To begin, you may want to change "carnivores" to "omnivores."



Anyway.... morals are up to the individual.

Morality is relative, so there is no real answer to vegetarianism being "moral" because, nobody can agree or disagree on it. It's personal opinion.



As to your other reasons, it doesn't necessarily help save peoples lives, and CAN be dangerous to a person's health, and humans are naturally designed to be omnivorous. Check out the canines on your teeth.



Granted a vegetarian can substitute certain vitamins/minerals, things that you would get from meat, but then that'd be sort of cheating, and in a way proving that completely subsisting on a vegetarian diet is not natural to the human species.Because vegetarians are likely to suffer from anemia, vitamin deficiency, and are more prone to certain kinds of cancers than those who eat meat in their diet.



It'd probably be best to focus on the social issues because it's easiest to remain objective, while the science and physiological aspect of it will either suggest that vegetarianism may be unhealthy compared to an even balanced omnivorous diet, or it will be very slanted and subjective to one side or the other.

I am 31 years old, never eaten meat in my life, and do not intend to.



I see it: I can eat 10 cows, 20 pigs, 100 chickens, in my life and die, Or I can eat no animals, and I die. So I would rather die of a good clean heart and soul, versus a guilty heart! -



yes it is completely a ethical thing. - the health and environment are excellent bonus!



people are so removed from what they eat! I have heard meat eaters saying, "oh, I didn't know a veal is a baby cow!". Its funny that people do not see their food as a animal that once lived! that animal probably had a baby, it has feeling, it feels pain, it cries when it is voilently hit, and beaten. The animal feels love when you care take of it.



I wonder how many people would eat the meat, if they saw the animals before/during its death?



many people say that we were here to eat animals, - then why in the western countries do we think its worng to eat our cats and dogs?



I think most people do not understand the reasons, or benefits of being veggie. and org. like peta do the most damage to the veggie lifestyle!



sorry did not mean to go on! lol!

vegetarianism is ABSOLUTELY morally justified. refusing to eat meat shows compassion and mercy to animals, respect for your body, and respect for our environment and planet. the way animals are treated before slaughter is horrifying, and by abstaining from meat you avoid being a part of that. you are also doing your health a favor- eating red meat has been proven to increase your risk for breast and colon cancer, at least. this isn't biased information, look it up on any news site or search engine. it is also full of fat and cholesterol, and sometimes contains deadly bacteria and viruses such as e. coli. if you are Christian, I suggest you check out the Christian Vegetarian Association. they have some wonderful, scripture and Christian-based reasons for being a vegetarian. if not, i'm sure sites like peta.com can provide you with more information if you need it. good luck on your paper and thanks for being a vegetarian! =)

I eat both meat and veggies , but I was trained in vegan cooking and ate that way for some years, I felt better and my mind was clearer, and Had more energy, at first it sucked, but after a wile my taste buds improved and I could taste things better, why do I eat meat now, well vegetation is not so available in little town Saskatchewan , Canada, but hope this helps.

Vegetarian are much healthier than people who eat meat , but people who eat meat have gained a lot of protein



So it's a 50/50 good thing on being vegetarians and non vegetarians

Scientists at King’s College London, and the University of Newcastle will inject human DNA into empty eggs from cows to create embryos known as cytoplasmic hybrids, which are 99.9 per cent human in genetic terms.



The other White Meat

Everyone has different morals.

I'm a meat eater and nobody has the right to tell me what to eat. If you're vegan or vegetarian that's your choice.

Below are some interesting links. I am vegan, but since you want to try and discuss both sides of the arguement, I have tried to provide sites that deal with both sides.



Good luck on your assignment.

These sites have lots of info about the benefits of vegetarianism:



Animals:

http://www.goveg.com/factoryFarming.asp

http://www.chooseveg.com/animal-cruelty.asp (warning: graphic video)



Environment:

http://www.goveg.com/environment.asp

http://www.huffingtonpost.com/kathy-freston/vegetarian-is-the-new-pri_b_39014.html



Health:

http://www.goveg.com/healthConcerns.asp

http://www.pcrm.org/health/veginfo/vsk/veg_foods.html



World Hunger:

http://www.goveg.com/worldhunger.asp



Good luck!

When you are a vegetarian... you no longer have to worry about whether you are eating dog tacos when you make trips to Mexico.

A man can live and be healthy without killing animals for food; therefore, if he eats meat, he participates in taking animal life merely for the sake of his appetite. And to act so is immoral. Leo Tolstoy (Russian writer – novelist, essayist, dramatist and philosopher – as well as pacifist Christian anarchist and educational reformer). What we eat is a learned process or habit. Different societies eat different things. Some people eat dog, yet most Americans would say that that is completely wrong and intolerable. Yet, what is the difference between killing a dog for food and killing a cow? A dog feels pain. A cow feels pain... Animal Slaughter Houses are inhumane.Living a vegan/vegetarian lifestyle is, of course, the most compassionate way to exist. Animals feel pain. Period. Why would someone choose to torture something for their own pleasure.Modern agriculture keeps cows, calves, pigs, chickens, turkeys, ducks, and other animals in small overcrowded sheds, stalls, cages, or crates, where they're often unable even to turn around. These intelligent, social animals are deprived of veterinary care, exercise, sunlight--even the feel of grass under their feet. What we eat means choosing between the horrors of factory farming and respect for another sentient being.

There is a lot more that should be said and shown on the cruelty aspects of using animals. No one can deny it is beyond horrendous what we humans do to animals, all of which is totally unnecessary.Being vegan/vegetarian is healthier, than any other diet possible and that isn't even touch the hormones and antibiotics, used in raising animals, and the possibilities and realities of meat borne illness, Mad Cow Disease etc. .Better for your heart. Proven to reduce heart disease, and even reverse coronary heart disease.Automatically lower s your cholesterol levels. The only foods that contain cholesterol are animal products, like meat and dairy. And since a three-decade-long study found that not a single subject with a cholesterol level below 150 has ever developed heart disease, that's hard to ignore! Vegans have lower rates of obesity, coronary heart disease, high blood pressure, large bowel disorders, cancers and gallstones. Reduces stroke risks and coronary artery disease. Reduces symptoms of fibromyalgia. Reduces food poisoning. 95% of food poisoning is linked to animal products. Your bowels will work much better, therefore, keeping your whole system healthier. Live longer healthier lives. One 21-year-long study that compared meat-eaters and vegetarians showed that the greater the meat consumption, the greater the death rate from all causes combined . Increased vegetable and fruit intake reduces your need for taking a multi vitamin plus increases your antioxidant intake. Being vegan is a lot more environmentally friendly, than a meat diet, even more so when one sticks with organic products. .. Eating a meat diet contributes more pollution, uses more land, more water, more deforestation, and more energy than a vegan/vegetarian diet. Protect the planet for future generations. Saves trees, reduces forest destruction for cow pastures. Between 1960 and 1985 alone, nearly 40 percent of all Central American rain forests were destroyed to create cheap grazing land for cows later served on North American and European plates. Going vegan saves one acre of forest every year. (Who knows what else we are losing while creating desserts out of forests.) Uses less water. More than half of all water used in the U.S. is used to raise and kill animals for the table.

Uses less fossil fuels. Producing just one hamburger uses enough fossil fuel to drive a small car 20 miles.

Creates less pollution. Animal feces is a major contributor to global warming and acid rain, plus pollutes numerous rivers and water sheds annually.

The worlds 17 major fisheries are at the point of collapse because of over fishing. Consider the Welfare of humanity. We can feed more people in the world on the food that animals, raised as food, eat than we can on the "food" one gets from animals. The amount of vegetable protein fed to the US beef herd would feed almost the entire populations of India and China - two billion people. Save Money. Plant nutrition costs a lot less than animal based. Helps reduce National debt. Americans spend between $60 billion and $120 billion annually to treat heart disease, cancer, obesity, and food poisoning that are primarily caused by animal based diets.

Well-planned vegan [pure vegetarian] and other types of vegetarian diets are appropriate for all stages of the life cycle, including during pregnancy, lactation, infancy, childhood, and adolescence.



Vegetarian diets offer a number of nutritional benefits, including lower levels of saturated fat, cholesterol, and animal protein as well as higher levels of carbohydrates, fiber, magnesium, potassium, folate, and antioxidants such as Vitamins C and E and phytochemicals. Vegetarians have been reported to have lower body mass indices than nonvegetarians, as well as lower rates of death from ischemic heart disease; vegetarians also show lower blood cholesterol levels; lower blood pressure; and lower rates of hypertension.High fruit and vegetable consumption is associated with a reduced risk for cardiovascular disease, several common cancers, and other chronic diseases (such as macular degeneration and cataracts).

Legumes (e.g., beans, peas, lentils, and peanuts) are excellent sources of protein, fiber, and a variety of micronutrients and phytochemicals that may protect against disease.

Regular consumption of nuts is linked with a lower risk for heart disease and lower mortality rates.

Whole-grain consumption is associated with a reduced risk for heart disease, diabetes, high blood pressure, and stomach and colon cancers.



Trying vegan doesn’t mean you have to opt for a tossed salad or a piece of fruit! Eating better is as easy as substituting marinara for meat sauce, opting for bean burritos instead of beef tacos, enjoying creamy soy or rice milk in place of cow’s milk, and exploring all of the wonderful animal-free, earth-friendly, and healthy products in our grocery stores.



Today, more than ever, vegetarians have a vast assortment of foods to choose from. You can generally shop for vegan foods at natural food stores and co-ops, while nearly all major supermarkets feature delicious, earth-friendly fare.





Tasty vegan/vegetarian meals can be prepared with foods found at any supermarket. And for those of us without the time or inclination to cook from scratch, there are a growing number of vegetarian convenience foods available. In fact, by becoming more conscious of what they eat and by exploring new foods and recipes, many people find themselves with a more diverse diet after becoming vegetarian!



If you like to cook and do have the time, you’ll find countless vegetarian recipes on the Internet, as well as a huge selection of vegetarian cookbooks. Natural food stores are also great places to explore your vegetarian options. Besides all the ready-made products, you may discover unusual grains, beans, or other ingredients you’ve never tried.



There’s a whole host of meat and dairy alternatives on the market — some quite different from their nonvegetarian counterparts, some surprisingly similar. Mock meats, made with plant protein, come in a wide range of textures, shapes, and styles: burgers, hot dogs, pepperoni, sausage, bacon, ground meat, meatballs, breaded cutlets, deli slices, “unchicken” salad, and more!



Dairy alternatives are made from soy, rice, or nuts. You can buy or make vegan milk, cheese, butter, mayonnaise, sour cream, frozen desserts — you name it!





Going out can also be easy! Vegan selections are usually offered at Chinese, Indian, Italian, Mexican, Middle Eastern, Thai, and other ethnic restaurants, as well as many chains, such as Chevys, Little Caesar’s, Papa John’s, Subway, and Taco Bell — just ask! If the menu doesn’t feature any vegan dishes other than a house salad or steamed vegetable plate, don’t panic! Many restaurant chefs are excited for the opportunity to show off their culinary skills to whip up an animal-friendly entrée for you. Many dishes can be “veganized” with minimal effort, so don’t be afraid to ask!





Good luck

I have been vegetarian for 4 years and vegan (no eggs/dairy/honey) for 6 months.



Meat eaters will of course come up with these responses to why you should eat meat:

1) it's yummy

2) it's good for you

3) we are 'meant' to eat it

4) it's natural to eat it

5) if you do not eat it you will become anemic, not get required nutrients and become very weak



Now if you review these 5 standard reasons as to why you should eat meat and then review some literature, new studies, certain human tribes and throw in some logical reasoning and common sense you will find that eating meat is extremely unnecessary.



I have done a lot of research into how a vegan diet is the healthiest way of living for a human and how by choosing not to eat meat I abstain from promoting suffering of sentient beings, of the environment, my health and mind.



I will not get into the argument about vegetarianism...however about the moral issue - well as people have said everyone has different morals. But, does majority of society think it is MORALLY ok to rape a woman? No. Does majority of society think it is MORALLY ok to murder someone? No.



But, it is morally ok to slaughter animals with no real scientific reasoning or evidence whatsoever to support it's necessity.



That said, does that make it murder?



I think that if people were shown say the process a pig endures for a slice of ham e.g standard process is pigs tails being cut off at birth, their genitals mutilated without anasthetic, living in their own faeces and in a tiny pen/cage type thing without sunlight or any natural environment and being force fed hormone enhances to make them juicy and plump and then being subjected to have a giant lead bullet put in their head which occasionally does not even kill them so when they get to the process of being burnt to remove all the hair off their body the pig is still alive and conscious and is being burnt alive.



I made the mistake of going to a slaughterhouse once.



Anyway, point is - it is morally ok to eat meat because people do not even know what they are eating and where it comes from.



Here some literature which may help. The Internet is not the best source for 'credible' information but i found a particularly good article for the 'are we meant to eat meat' question.



The Comparative Anatomy of Eating



by Milton R. Mills, M.D.



Humans are most often described as “omnivores.” This classification is based on the “observation” that humans generally eat a wide variety of plant and animal foods. However, culture, custom and training are confounding variables when looking at human dietary practices. Thus, “observation” is not the best technique to use when trying to identify the most “natural” diet for humans. While most humans are clearly “behavioral” omnivores, the question still remains as to whether humans are anatomically suited for a diet that includes animal as well as plant foods.



A better and more objective technique is to look at human anatomy and physiology. Mammals are anatomically and physiologically adapted to procure and consume particular kinds of diets. (It is common practice when examining fossils of extinct mammals to examine anatomical features to deduce the animal's probable diet.) Therefore, we can look at mammalian carnivores, herbivores (plant-eaters) and omnivores to see which anatomical and physiological features are associated with each kind of diet. Then we can look at human anatomy and physiology to see in which group we belong.



Click to learn more...



Oral Cavity



Carnivores have a wide mouth opening in relation to their head size. This confers obvious advantages in developing the forces used in seizing, killing and dismembering prey. Facial musculature is reduced since these muscles would hinder a wide gape, and play no part in the animal's preparation of food for swallowing. In all mammalian carnivores, the jaw joint is a simple hinge joint lying in the same plane as the teeth. This type of joint is extremely stable and acts as the pivot point for the “lever arms” formed by the upper and lower jaws. The primary muscle used for operating the jaw in carnivores is the temporalis muscle. This muscle is so massive in carnivores that it accounts for most of the bulk of the sides of the head (when you pet a dog, you are petting its temporalis muscles). The “angle” of the mandible (lower jaw) in carnivores is small. This is because the muscles (masseter and pterygoids) that attach there are of minor importance in these animals. The lower jaw of carnivores cannot move forward, and has very limited side-to-side motion. When the jaw of a carnivore closes, the blade-shaped cheek molars slide past each other to give a slicing motion that is very effective for shearing meat off bone.



The teeth of a carnivore are discretely spaced so as not to trap stringy debris. The incisors are short, pointed and prong-like and are used for grasping and shredding. The canines are greatly elongated and dagger-like for stabbing, tearing and killing prey. The molars (carnassials) are flattened and triangular with jagged edges such that they function like serrated-edged blades. Because of the hinge-type joint, when a carnivore closes its jaw, the cheek teeth come together in a back-to-front fashion giving a smooth cutting motion like the blades on a pair of shears.



The saliva of carnivorous animals does not contain digestive enzymes. When eating, a mammalian carnivore gorges itself rapidly and does not chew its food. Since proteolytic (protein-digesting) enzymes cannot be liberated in the mouth due to the danger of autodigestion (damaging the oral cavity), carnivores do not need to mix their food with saliva; they simply bite off huge chunks of meat and swallow them whole.



According to evolutionary theory, the anatomical features consistent with an herbivorous diet represent a more recently derived condition than that of the carnivore. Herbivorous mammals have well-developed facial musculature, fleshy lips, a relatively small opening into the oral cavity and a thickened, muscular tongue. The lips aid in the movement of food into the mouth and, along with the facial (cheek) musculature and tongue, assist in the chewing of food. In herbivores, the jaw joint has moved to position above the plane of the teeth. Although this type of joint is less stable than the hinge-type joint of the carnivore, it is much more mobile and allows the complex jaw motions needed when chewing plant foods. Additionally, this type of jaw joint allows the upper and lower cheek teeth to come together along the length of the jaw more or less at once when the mouth is closed in order to form grinding platforms. (This type of joint is so important to a plant-eating animal, that it is believed to have evolved at least 15 different times in various plant-eating mammalian species.) The angle of the mandible has expanded to provide a broad area of attachment for the well-developed masseter and pterygoid muscles (these are the major muscles of chewing in plant-eating animals). The temporalis muscle is small and of minor importance. The masseter and pterygoid muscles hold the mandible in a sling-like arrangement and swing the jaw from side-to-side. Accordingly, the lower jaw of plant-eating mammals has a pronounced sideways motion when eating. This lateral movement is necessary for the grinding motion of chewing.



The dentition of herbivores is quite varied depending on the kind of vegetation a particular species is adapted to eat. Although these animals differ in the types and numbers of teeth they posses, the various kinds of teeth when present, share common structural features. The incisors are broad, flattened and spade-like. Canines may be small as in horses, prominent as in hippos, pigs and some primates (these are thought to be used for defense) or absent altogether. The molars, in general, are squared and flattened on top to provide a grinding surface. The molars cannot vertically slide past one another in a shearing/slicing motion, but they do horizontally slide across one another to crush and grind. The surface features of the molars vary depending on the type of plant material the animal eats. The teeth of herbivorous animals are closely grouped so that the incisors form an efficient cropping/biting mechanism, and the upper and lower molars form extended platforms for crushing and grinding. The “walled-in” oral cavity has a lot of potential space that is realized during eating.



These animals carefully and methodically chew their food, pushing the food back and forth into the grinding teeth with the tongue and cheek muscles. This thorough process is necessary to mechanically disrupt plant cell walls in order to release the digestible intracellular contents and ensure thorough mixing of this material with their saliva. This is important because the saliva of plant-eating mammals often contains carbohydrate-digesting enzymes which begin breaking down food molecules while the food is still in the mouth.



Stomach and Small Intestine



Striking differences between carnivores and herbivores are seen in these organs. Carnivores have a capacious simple (single-chambered) stomach. The stomach volume of a carnivore represents 60-70% of the total capacity of the digestive system. Because meat is relatively easily digested, their small intestines (where absorption of food molecules takes place) are short&151;about three to five or six times the body length. Since these animals average a kill only about once a week, a large stomach volume is advantageous because it allows the animals to quickly gorge themselves when eating, taking in as much meat as possible at one time which can then be digested later while resting. Additionally, the ability of the carnivore stomach to secrete hydrochloric acid is exceptional. Carnivores are able to keep their gastric pH down around 1-2 even with food present. This is necessary to facilitate protein breakdown and to kill the abundant dangerous bacteria often found in decaying flesh foods.



Because of the relative difficulty with which various kinds of plant foods are broken down (due to large amounts of indigestible fibers), herbivores have significantly longer and in some cases, far more elaborate guts than carnivores. Herbivorous animals that consume plants containing a high proportion of cellulose must “ferment” (digest by bacterial enzyme action) their food to obtain the nutrient value. They are classified as either “ruminants” (foregut fermenters) or hindgut fermenters. The ruminants are the plant-eating animals with the celebrated multiple-chambered stomachs. Herbivorous animals that eat a diet of relatively soft vegetation do not need a multiple-chambered stomach. They typically have a simple stomach, and a long small intestine. These animals ferment the difficult-to-digest fibrous portions of their diets in their hindguts (colons). Many of these herbivores increase the sophistication and efficiency of their GI tracts by including carbohydrate-digesting enzymes in their saliva. A multiple-stomach fermentation process in an animal which consumed a diet of soft, pulpy vegetation would be energetically wasteful. Nutrients and calories would be consumed by the fermenting bacteria and protozoa before reaching the small intestine for absorption. The small intestine of plant-eating animals tends to be very long (greater than 10 times body length) to allow adequate time and space for absorption of the nutrients.



Colon



The large intestine (colon) of carnivores is simple and very short, as its only purposes are to absorb salt and water. It is approximately the same diameter as the small intestine and, consequently, has a limited capacity to function as a reservoir. The colon is short and non-pouched. The muscle is distributed throughout the wall, giving the colon a smooth cylindrical appearance. Although a bacterial population is present in the colon of carnivores, its activities are essentially putrefactive.



In herbivorous animals, the large intestine tends to be a highly specialized organ involved in water and electrolyte absorption, vitamin production and absorption, and/or fermentation of fibrous plant materials. The colons of herbivores are usually wider than their small intestine and are relatively long. In some plant-eating mammals, the colon has a pouched appearance due to the arrangement of the muscle fibers in the intestinal wall. Additionally, in some herbivores the cecum (the first section of the colon) is quite large and serves as the primary or accessory fermentation site.



What About Omnivores?



One would expect an omnivore to show anatomical features which equip it to eat both animal and plant foods. According to evolutionary theory, carnivore gut structure is more primitive than herbivorous adaptations. Thus, an omnivore might be expected to be a carnivore which shows some gastrointestinal tract adaptations to an herbivorous diet.



This is exactly the situation we find in the Bear, Raccoon and certain members of the Canine families. (This discussion will be limited to bears because they are, in general, representative of the anatomical omnivores.) Bears are classified as carnivores but are classic anatomical omnivores. Although they eat some animal foods, bears are primarily herbivorous with 70-80% of their diet comprised of plant foods. (The one exception is the Polar bear which lives in the frozen, vegetation poor arctic and feeds primarily on seal blubber.) Bears cannot digest fibrous vegetation well, and therefore, are highly selective feeders. Their diet is dominated by primarily succulent lent herbage, tubers and berries. Many scientists believe the reason bears hibernate is because their chief food (succulent vegetation) not available in the cold northern winters. (Interestingly, Polar bears hibernate during the summer months when seals are unavailable.)



In general, bears exhibit anatomical features consistent with a carnivorous diet. The jaw joint of bears is in the same plane as the molar teeth. The temporalis muscle is massive, and the angle of the mandible is small corresponding to the limited role the pterygoid and masseter muscles play in operating the jaw. The small intestine is short (less than five times body length) like that of the pure carnivores, and the colon is simple, smooth and short. The most prominent adaptation to an herbivorous diet in bears (and other “anatomical” omnivores) is the modification of their dentition. Bears retain the peg-like incisors, large canines and shearing premolars of a carnivore; but the molars have become squared with rounded cusps for crushing and grinding. Bears have not, however, adopted the flattened, blunt nails seen in most herbivores and retain the elongated, pointed claws of a carnivore.



An animal which captures, kills and eats prey must have the physical equipment which makes predation practical and efficient. Since bears include significant amounts of meat in their diet, they must retain the anatomical features that permit them to capture and kill prey animals. Hence, bears have a jaw structure, musculature and dentition which enable them to develop and apply the forces necessary to kill and dismember prey even though the majority of their diet is comprised of plant foods. Although an herbivore-style jaw joint (above the plane of the teeth) is a far more efficient joint for crushing and grinding vegetation and would potentially allow bears to exploit a wider range of plant foods in their diet, it is a much weaker joint than the hinge-style carnivore joint. The herbivore-style jaw joint is relatively easily dislocated and would not hold up well under the stresses of subduing struggling prey and/or crushing bones (nor would it allow the wide gape carnivores need). In the wild, an animal with a dislocated jaw would either soon starve to death or be eaten by something else and would, therefore, be selected against. A given species cannot adopt the weaker but more mobile and efficient herbivore-style joint until it has committed to an essentially plant-food diet test it risk jaw dislocation, death and ultimately, extinction.



What About Me?



The human gastrointestinal tract features the anatomical modifications consistent with an herbivorous diet. Humans have muscular lips and a small opening into the oral cavity. Many of the so-called “muscles of expression” are actually the muscles used in chewing. The muscular and agile tongue essential for eating, has adapted to use in speech and other things. The mandibular joint is flattened by a cartilaginous plate and is located well above the plane of the teeth. The temporalis muscle is reduced. The characteristic “square jaw” of adult males reflects the expanded angular process of the mandible and the enlarged masseter/pterygoid muscle group. The human mandible can move forward to engage the incisors, and side-to-side to crush and grind.



Human teeth are also similar to those found in other herbivores with the exception of the canines (the canines of some of the apes are elongated and are thought to be used for display and/or defense). Our teeth are rather large and usually abut against one another. The incisors are flat and spade-like, useful for peeling, snipping and biting relatively soft materials. The canines are neither serrated nor conical, but are flattened, blunt and small and function Like incisors. The premolars and molars are squarish, flattened and nodular, and used for crushing, grinding and pulping noncoarse foods.



Human saliva contains the carbohydrate-digesting enzyme, salivary amylase. This enzyme is responsible for the majority of starch digestion. The esophagus is narrow and suited to small, soft balls of thoroughly chewed food. Eating quickly, attempting to swallow a large amount of food or swallowing fibrous and/or poorly chewed food (meat is the most frequent culprit) often results in choking in humans.



Man's stomach is single-chambered, but only moderately acidic. (Clinically, a person presenting with a gastric pH less than 4-5 when there is food in the stomach is cause for concern.) The stomach volume represents about 21-27% of the total volume of the human GI tract. The stomach serves as a mixing and storage chamber, mixing and liquefying ingested foodstuffs and regulating their entry into the small intestine. The human small intestine is long, averaging from 10 to 11 times the body length. (Our small intestine averages 22 to 30 feet in length. Human body size is measured from the top of the head to end of the spine and averages between two to three feet in length in normal-sized individuals.)



The human colon demonstrates the pouched structure peculiar to herbivores. The distensible large intestine is larger in cross-section than the small intestine, and is relatively long. Man's colon is responsible for water and electrolyte absorption and vitamin production and absorption. There is also extensive bacterial fermentation of fibrous plant materials, with the production and absorption of significant amounts of food energy (volatile short-chain fatty acids) depending upon the fiber content of the diet. The extent to which the fermentation and absorption of metabolites takes place in the human colon has only recently begun to be investigated.



In conclusion, we see that human beings have the gastrointestinal tract structure of a “committed” herbivore. Humankind does not show the mixed structural features one expects and finds in anatomical omnivores such as bears and raccoons. Thus, from comparing the gastrointestinal tract of humans to that of carnivores, herbivores and omnivores we must conclude that humankind's GI tract is designed for a purely plant-food diet.



Summary



Facial Muscles

Carnivore Reduced to allow wide mouth gape

Herbivore Well-developed

Omnivore Reduced

Human Well-developed



Jaw Type

Carnivore Angle not expanded

Herbivore Expanded angle

Omnivore Angle not expanded

Human Expanded angle



Jaw Joint Location

Carnivore On same plane as molar teeth

Herbivore Above the plane of the molars

Omnivore On same plane as molar teeth

Human Above the plane of the molars



Jaw Motion

Carnivore Shearing; minimal side-to-side motion

Herbivore No shear; good side-to-side, front-to-back

Omnivore Shearing; minimal side-to-side

Human No shear; good side-to-side, front-to-back



Major Jaw Muscles

Carnivore Temporalis

Herbivore Masseter and pterygoids

Omnivore Temporalis

Human Masseter and pterygoids



Mouth Opening vs. Head Size

Carnivore Large

Herbivore Small

Omnivore Large

Human Small



Teeth (Incisors)

Carnivore Short and pointed

Herbivore Broad, flattened and spade shaped

Omnivore Short and pointed

Human Broad, flattened and spade shaped



Teeth (Canines)

Carnivore Long, sharp and curved

Herbivore Dull and short or long (for defense), or none

Omnivore Long, sharp and curved

Human Short and blunted



Teeth (Molars)

Carnivore Sharp, jagged and blade shaped

Herbivore Flattened with cusps vs complex surface

Omnivore Sharp blades and/or flattened

Human Flattened with nodular cusps



Chewing

Carnivore None; swallows food whole

Herbivore Extensive chewing necessary

Omnivore Swallows food whole and/or simple crushing

Human Extensive chewing necessary



Saliva

Carnivore No digestive enzymes

Herbivore Carbohydrate digesting enzymes

Omnivore No digestive enzymes

Human Carbohydrate digesting enzymes



Stomach Type

Carnivore Simple

Herbivore Simple or multiple chambers

Omnivore Simple

Human Simple



Stomach Acidity

Carnivore Less than or equal to pH 1 with food in stomach

Herbivore pH 4 to 5 with food in stomach

Omnivore Less than or equal to pH 1 with food in stomach



Human pH 4 to 5 with food in stomach

Stomach Capacity

Carnivore 60% to 70% of total volume of digestive tract

Herbivore Less than 30% of total volume of digestive tract

Omnivore 60% to 70% of total volume of digestive tract

Human 21% to 27% of total volume of digestive tract



Length of Small Intestine

Carnivore 3 to 6 times body length

Herbivore 10 to more than 12 times body length

Omnivore 4 to 6 times body length

Human 10 to 11 times body length



Colon

Carnivore Simple, short and smooth

Herbivore Long, complex; may be sacculated

Omnivore Simple, short and smooth

Human Long, sacculated



Liver

Carnivore Can detoxify vitamin A

Herbivore Cannot detoxify vitamin A

Omnivore Can detoxify vitamin A

Human Cannot detoxify vitamin A



Kidney

Carnivore Extremely concentrated urine

Herbivore Moderately concentrated urine

Omnivore Extremely concentrated urine

Human Moderately concentrated urine



Nails

Carnivore Sharp claws

Herbivore Flattened nails or blunt hooves

Omnivore Sharp claws

Human Flattened nails