service to self:


Origins of Agriculture - Did Civilization Arise to Deliver a Fix?
Greg Wadley & Angus Martin
Department of Zoology, University of Melbourne


Introduction

What might head a list of the defining characteristics of the human species? While our view of ourselves could hardly avoid highlighting our accomplishments in engineering, art, medicine, space travel and the like, in a more dispassionate assessment agriculture would probably displace all other contenders for top billing. Most of the other achievements of humankind have followed from this one. Almost without exception, all people on earth today are sustained by agriculture. With a minute number of exceptions, no other species is a farmer. Essentially all of the arable land in the world is under cultivation. Yet agriculture began just a few thousand years ago, long after the appearance of anatomically modern humans.

Given the rate and the scope of this revolution in human biology, it is quite extraordinary that there is no generally accepted model accounting for the origin of agriculture. Indeed, an increasing array of arguments over recent years has suggested that agriculture, far from being a natural and upward step, in fact led commonly to a lower quality of life.

Hunter-gatherers typically do less work for the same amount of food, are healthier, and are less prone to famine than primitive farmers (Lee & DeVore 1968, Cohen 1977, 1989).

A biological assessment of what has been called the puzzle of agriculture might phrase it in simple ethological terms: why was this behaviour (agriculture) reinforced (and hence selected for) if it was not offering adaptive rewards surpassing those accruing to hunter-gathering or foraging economies?

This paradox is responsible for a profusion of models of the origin of agriculture. 'Few topics in prehistory', noted Hayden (1990) 'have engendered as much discussion and resulted in so few satisfying answers as the attempt to explain why hunter/gatherers began to cultivate plants and raise animals. Climatic change, population pressure, sedentism, resource concentration from desertification, girls' hormones, land ownership, geniuses, rituals, scheduling conflicts, random genetic kicks, natural selection, broad spectrum adaptation and multicausal retreats from explanation have all been proffered to explain domestication. All have major flaws ... the data do not accord well with any one of these models. '

Recent discoveries of potentially psychoactive substances in certain agricultural products - cereals and milk - suggest an additional perspective on the adoption of agriculture and the behavioral changes ('civilisation') that followed it. In this paper we review the evidence for the drug-like properties of these foods, and then show how they can help to solve the biological puzzle just described .

The emergence of agriculture and civilisation in the Neolithic

The transition to agriculture

From about 10,000 years ago, groups of people in several areas around the world began to abandon the foraging lifestyle that had been successful, universal and largely unchanged for millennia (Lee & DeVore 1968). They began to gather, then cultivate and settle around, patches of cereal grasses and to domesticate animals for meat, labour, skins and other materials, and milk.

Farming, based predominantly on wheat and barley, first appeared in the Middle East, and spread quickly to western Asia, Egypt and Europe. The earliest civilisations all relied primarily on cereal agriculture. Cultivation of fruit trees began three thousand years later, again in the MiddleEast, and vegetables and other crops followed (Zohari 1986). Cultivation of rice began in Asia about 7000 years ago (Stark 1986).

To this day, for most people, two-thirds of protein and calorie intake is cereal-derived. (In the west, in the twentieth century, cereal consumption has decreased slightly in favour of meat, sugar, fats and so on.) The respective contributions of each cereal to current total world production are: wheat (28 per cent), corn/maize (27 per cent), rice (25 per cent), barley (10 per cent), others (10 per cent) (Pedersen et al. 1989).

The change in the diet due to agriculture

The modern human diet is very different from that of closely related primates and, almost certainly, early hominids (Gordon 1987). Though there is controversy over what humans ate before the development of agriculture, the diet certainly did not include cereals and milk in appreciable quantities. The storage pits and processing tools necessary for significant consumption of cereals did not appear until the Neolithic (Washburn & Lancaster 1968). Dairy products were not available in quantity before the domestication of animals.

The early hominid diet (from about four million years ago), evolving as it did from that of primate ancestors, consisted primarily of fruits, nuts and other vegetable matter, and some meat - items that could be foraged for and eaten with little or no processing.

Comparisons of primate and fossil-hominid anatomy, and of the types and distribution of plants eaten raw by modern chimpanzees, baboons and humans (Peters & O'Brien 1981, Kay 1985), as well as microscope analysis of wear patterns on fossil teeth (Walker 1981, Peuch et al.1983) suggest that australopithecines were 'mainly frugivorous omnivores with a dietary pattern similar to that of modern chimpanzees' (Susman 1987:171).

The diet of pre-agricultural but anatomically modern humans (from 30,000 years ago) diversified somewhat, but still consisted of meat, fruits, nuts, legumes, edible roots and tubers, with consumption of cereal seeds only increasing towards the end of the Pleistocene (e.g. Constantini 1989 and subsequent chapters in Harris and Hillman 1989).

The rise of civilisation

Within a few thousand years of the adoption of cereal agriculture, the old hunter-gatherer style of social organisation began to decline. Large, hierarchically organised societies appeared, centred around villages and then cities. With the rise of civilisation and the state came socioeconomic classes, job specialisation, governments and armies.

The size of populations living as coordinated units rose dramatically above pre-agricultural norms. While hunter-gatherers lived in egalitarian, autonomous bands of about 20 closely related persons, with at most a tribal level of organisation above that, early agricultural villages had 50 to 200 inhabitants, and early cities 10,000 or more. People 'had to learn to curb deep-rooted forces which worked for increasing conflict and violence in large groups' (Pfeiffer 1977:438).

Agriculture and civilisation meant the end of foraging - a subsistence method with short term goals and rewards - and the beginning (for most) of regular arduous work, oriented to future payoffs and the demands of superiors.

'With the coming of large communities, families no longer cultivated the land for themselves and their immediate needs alone, but for strangers and for the future. They worked all day instead of a few hours a day, as hunter-gatherers had done. There were schedules, quotas, overseers, and punishments for slacking off' (Pfeiffer 1977:21).

Explaining the origins of agriculture and civilisation

The phenomena of human agriculture and civilisation are ethologically interesting, because (1) virtually no other species lives this way, and (2) humans did not live this way until relatively recently.

Why was this way of life adopted, and why has it become dominant in the human species?

Problems explaining agriculture

Until recent decades, the transition to farming was seen as an inherently progressive one: people learnt that planting seeds caused crops to grow, and this new improved food source led to larger populations, sedentary farm and town life, more leisure time and so to specialisation, writing, technological advances and civilisation.

It is now clear that agriculture was adopted despite certain disadvantages of that lifestyle (e.g. Flannery 1973, Henry 1989). There is a substantial literature (e.g. Reed 1977), not only on how agriculture began, but why.

Palaeopathological and comparative studies show that health deteriorated in populations that adopted cereal agriculture, returning to pre-agricultural levels only in modem times. This is in part attributable to the spread of infection in crowded cities, but is largely due to a decline in dietary quality that accompanied intensive cereal farming (Cohen 1989).

People in many parts of the world remained hunter-gatherers until quite recently; though they were quite aware of the existence and methods of agriculture, they declined to undertake it (Lee & DeVore 1968, Harris 1977).

Cohen (1977:141) summarised the problem by asking: 'If agriculture provides neither better diet, nor greater dietary reliability, nor greater ease, but conversely appears to provide a poorer diet, less reliably, with greater labor costs, why does anyone become a farmer?'

Many explanations have been offered, usually centred around a particular factor that forced the adoption of agriculture, such as environmental or population pressure (for reviews see Rindos 1984, Pryor 1986, Redding 1988, Blumler & Byrne 1991). Each of these models has been criticised extensively, and there is at this time no generally accepted explanation of the origin of agriculture.

Problems explaining civilisation

A similar problem is posed by the post-agricultural appearance, all over the world, of cities and states, and again there is a large literature devoted to explaining it (e.g. Claessen & Skalnik 1978). The major behavioural changes made in adopting the civilised lifestyle beg explanation. Bledsoe (1987:136) summarised the situation thus:
'There has never been and there is not now agreement on the nature and significance of the rise of civilisation. The questions posed by the problem are simple, yet fundamental. How did civilisation come about? What animus impelled man to forego the independence, intimacies, and invariability of tribal existence for the much larger and more impersonal political complexity we call the state?What forces fused to initiate the mutation that slowly transformed nomadic societies into populous cities with ethnic mixtures, stratified societies, diversified economies and unique cultural forms? Was the advent of civilisation the inevitable result of social evolution and natural laws of progress or was man the designer of his own destiny? Have technological innovations been the motivating force or was it some intangible factor such as religion or intellectual advancement?'
To a very good approximation, every civilisation that came into being had cereal agriculture as its subsistence base, and wherever cereals were cultivated, civilisation appeared. Some hypotheses have linked the two. For example, Wittfogel's (1957) 'hydraulic theory' postulated that irrigation was needed for agriculture, and the state was in turn needed to organise irrigation. But not all civilisations used irrigation, and other possible factors (e.g. river valley placement, warfare, trade, technology, religion, and ecological and population pressure) have not led to a universally accepted model.

Pharmacological properties of cereals and milk

Recent research into the pharmacology of food presents a new perspective on these problems.

Exorphins: opioid substances in food

Prompted by a possible link between diet and mental illness, several researchers in the late 1970s began investigating the occurrence of drug-like substances in some common foodstuffs.

Dohan (1966, 1984) and Dohan et al. (1973, 1983) found that symptoms of schizophrenia were relieved somewhat when patients were fed a diet free of cereals and milk. He also found that people with coeliac disease - those who are unable to eat wheat gluten because of higher than normal permeability of the gut - were statistically likely to suffer also from schizophrenia. Research in some Pacific communities showed that schizophrenia became prevalent in these populations only after they became 'partially westernised and consumed wheat, barley beer, and rice' (Dohan 1984).

Groups led by Zioudrou (1979) and Brantl (1979) found opioid activity in wheat, maize and barley (exorphins), and bovine and human milk (casomorphin), as well as stimulatory activity in these proteins, and in oats, rye and soy.

Cereal exorphin is much stronger than bovine casomorphin, which in turn is stronger than human casomorphin. Mycroft et al. (1982, 1987) found an analogue of MIF-1, a naturally occurring dopaminergic peptide, in wheat and milk. It occurs in no other exogenous protein. (In subsequent sections we use the term exorphin to cover exorphins, casomorphin, and the MIF-1 analogue. Though opioid and dopaminergic substances work in different ways, they are both 'rewarding', and thus more or less equivalent for our purposes.)

Since then, researchers have measured the potency of exorphins, showing them to be comparable to morphine and enkephalin (Heubner et al. 1984), determined their amino acid sequences (Fukudome &Yoshikawa 1992), and shown that they are absorbed from the intestine (Svedburg et al.1985) and can produce effects such as analgesia and reduction of anxiety which are usually associated with poppy-derived opioids (Greksch et al.1981, Panksepp et al.1984). Mycroft et al. estimated that 150 mg of the MIF-1 analogue could be produced by normal daily intake of cereals and milk, noting that such quantities are orally active, and half this amount 'has induced mood alterations in clinically depressed subjects' (Mycroft et al. 1982:895). (For detailed reviews see Gardner 1985 and Paroli 1988.)

Most common drugs of addiction are either opioid (e.g heroin and morphine) or dopaminergic (e.g. cocaine and amphetamine), and work by activating reward centres in the brain. Hence we may ask, do these findings mean that cereals and milk are chemically rewarding? Are humans somehow 'addicted' to these foods?

Problems in interpreting these findings

Discussion of the possible behavioural effects of exorphins, in normal dietary amounts, has been cautious. Interpretations of their significance have been of two types:

# where a pathological effect is proposed (usually by cereal researchers, and related to Dohan's findings, though see also Ramabadran & Bansinath 1988), and

# - where a natural function is proposed (by milk researchers, who suggest that casomorphin may help in mother-infant bonding or otherwise regulate infant development)

We believe that there can be no natural function for ingestion of exorphins by adult humans.

It may be that a desire to find a natural function has impeded interpretation (as well as causing attention to focus on milk, where a natural function is more plausible) . It is unlikely that humans are adapted to a large intake of cereal exorphin, because the modern dominance of cereals in the diet is simply too new. If exorphin is found in cow's milk, then it may have a natural function for cows; similarly, exorphins in human milk may have a function for infants. But whether this is so or not, adult humans do not naturally drink milk of any kind, so any natural function could not apply to them.

Our sympathies therefore lie with the pathological interpretation of exorphins, whereby substances found in cereals and milk are seen as modern dietary abnormalities which may cause schizophrenia, coeliac disease or whatever. But these are serious diseases found in a minority. Can exorphins be having an effect on humankind at large?

Other evidence for 'drug-like' effects of these foods

Research into food allergy has shown that normal quantities of some foods can have pharmacological, including behavioural, effects. Many people develop intolerances to particular foods. Various foods are implicated, and a variety of symptoms is produced. (The term 'intolerance' rather than allergy is often used, as in many cases the immune system may not be involved (Egger 1988:159). Some intolerance symptoms, such as anxiety, depression, epilepsy, hyperactivity, and schizophrenic episodes involve brain function (Egger 1988, Scadding & Brostoff 1988).

Radcliffe (1982, quoted in 1987:808) listed the foods at fault, in descending order of frequency, in a trial involving 50 people:
wheat (more than 70 per cent of subjects reacted in some way to it),
milk (60 per cent),
egg (35 per cent),
corn, cheese, potato, coffee, rice, yeast, chocolate, tea, citrus, oats, pork, rice, cane, and beef (10 per cent).

This is virtually a list of foods that have become common in the diet following the adoption of agriculture, in order of prevalence. The symptoms most commonly alleviated by treatment were mood change (>50 per cent) followed by headache, musculoskeletal and respiratory ailments.

One of the most striking phenomena in these studies is that patients often exhibit cravings, addiction and withdrawal symptoms with regard to these foods (Egger 1988:170, citing Randolph 1978; see also Radcliffe 1987:808-10, 814, Kroker 1987:856, 864, Sprague & Milam 1987:949, 953, Wraith 1987:489, 491).

Brostoff and Gamlin (1989:103) estimated that 50 per cent of intolerance patients crave the foods that cause them problems, and experience withdrawal symptoms when excluding those foods from their diet.

Withdrawal symptoms are similar to those associated with drug addictions
(Radcliffe 1987:808). The possibility that exorphins are involved has been noted (Bell 1987:715), and Brostoff and Gamlin conclude (1989:230):
'... the results so far suggest that they might influence our mood. There is certainly no question of anyone getting 'high' on a glass of milk or a slice of bread - the amounts involved are too small for that - but these foods might induce a sense of comfort and wellbeing, as food-intolerant patients often say they do. There are also other hormone-like peptides in partial digests of food, which might have other effects on the body.'
There is no possibility that craving these foods has anything to do with the popular notion of the body telling the brain what it needs for nutritional purposes. These foods were not significant in the human diet before agriculture, and large quantities of them cannot be necessary for nutrition. In fact, the standard way to treat food intolerance is to remove the offending items from the patient's diet.

A suggested interpretation of exorphin research

But what are the effects of these foods on normal people? Though exorphins cannot have a naturally selected physiological function in humans, this does not mean that they have no effect. Food intolerance research suggests that cereals and milk, in normal dietary quantities, are capable of affecting behaviour in many people. And if severe behavioural effects in schizophrenics and coeliacs can be caused by higher than normal absorption of peptides, then more subtle effects, which may not even be regarded as abnormal, could be produced in people generally.

The evidence presented so far suggests the following interpretation.

The ingestion of cereals and milk
, in normal modern dietary amounts by normal humans, activates reward centres in the brain. Foods that were common in the diet before agriculture (fruits and so on) do not have this pharmacological property.

The effects of exorphins are qualitatively the same as those produced by other opioid and / or dopaminergic drugs, that is, reward, motivation, reduction of anxiety, a sense of wellbeing, and perhaps even addiction.

Though the effects of a typical meal are quantitatively less than those of doses of those drugs, most modern humans experience them several times a day, every day of their adult lives.

Hypothesis: exorphins and the origin of agriculture and civilisation

When this scenario of human dietary practices is viewed in the light of the problem of the origin of agriculture described earlier, it suggests an hypothesis that combines the results of these lines of enquiry.

Exorphin researchers, perhaps lacking a long-term historical perspective, have generally not investigated the possibility that these foods really are drug-like, and have instead searched without success for exorphin's natural function.

The adoption of cereal agriculture and the subsequent rise of civilisation have not been satisfactorily explained, because the behavioural changes underlying them have no obvious adaptive basis.

These unsolved and until-now unrelated problems may in fact solve each other. The answer, we suggest, is this: cereals and dairy foods are not natural human foods, but rather are preferred because they contain exorphins. This chemical reward was the incentive for the adoption of cereal agriculture in the Neolithic. Regular self-administration of these substances facilitated the behavioural changes that led to the subsequent appearance of civilisation.

This is the sequence of events that we envisage.


Climatic change at the end of the last glacial period led to an increase in the size and concentration of patches of wild cereals in certain areas (Wright 1977). The large quantities of cereals newly available provided an incentive to try to make a meal of them. People who succeeded in eating sizeable amounts of cereal seeds discovered the rewarding properties of the exorphins contained in them. Processing methods such as grinding and cooking were developed to make cereals more edible. The more palatable they could be made, the more they were consumed, and the more important the exorphin reward became for more people.

At first, patches of wild cereals were protected and harvested. Later, land was cleared and seeds were planted and tended, to increase quantity and reliability of supply. Exorphins attracted people to settle around cereal patches, abandoning their nomadic lifestyle, and allowed them to display tolerance instead of aggression as population densities rose in these new conditions.

Though it was, we suggest, the presence of exorphins that caused cereals (and not an alternative already prevalent in the diet) to be the major early cultigens, this does not mean that cereals are 'just drugs'. They have been staples for thousands of years, and clearly have nutritional value. However, treating cereals as 'just food' leads to difficulties in explaining why anyone bothered to cultivate them. The fact that overall health declined when they were incorporated into the diet suggests that their rapid, almost total replacement of other foods was due more to chemical reward than to nutritional reasons.

It is noteworthy that the extent to which early groups became civilised correlates with the type of agriculture they practised. That is, major civilisations (in south-west Asia, Europe, India, and east and parts of South-East Asia; central and parts of north and south America; Egypt, Ethiopia and parts of tropical and west Africa) stemmed from groups which practised cereal, particularly wheat, agriculture (Bender 1975:12, Adams 1987:201, Thatcher 1987:212). (The rarer nomadic civilisations were based on dairy farming.)

Groups which practised vegeculture (of fruits, tubers etc.), or no agriculture (in tropical and south Africa, north and central Asia, Australia, New Guinea and the Pacific, and much of north and south America) did not become civilised to the same extent.

Thus major civilisations have in common that their populations were frequent ingesters of exorphins. We propose that large, hierarchical states were a natural consequence among such populations. Civilisation arose because reliable, on-demand availability of dietary opioids to individuals changed their behaviour, reducing aggression, and allowed them to become tolerant of sedentary life in crowded groups, to perform regular work, and to be more easily subjugated by rulers. Two socioeconomic classes emerged where before there had been only one (Johnson & Earle 1987:270), thus establishing a pattern which has been prevalent since that time.

Discussion

The natural diet and genetic change

Some nutritionists deny the notion of a pre-agricultural natural human diet on the basis that humans are omnivorous, or have adapted to agricultural foods (e.g. Garn & Leonard 1989; for the contrary view see for example Eaton & Konner 1985) . An omnivore, however, is simply an animal that eats both meat and plants: it can still be quite specialised in its preferences (chimpanzees are an appropriate example). A degree of omnivory in early humans might have preadapted them to some of the nutrients contained in cereals, but not to exorphins, which are unique to cereals.

The differential rates of lactase deficiency, coeliac disease and favism (the inability to metabolise fava beans) among modern racial groups are usually explained as the result of varying genetic adaptation to post-agricultural diets (Simopoulos 1990:27-9), and this could be thought of as implying some adaptation to exorphins as well. We argue that little or no such adaptation has occurred, for two reasons: first, allergy research indicates that these foods still cause abnormal reactions in many people, and that susceptibility is variable within as well as between populations, indicating that differential adaptation is not the only factor involved. Second, the function of the adaptations mentioned is to enable humans to digest those foods, and if they are adaptations, they arose because they conferred a survival advantage. But would susceptibility to the rewarding effects of exorphins lead to lower, or higher, reproductive success? One would expect in general that an animal with a supply of drugs would behave less adaptively and so lower its chances of survival. But our model shows how the widespread exorphin ingestion in humans has led to increased population. And once civilisation was the norm, non-susceptibility to exorphins would have meant not fitting in with society. Thus, though there may be adaptation to the nutritional content of cereals, there will be little or none to exorphins. In any case, while contemporary humans may enjoy the benefits of some adaptation to agricultural diets, those who actually made the change ten thousand years ago did not.

Other 'non-nutritional' origins of agriculture models

We are not the first to suggest a non-nutritional motive for early agriculture. Hayden (1990) argued that early cultigens and trade items had more prestige value than utility, and suggested that agriculture began because the powerful used its products for competitive feasting and accrual of wealth. Braidwood et al. (1953) and later Katz and Voigt (1986) suggested that the incentive for cereal cultivation was the production of alcoholic beer:
'Under what conditions would the consumption of a wild plant resource be sufficiently important to lead to a change in behaviour (experiments with cultivation) in order to ensure an adequate supply of this resource? If wild cereals were in fact a minor part of the diet, any argument based on caloric need is weakened. It is our contention that the desire for alcohol would constitute a perceived psychological and social need that might easily prompt changes in subsistence behaviour' (Katz & Voigt 1986:33).
This view is clearly compatible with ours. However there may be problems with an alcohol hypothesis: beer may have appeared after bread and other cereal products, and been consumed less widely or less frequently (Braidwood et al. 1953). Unlike alcohol, exorphins are present in all these products. This makes the case for chemical reward as the motive for agriculture much stronger. Opium poppies, too, were an early cultigen (Zohari 1986). Exorphin, alcohol, and opium are primarily rewarding (as opposed to the typically hallucinogenic drugs used by some hunter-gatherers) and it is the artificial reward which is necessary, we claim, for civilisation. Perhaps all three were instrumental in causing civilised behaviour to emerge.

Cereals have important qualities that differentiate them from most other drugs. They are a food source as well as a drug, and can be stored and transported easily. They are ingested in frequent small doses (not occasional large ones), and do not impede work performance in most people. A desire for the drug, even cravings or withdrawal, can be confused with hunger. These features make cereals the ideal facilitator of civilisation (and may also have contributed to the long delay in recognising their pharmacological properties).

Compatibility, limitations, more data needed

Our hypothesis is not a refutation of existing accounts of the origins of agriculture, but rather fits alongside them, explaining why cereal agriculture was adopted despite its apparent disadvantages and how it led to civilisation.

Gaps in our knowledge of exorphins limit the generality and strength of our claims. We do not know whether rice, millet and sorghum, nor grass species which were harvested by African and Australian hunter-gatherers, contain exorphins. We need to be sure that preagricultural staples do not contain exorphins in amounts similar to those in cereals. We do not know whether domestication has affected exorphin content or-potency. A test of our hypothesis by correlation of diet and degree of civilisation in different populations will require quantitative knowledge of the behavioural effects of all these foods.

We do not comment on the origin of noncereal agriculture, nor why some groups used a combination of foraging and farming, reverted from farming to foraging, or did not farm at all. Cereal agriculture and civilisation have, during the past ten thousand years, become virtually universal. The question, then, is not why they happened here and not there, but why they took longer to become established in some places than in others. At all times and places, chemical reward and the influence of civilisations already using cereals weighed in favour of adopting this lifestyle, the disadvantages of agriculture weighed against it, and factors such as climate, geography, soil quality, and availability of cultigens influenced the outcome. There is a recent trend to multi-causal models of the origins of agriculture (e.g. Redding 1988, Henry 1989), and exorphins can be thought of as simply another factor in the list. Analysis of the relative importance of all the factors involved, at all times and places, is beyond the scope of this paper.

Conclusion
'An animal is a survival machine for the genes that built it. We too are animals, and we too are survival machines for our genes. That is the theory. In practice it makes a lot of sense when we look at wild animals.... It is very different when we look at ourselves. We appear to be a serious exception to the Darwinian law.... It obviously just isn't true that most of us spend our time working energetically for the preservation of our genes' (Dawkins 1989:138).
Many ethologists have acknowledged difficulties in explaining civilised human behaviour on evolutionary grounds, in some cases suggesting that modern humans do not always behave adaptively . Yet since agriculture began, the human population has risen by a factor of 1000: Irons (1990) notes that 'population growth is not the expected effect of maladaptive behaviour'.

We have reviewed evidence from several areas of research which shows that cereals and dairy foods have drug-like properties, and shown how these properties may have been the incentive for the initial adoption of agriculture. We suggested further that constant exorphin intake facilitated the behavioural changes and subsequent population growth of civilisation, by increasing people's tolerance of (a) living in crowded sedentary conditions, (b) devoting effort to the benefit of non-kin, and (c) playing a subservient role in a vast hierarchical social structure.

Cereals are still staples, and methods of artificial reward have diversified since that time, including today a wide range of pharmacological and non-pharmacological cultural artifacts whose function, ethologically speaking, is to provide reward without adaptive benefit. It seems reasonable then to suggest that civilisation not only arose out of self-administration of artificial reward, but is maintained in this way among contemporary humans. Hence a step towards resolution of the problem of explaining civilised human behaviour may be to incorporate into ethological models this widespread distortion of behaviour by artificial reward.
 
I wonder if that policy will change if and when shortages occur. Maybe it has already changed in some areas.

Perhaps not yet officially, but unofficially at least in Québec/Canada, some pharmacists recommend keeping certain drugs even if they've passed their expiry date, since they can't be replaced for the time being.
 
I think I know what the C's have meant when they said, "The mindset of the purpose of the agrarian diet is related."



The purpose of the agrarian diet is about preserving the food for winter, because you cannot hunt and gather all year round in the current climate on this planet. So, what Weston Price has documented in his book is not actually the drastic change in jaw structure following the introduction of agrarian diets to groups of peoples, but he documented that drastic change in bone structure came as a consequence of introduction of food that came from the central states to its colonies. And the only way that food can be brought by long travel to the colonies unspoiled is by refining them. And in order to do that, you have to strip away that food from many nutrients. Wheat flour is stripped away from bran and germ, cows are fed certain food that makes the butter hard at room temperature, sugar is heavily used in canned food as a preservative, and so on...

And that is what Weston Price claimed that made people sick, the process of preserving the food, not agrarian diets per se.
It is not only the diet and the devolution that came with it.

Along with agriculture came surplus, 6 months surplus, 2 years surplus, whatever. When you have surplus and those not part of the group get hungry, they want your food. So came the rise of the city-state and the political class. The political class could be kings and monarchs or religious rulers, etc. The haves and the have nots in society. The political elite which were few owned everything, the land, the buildings, the people, mind, body and spirit. This gave rise to a military. The history books would call this the birth of civilization because of course with surplus food came idle time and idle time meant the rise of engineering. But this is an implementation of the STS pyramid. The few on top own everything, the many below own nothing and are dependent on the owners for everything.
 
Can anybody tell me more about how the agricultural way of life influenced people's thinking and development? Maybe there was a transcript. Or someone will share their observations.

Laura talked a little about it in this old paper:

 
Perhaps not yet officially, but unofficially at least in Québec/Canada, some pharmacists recommend keeping certain drugs even if they've passed their expiry date, since they can't be replaced for the time being.

Well, if they're telling customers to do that, then I reckon they do it themselves, or soon will be.
 
The purpose of the agrarian diet is about preserving the food for winter, because you cannot hunt and gather all year round in the current climate on this planet. So, what Weston Price has documented in his book is not actually the drastic change in jaw structure following the introduction of agrarian diets to groups of peoples, but he documented that drastic change in bone structure came as a consequence of introduction of food that came from the central states to its colonies. And the only way that food can be brought by long travel to the colonies unspoiled is by refining them. And in order to do that, you have to strip away that food from many nutrients. Wheat flour is stripped away from bran and germ, cows are fed certain food that makes the butter hard at room temperature, sugar is heavily used in canned food as a preservative, and so on...

And that is what Weston Price claimed that made people sick, the process of preserving the food, not agrarian diets per se.

Meat can be processed in such a way that it lasts several months. I think the problem arose when the population grew to the point that it was not possible to feed all a mostly meat diet, at least not without factory farming, which wasn't possible at the time.
 
A: More is implicated than that!

Q: (L) So it's more than just giving them control over their heart rate?

A: Yes

Q: (L) Does it mean they have like the ability to put themselves into something like suspended animation?

A: Yes

Q: (L) Did it have something to do with their ability to prolong their lives?

A: Yes

Q: (Joe) Are we talking about undergrounders here?

A: Yes

It scares me that makes me think of dracula, in the Bram Stoker book, where the vampires can be in "sleep state" for years.

So funny scares i talk with a non forum knower about the reliability of holy water against them.
Is the dew wil be better? or the water of Life like eau de vie in french, wich can be write namesake: O2 Vie:-)

The water of life from fairy tales, or holy water used against vampires might not be some external substance, but something created in our bodies.

Nov 22, 1997:

Q: What is the ‘prime matter’ of the alchemical process?

A: H2O.

Q: What? (Ark) Water can be in different states.

A: Heavy water.

Q: What is heavy water? (Ark) Instead of normal hydrogen, you have hydrogen atoms with two neutrons. It is used in atomic plants. (L) Okay, if that is the prime matter, what is the philosophical mercury that goes with it?

A: Wrong “track.”

Q: What is the right track?

A: See several answers back.

Q: It is not etherally correct to answer this?

A: No, sound, Laura, sound! See Leedskallen.

Q: How does one produce this sound?

A: We have given you the pieces, now “fit them in.”

Q: Well, they say that prime matter is that which is created by God and is firmly captured within you, yourself, and that any creature of God deprived of it will die. So, I have come to the idea that this prime matter is blood, which is connected to the hemoglobin molecule, which is…

A: What is the human body composed of? 77 per cent… what?

Q: Well, water…

A: Bingo!

Q: Well, how does one change the water in one’s body to heavy water, and what kind of effect does that have on the system?

A: See previous responses!

Q: How does one make the water in the body into heavy water?

A: See previous responses!

Q: Is it as simple as going into a trance an humming ‘ooom?’

A: On the right track, but short of destination.

Q: Does it have something to do with the bones… using the bones in the body as resonators?

A: Just review when convenient. Guessing will derail you.

Q: I need a clue about this sound…

A: You have been given this.

Later on, there was this session that talks about the nature of water as etheric. It has me thinking of water as not just a thing, H20, a certain number of non-intelligent molecules, but as an entity, maybe sort of like a holy person or holy force who lives both inside us in our bodies and outside us in oceans, lakes, clouds and streams. This 'someone' pervades our entire world and can help us so long as we pray and generate the proper intent.

Q: (Galatea) I have a question that’ll sound crazy. Is water similar to space?

A: Yes


Q: (Galatea) I knew it! (laughter)

(Pierre) Similar in what sense?

(L) It’s like etheric.

(Galatea) Space is water?

A: Yes


Q: (Galatea) I knew it!

(L) So did the ancients. They called it The Waters Above.

(Galatea) Really?

(Joe) Can we make heavy water by talking to it?

(Arky) No, no, no. With water, this is very strange. I was reading about the experiments. So, first you talk to water, you test the water, and it makes it different. But then you have to be clever. If it is just information, you don’t have to talk to water. You use the computer to convert your talk into a number. You print the number on the piece of paper, you put it on the bottle, and water should be smart enough because anyhow it’s information! It’s not your talk. It’s somewhere, right? You put it on the label, and water knows what was your intention. Experiments were even done like that.

(Galatea) Water is the Google search of the universe.

A: Yes

Q: (Arky) You convert your talk to a number, like 1000, 2010, okay there’s a number. Your language and intent is this number. But you can say something with good intentions, or with wrong intention. The algorithm is such that it may produce the same number for either. Yet, it seems that the water is smart enough that even if you put the same number on two bottles, but derived from different language and intent, it knows whether the intention was positive or negative!

(L) Even if the number is the same?!

(Arky) You see? So the information is somewhere. It’s not really important what words you use or what you say exactly. You communicate in some way with the information field that is everywhere.

(Pierre) And the water has this special connection to the information field, and it knows what the number is related to.

(Arky) So your piece of paper is really the address of a piece of information.

[...]

Q: (Joe) Can we talk to the water in our bodies since they’re 70% water?

A: It has already been propagandized!


Q: (L) So in other words, we have to start fresh with a fresh glass of water and send in the workers to controvert the evil propaganda.

A: Yes

Q: (Galatea) So can we talk to our water and say, “Hello water! Can you detox me even more today?”

A: Yes

Q: (Joe) Does adding salt to water make it extra-specially attentive?

A: Yes

Q: (Galatea) It’s like coffee for water!

(L) Wake up your water with a little salt!

A: Yes

Q: (Pierre) It explains homeopathy as well. It works on an information level. You just need a little bit. You don’t need it in high concentrations. And they know.

A: You have plenty to think about and experiment with. Keep eyes and ears open! Goodbye.

So we can talk to the water in a cup, and also talk to the water in our own body, and in so doing it's another way we can transform ourselves.
 

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