Investigation

Patterns of Change and Development in Human Nutrition

Samir Hussain

Introduction

The concept of 'Good Nutrition' and 'Healthy Eating' are terms that have only recently become infused into households as evidence mounts to link today's prominent chronic diseases and food intake. However, research is mostly inconclusive, with disputes arising over required macronutrient ratios, organic/GM crops, processed foods and the validity and practicality of 'diets'.

What this treehouse will attempt to do, is to investigate the patterns of human nutrition over the course of the evolutionary timeline to see if prehistoric eating patterns and today's chronic diseases have anything in common. This will be done by not only using evolutionary biology, but also anthropology and the nutritional sciences.

This treehouse is not meant to discredit modern nutritional science or modern medicine, as they still have their necessary applications today, but rather to address the issues of health and nutrition on a more historical perspective.

Contents

  1. Primates
  2. Australopithecus africanus
  3. The genus Homo
  4. Homo sapiens in the Modern Age 
  5. Conclusion
Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Primates

First, we'll look at the nutrition habits of non-human primates, moving from least-related to the most-related non-human primates to humans. Perhaps it may give us a glimpse of not only the types and qualities of foods ingested, but also the habits of obtaining and processing food.

The group we will specifically investigate is the Hominidae, which contains the most closely related species to the genus Homo. Below is the cladogram for Hominidae:

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Relationships of Hominidae. © 2007 . Information obtained from Tree of Life Web Site.

Orangutans

Since it is the most distant relative in the Hominidae, we will start with the orangutan, Pongo

Orangutan

Pongo pygmaeus. Photo by H. Vannoy Davis, © 2001 California Academy of Sciences

Diet

About 60% of the orangutan's diet consists of fruit, including durians, jackfruit, lychees, mangosteens, mangoes and figs. The remainder of the diet is mostly young leaves and shoots, but also included are insects, mineral-rich soil, tree bark and woody lianas and occasionally eggs and small vertebrates. Much of their water is obtained from the fruit in their diet, but it is also drunk from tree holes1.

Feeding Behaviour

The species averages about 1/3 of its day foraging for food, and is most active in doing so during the early morning and late afternoon2.

Analysis

The orangutan seems to obtain the majority of its nutrients from plant-based sources, specifically simple and complex carbohydrates from the fruits and roots it consumes. Proteins seem to be obtained from the insects, small vertebrates and bark it eats, and possible sources of fatty acids are minimal but include oils from leaves and other vegetation, eggs, insects and small vertebrates. Activity is prolonged, so caloric intake has to compensate.

Gorillas

Gorillas are the next most closely related to the chimpanzees and human primates. 


Gorilla gorilla. © 2006

Diet

The diet of the gorilla depends on where it is located, in the east or west of Africa. In the Eastern population, the gorillas are mostly folivorous (meaning they generally eat leaves) - in one study this was 86% of the animal's diet. Galium vines, wild celery and three or four other species make up a high proportion of the diet. Small amounts of wood, roots, flowers, fruits, and grubs also are eaten.

In the Western population, fruits are the most important element in the gorillas’ diet, although they also eat leaves, pith and stems (e.g. wild ginger). In a study undertaken on one group in Gabon, it was found that the fruits of at least 95 plant species were utilized. Western gorillas also have been found to obtain termites through the bark of trees and wade through streams and rivers to harvest water plants. They also differ from the Eastern population in their greater use of animal-derived foods3.

Feeding Behaviour

Gorillas can use their incredible strength to break apart vegetation. An adult male for example can shred apart a whole banana tree to get to the interior tender pith. Also, they are very selective foragers, eating only specific parts of certain plants4.

Analysis

Since the nutritional quality of the food gorillas consume is quite poor, they need to eat a lot. A typical male gorilla can consume 40 lbs of vegetables a day to maintain a bodyweight that can range from 300-600 lbs for males5. This large intake of vegetables and fruits (carbohydrate based foods) is quite suboptimal. So as to counteract their great caloric need and available food, gorillas tend to sleep or rest on average about 76.5% of a 24 hour day, and feeding for only 12.5% of it6.

Chimpanzees and Bonobos

Chimpanzees and Bonobos are highly similar, key distinctions range from the chimpanzees being larger than the latter and the bonobos being more sexually active and having a more upright gait. Chimpanzee is a term that is commonly used to refer to both species.

chimpanzee

Pan troglodytes. Photograph by Gerald and Buff Corsi, © 2002 California Academy of Sciences

Diet

Both species are omnivorous. Chimps eat a lower percentage of fruit and a higher percentage of insects and other meats as compared to bonobos. In long dry seasons when fruit is scarce, tree seeds, flowers, soft pith, galls, resin and bark become an important part of their diet. Termites are the most nutritionally important insects in their diet, Mammals such as monkeys, pigs and antelope are also eaten, particularly by males, but along with termites only account for about 5% of their diet. Females tend to consume more animals than the males7.

Feeding Behaviour

Foraging for fruits and leaves occurs normally, like in other species. Both species are highly opportunistic feeders. For example, if one chimpanzee starts hunting a red colobus monkey that has strayed into it's territory, all the monkeys in the group will start hunting it together. No distinction is made in the age of the individual being preyed upon, although a higher percentage of immature colobus monkeys are caught due to their availability and vulnerability. If the monkey caught is larger, then the meat is distributed amongst the group on basis of want (monkey's who want meat simply beg for it to receive it)8.

Analysis

Because of their social behaviour, diet and hunting patterns (as well as genetic and morphological similarities), chimpanzees are regarded as the closest non-human primate relatives to the genus Homo (and to modern humans). From the information presented here alone, it is notable that the chimpanzees possess the first instance of organized hunting and carnivory in hominids. Although the percentage of herbivory is still high, this is the first instance where other, larger mammals are being hunted in an organized fashion.

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window
Chimpanzees (Pan troglodytes) eating meat

A group of chimpanzees, Pan troglodytes schweinfurthii, sharing a red colobus monkey after they have hunted and killed it. Note the chimpanzee on the right begging for food, which it will receive. © 2005

Other Primates

Other primates belonging to the Catarrhini but are not in Hominidae range from gibbons to the 'Old World Monkeys' such as baboons. Some species in these groups may be carnivorous (like baboons) and feed on other small mammals, however they do not display the organized social hunting behaviour present in chimpanzees and bonobos, and their diet still consists almost solely of roots, shoots, fruits and/or vegetables.

Shown below is the cladogram for Catarrhini, so that it can be seen where Hominidae falls in.

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Relationships of Catarrhini. © 2007 . Information obtained from Tree of Life Website

As a short conclusion to this section, some things must be noted. Firstly, although these non-human primates consume mostly vegetables and fruits with rare and/or constrained protein intake, it is interesting to see how their strength to bodyweight ratios, and in the case of gorillas, mass, is much higher than that of humans. Activity is prolonged and/or intense at some times, and in others rest occupies the majority of the daily activities. Also, note that the diet of non-human primates is extremely varied, some species can consume upto a 100 different species of fruit in a single season.

Hence from this it is observable that the nutritional habits of non-human primates may be specific to their genetics and physiological makeup. This however, is just a hypothesis, as nine volunteers at a zoo in Devon, UK, followed a gorilla style diet and ended up making huge health gains. For more information see BBC News: Going Ape. This was in the absence of an exercise program that could have been similar to the physical activity done by non-human primates, which may have had some interesting results.

Australopithecus africanus

Since this species lived about 4-1.2 million years ago, the most that can be known about it is from fossil evidence.

Australopithecus africanus, sculpture by Toni Wirts.

Diet

In 1979, anthropologist Alan Walker, using fossil studies, established that Australopithecus was fruitarian. However, a revision of the study in 1992 using isotopes of strontium and calcium suggested that the species was instead omnivorous9. Also, the thick jaws, and large molars and premolars suggested that Australopithecus most likely consumed rough vegetable matter as the staple of their diet10. Moreover, a study on relating chimpanzee diets to that of this species, suggested that Australopithecus had a diet more similar to chimpanzees, than that of Homo sapiens11.

Feeding Behaviour

Not much is known about australopithecine feeding behaviour, although it has been suggested that they were similar to chimpanzees in the regard of being plant foragers chiefly, and opportunistic hunters second.

Analysis

Despite similarities, australopithecines still consumed less fiber than chimpanzees did11. This suggests that Australopithecus africanus initiated the shift to the hominid diet from vegetables and carbohydrates to a higher emphasis on lipids and proteins, although vegetables and plant based foods still constituted the mainstay of the diet. This will be explored further in the next section.

The Genus Homo

Three key species will be investigated here. Namely, Homo erectus, Homo neanderthalensis, and Homo sapiens. These species represent landmarks in the human evolutionary chain, particularly with respect to diet and feeding behaviour, as well as social development.

Homo erectus

Homo erectus is a descendant of the first (by discovery) Homo species, Homo habilis. Fossilized remains of the species date back to 1.8-1.0 million years ago. Remains have been found in Africa, Georgia (Europe), China and Indonesia.  


Homo erectus. © Lillyundfreya

Diet

Firstly, it is well documented that species such as Homo erectus employed the use of many stone-based tools to help in their daily activities. The style of some tools used lead archeologists to believe that they were used for cutting, specifically for meat. This suggests that there is a higher consumption of meat, which is also supported by the jaw and canine structure of the skulls, which were significantly altered as compared to Australopithecus.

Feeding Behaviour

Although it is not easily determined how Homo erectus foraged and gathered non-animal foods, it is assumed that like most early human hunter-gatherers, it was similar to the activity of Australopithecus and chimpanzees, i.e. generally just opportunistic foraging of vegetables, fruits, roots and shoots. An age-old argument in the anthropological community is over the source of animal protein and how it was procured. One argument is that the meat was hunted and killed, then taken back to families and shared12, while the other suggests that the meat was scavenged13 (obtained from fossil evidence in animal bones that bore a greater resemblance to tooth marks than tool marks). Both arguments have sufficient evidence to support their claims, but the scavenger theory proves to be more firm with its archeological evidence.   

Analysis

The use of tools, particularly those designed to cut or puncture, emphasizes the growing importance of meat in early human society. The currently most accepted theory behind the increased intake of meats and protein is the 'Expensive Tissue Hypothesis', stating that an increased intake of meat was required for the gut to reduce in size and complexity so that more energy could be used to create a larger brain. This explains why as cranial capacity (brain size) increased, meat intake increased.

Homo neanderthalensis

Neanderthals, as the species is known, inhabited Europe and parts of Western Asia about 350,000 to 130,000 years ago. They became extinct in Europe at approximately 24,000 years ago14. They were built more robustly than Homo sapiens and some possessed a large cranial capacity too. There has also been a hypothesis and studies suggesting that perhaps Neanderthals and Homo sapiens interbred at one point15.


Homo neanderthalensis. © Luna04

Diet

The diet of the Neanderthals is the source of today's popular Paleolithic diet. The emphasis lies heavily on the consumption of fatty meats and vegetables. This is based on evidence from the bones of Neanderthals, which through stable isotope analysis suggest that they were very dependent on meat in their diet. This leads many anthropologists to suggest that the Neanderthals were hunters, not scavengers, as scavenging would not have fulfilled their meat quota16.

Feeding Behaviour

Neanderthals are renowned for their hunting. Evidence beyond the stable isotope analysis include the large cranial capacity they possess, which according to the expensive tissue hypothesis suggests that they ate large amounts of meat. Other than that, Neanderthal skeletons have been found to posses many fractures, especially to the ribs, suggesting that many injuries resulted due to intensive and difficult hunting. Interestingly the fractures are similar to those suffered by rodeo clowns, suggesting that neanderthals may have hunted their prey by leaping on them or wrestling them to the ground17. Lastly, amongst their tools, large amounts of weapons have been found in the Neanderthal arsenal, suggesting once again that hunting was an important focus of life.

Analysis

The conclusion one can reach from analysing the Neanderthals is the growing importance of meat and hunting amongst the early humans leading up to Homo sapiens. It should be noted that the size and robustness of Neanderthal skeletons suggests that they were in fact physically strong and capable, although pathological studies on fossils suggest that degenerative disease from overuse was common, as was infection in times of food scarcity17.

Homo sapiens

Homo sapiens originated in Africa about 200,000 years ago. From then on we have grown to cover the entire globe, at a population of about 6.5 billion (as of 2007).

Charles Darwin at age 72 on the veranda at Down

Homo sapiens. Courtesy Department of Library Services American Museum of Natural History (Neg. No. 105168).

Diet

The following information has been derived from lecture notes from my Anthropology of Food and Nutrition class, a Level II course run by Dr. Marjorie Cummings in McMaster University18.

For about 190,000 years, Homo sapiens followed a hunter-gatherer lifestyle similar to that of Homo neanderthalensis. Their diet consisted of the same wild game, fruits, vegetables and nuts.

Studies of indigenous populations who generally did not make the move to organised agriculture indicate that based on location, populations are mainly fruitarian, omnivorous, or carnivorous, although they still consume other foods.

For example the bushmen of the Kalahari consumed a diet that was omnivorous, and consisted of vegetables and nuts with 20% of the protein intake coming from wild game. General macronutrient ratios of protein, lipid and carbohydrate were almost equal (33% all round). Others, such as tropical islanders, consumed mostly a fruitarian diet. Eskimos and old Native Indians once consumed a diet that was almost 40-50% animal based fat, with 40% of the fat being saturated, and generally subsisted on a high-protein, high fat diet19.

The Agricultural Revolution 10,000 years ago marked a significant change in primate nutrition as the climate changed to allow the domestication and flourishing of wild grains. Cultivation of these grain crops allowed cities and culture to develop, yet increased the dependency on single crops and increased the spread of infectious disease.

Current nutritional trends have standardised macronutrient ratios and food choices for the entire global population, resulting in startling changes and new anomalies in human health and biological response.

Feeding Behaviour

Before agriculture, feeding behaviour was similar to the foraging and hunting of wild game conducted by Homo neanderthalensis.

As agriculture developed, cities and culture started to develop too. This resulted in greater class stratification and specialisation of duties, and the delegation of farming and food-harvesting duties to the lower and lower-middle class of farmers. This is the first instance in primate evolutionary history where food is actively grown and commodified, instead of being consumed as subsistence for survival.

Analysis

The alteration of feeding patterns, type of food consumed, and increased dependency on single crops has led mostly to social, cultural and political changes in Homo sapiens, especially until the 1900s. Health issues were mostly associated with malnutrition and increased rates of infectious disease, as well as periodic starvation when food was unavailable.

Homo sapiens in the 1900s

The food consumed by Homo sapiens in the past 100 years has changed much more rapidly than the food they consumed after the Agricultural Revolution. It can be seen, just by observing how nutrition has changed from the Orangutan to Homo sapiens, what exactly should form the background of a modern human's nutritionary profile. However, many things have changed, resulting in some deleterious effects on human health.

From the perspective of nutrition and evolutionary biology, things that have changed and resulting affected the health of the general human population include:

Other factors that could contribute to the increasing changes in human nutrition and health include:

Conclusion

Nutrition of the genus Homo has changed gradually over the course of a million years, up until recently when changes started occuring faster than evolutionary possible. This has resulted in some major problems, especially in the case of chronic disease. It would be wise to learn from our evolutionary past and implement a system of nutrition and healthcare based on that.

So what can you do to avoid the diseases yourself? At least from this treehouse's (and its author's) point of view:

References

References

1. Macdonald, D. 1984. The Encyclopedia of Mammals. Facts On File Publications. New York, NY, USA.

Macdonald, D. 2001. The Encyclopedia of Mammals. Barnes & Noble/Andromeda Oxford Ltd., Abingdon, UK.

2. Science Encyclopedia Volume 4: http://science.jrank.org/pages/4874/Orang-utan-Diet.html.

3. Stuart & Stuart. 1996. Africa's Vanishing Wildlife. Smithsonian Institution Press, Washington, D.C. USA.

Kingdon, J. 1997. The Kingdon Field Guide to African Mammals. Academic Press, Harcourt Brace & Co., New York, NY, USA.

4. Seaworld Animals: http://www.seaworld.org/animal-info/info-books/gorilla/diet.htm

5. Nowak, R.M. 1999. Walker's Mammals of the World. 6th Ed. The Johns Hopkins Univ. Press, Baltimore.

6. Schaller, G.B. et al. 1985. The Giant Pandas of Wolong. Univ. Chicago Press, Chicago, IL, USA.

7. Honolulu Zoo: Chimpanzees - http://www.honoluluzoo.org/chimpanzee.htm

8. Stanford, Craig. The Predatory Behaviour and Ecology of Wild Chimpanzees. University of Southern California,.Los Angeles, CA, USA. Available Online at:

http://www-rcf.usc.edu/~stanford/chimphunt.html

9. Billings, Tom. Humanity's Evolutionary Prehistoric Diet and Ape Diets--continued, Part D.

10. Australopithecus. The Columbia Electronic Encyclopedia. 2007.

11. Conklin-Brittain et al. Relating Chimpanzee Diets to Potential Australopithecus Diets. 2007. http://web.cast.uark.edu/local/icaes/conferences/wburg/posters/nconklin/conklin.html

12. Ragir, Sonia. Diet and food preparation: Rethinking early hominid behavior. Evolutionary Anthropology. Volume 9, Issue 4, pgs 153-155. 2000.

13. Shipman, Pat. Scavenger Hunt. Nutritional Anthropology pgs 32-35. 2000.

14. Mcilroy, Anne. Neanderthals may have lived longer than thought. Globe and Mail. September 2006.

15. Hayes, Jacqui. Humans and Neanderthals interbred. Cosmos Online. November 2006.

16. Richards, Michael et al. Neanderthal diet at Vindija and Neanderthal predation: The evidence from stable isotopes. PNAS. June 2000.

17. Wikipedia: Neanderthals, 2007. http://en.wikipedia.org/wiki/Neanderthal#Notable_fossils

18. Dr. Cummings, Marjorie. Anthro 2AN3: Anthropology of Food and Nutrition. McMaster University, Hamilton, ON.

19. Fallon, Sally and Enig, Mary. Guts and Grease: The Diet of Native Americans. The Weston Price Foundation

20. Willet et al. Glycemic index, glycemic load, and risk of type 2 diabetes. Harvard School of Public Health. 2002. PubMed.

21. Worthington, Virginia. Nutritional Quality of Organic Versus Conventional

Fruits, Vegetables, and Grains. 2001. Available Online at: http://www.organicts.com/organic_info/articles/downloads/organic.pdf

22. Michalak, Magdalena. Lactose Intolerance. 2005. Available Online at: http://serendip.brynmawr.edu/biology/b103/f05/web2/mmichalak.html

Learning Information

About This Page
Treehouse constructed for the Origins 2FF3 Evolution course run at McMaster University by Dr. Jonathan Stone.


McMaster University: Origins Research Institute

Correspondence regarding this page should be directed to Samir Hussain at

All Rights Reserved.

 Treehouses are authored by students, teachers, science enthusiasts, or professional scientists. Anyone can sign up as a treehouse contributor and share their knowledge and enthusiasm about organisms. Treehouse contributions are checked for general accuracy and quality by teachers and ToL editors, but they are not usually reviewed by expert scientists. If you spot an error, please get in touch with the author or the teacher. For more information about quality control of Tree of Life content, see Status of Tree of Life Pages.

close box

This page is a treehouse that is attached to a branch of the Tree of Life.

Treehouses are ToL pages designed for children and the young at heart.

For a more detailed explanation of the different ToL page types, have a look at the Structure of the Tree of Life page.

close box

Hominidae

Treehouse Content

articles & notes

Treehouses

collections

people

Explore Other Groups

random page

  go to the Tree of Life home page
top