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About Dogs' Diets:
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Although dogs may prefer animal-based
food, they can survive on a vegetarian diet as
long as it contains sufficient protein and other
nutrients.
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Scientific research has shown
that up to 50 percent of an adult dog's daily
diet can come from carbohydrates, including between
2.5 and 4.5 percent from fibre. Approximately
5.5 percent of the diet should come from fats
and 10 percent from protein.
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Fresh water should be available
to your dog at all times, and more during exercise,
to prevent overheating. It is fine to feed an
adult dog just one or two times a day, but puppies
need to eat two to three daily meals.
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Dietary protein contains ten
essential amino acids that dogs cannot make on
their own; studies show that dogs can tell when
their food lacks a single amino acid and will
avoid such a meal.
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Mammals have faster rates of
digestion than more primitive animals do thanks
to small, finger-like projections called "microvilli"
that increase the surface area of the intestines
by about seven-fold.
About dogs' energy needs:
- Normal, active adult dogs weighing 35 pounds
should consume about 1000 kilocalories a day.
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Unlike cats which are descended
from carnivores, dogs are omnivorous animals that
get most of their energy from carbohydrates; in
commercial dog foods, carbohydrates come from
cereals, legumes and other plant food-stuffs.
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Severe illness or trauma
may double a dog's energy needs. Whenever your
dog becomes ill, please consult with your veterinarian
or dog nutritionist for your dog's changed nutritional
needs.
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The growing puppy starts out
needing about twice as many calories per kilogram
of body weight as an adult dog of the same breed:.
Owners should start feeding puppies food at approximately
four weeks after birth in multiple, well-spaced
meals.
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Mothers' calorie needs increase
with the number of puppies and the week of lactation,
up to four.
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Due to decreased physical activity
and slowed metabolism, older dogs need 20 percent
less total calories than middle-age adult dogs.
About feeding your dog:
- Exposure to certain flavours and textures of
food early in life can shape strong preferences
later on, as can meal temperature, odour, texture
and taste.
- Pet foods marketed as "snacks" are not required
to have nutritional adequacy labels.
Vitamins
Vitamins are organic compounds that take part in a wide range of metabolic
activities. Dogs require vitamins in their food at low concentrations. First
noticed in dogs some 75 years ago, vitamin deficiencies can lead to widely
ranging clinical abnormalities that reflect the diversity of their metabolic
roles. Some vitamins, like niacin, are not only essential in small doses, but
also toxic in excess amounts. Following is a list of the functions of vitamins
and symptoms of deficiency and excess. The full report also provides
recommended daily allowances for these vitamins.
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| THE ROLE OF VITAMINS AND MINERALS IN THE DIET OF DOGS |
|
Functions |
Signs of Deficiency/Excess |
| Vitamin A |
Vision; growth; immune function; fetal development; cellular
differentiation; transmembrane protein transfer |
Anorexia; body weight loss; ataxia; conjunctivitis; corneal
disorders; skin lesions; respiratory ailments; increased
susceptibility to infection
Imbalance in bone remodelling processes; artery and
vein degeneration; dehydration; central nervous system depression;
joint pain |
| Vitamin D |
Maintenance of mineral status; skeletal structure; muscle
contraction; blood clotting; nerve conduction; cell signalling;
phosphorous balance |
Rickets; lethargy; loss of muscle tone; bone swelling and bending
Anorexia; weakness; diarrhea; vomiting;
calcification of soft tissue; excessive mineralization of long bones;
dehydration; dry and brittle hair; muscle atrophy |
Vitamin E
Read below |
Defence against oxidative damage via free radical scavenging |
Degeneration of skeletal muscle; reproductive failure; retinal
degeneration |
| Vitamin K |
Activation of clotting factors, bone proteins and other proteins |
No reports of naturally occurring deficiencies in normal dogs |
| Vitamin B1 (thiamin) |
Energy and carbohydrate metabolism; activation of ion channels in
neural tissue |
Failure to grow, weight loss, and neurological abnormalities in
puppies; damage to the nervous system and the heart in adult dogs |
| Riboflavin |
Enzyme functions |
Anorexia; weight loss; muscular weakness; flaking dermatitis; eye
lesions |
| Vitamin B6 |
Glucose generation; red blood cell function; niacin synthesis;
nervous system function; immune response; hormone regulation; gene
activation |
Anorexia and weight loss in puppies; convulsions, muscle twitching,
and anemia in adult dogs
Impairment of motor control and balance; muscle
weakness |
| Niacin |
Enzyme functions |
Anorexia; weight loss; irritation and inflammation of the lips,
cheeks, and throat; profuse salivation; bloody diarrhea
Bloody feces; convulsions |
| Pantothenic Acid |
Energy metabolism |
Erratic food intake; sudden prostration or coma; rapid respiratory
and heart rates; convulsions; gastrointestinal symptoms; reduced
antibody production |
| Vitamin B12 |
Enzyme functions |
Appetite loss; lack of white blood cells; anemia; bone marrow
changes |
| Folic Acid |
Amino acid and nucleotide metabolism; mitochondrial protein
synthesis |
Weight loss; decline in hemoglobin concentration |
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VITAMIN E
When using vitamin E purchased from a drug store BE SURE to buy all natural Vitamin E (NOT synthetic). If you have a question about which one is all natural, ask your pharmacist. Wheat germ is the richest natural source of Vitamin E. Vitamin E can also be found in food such as carrots, egg yolks, cereal, nuts, and vegetable oils. Vitamin E can be destroyed by rancid fats and inorganic irons. Liquid tonics of vitamins and minerals mixed together could be a cause for the breakdown of Vitamin E. Vitamin E is essential for muscular health. It also helps utilize fat and prevents Vitamin A, Linoletic acid, and other nutrients from destruction by oxygen in the body. Vitamin E also performs several other important functions within the body:
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It permits the diameter of the blood vessels to increase, thereby improving the blood flow to the tissues.
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It improves the blood supply to injured areas and stimulates healing.
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Dissolves and or prevents the formation of blood clots but does not interfere with the bodies normal blood clotting mechanism.
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It prevents excessive scar tissue format ion. It promotes urinary excretion. It increases the power and efficiency of muscle tissue and has a very beneficial effect on a tired heart muscle
Dosage
Daily dose of 50 i.u. can be given. This can and will depend on your dog. Always check with your Vet before starting something new. The dosage may need to be higher if you are located in a region with a high exposure to sunlight. When the body is exposed to sunlight for a long period of time, the body produces Vitamin D
- an excess of these D vitamins can cause the destruction of Vitamin E in the muscles and a shortening of the muscle
fibres. Overexposure to ultraviolet rays WILL cause the complete destruction of muscle
fibre. If your dog is an athlete, be sure to start the administration of Vitamin E (if elected) approximately 1-2 months prior to competition (lure coursing, agility, etc.). The body needs time to adjust. At first the dog may become lethargic, but energy and vitality will soon follow. This is natures way of adapting to the beneficial change in metabolism. We have had great success in the use of Vitamin E both in our lure coursers as well as in the aid of injured dogs (in the process of healing).
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VITAMIN B
B vitamins help to maintain the health of nerves, skin, eyes, hair, liver and mouth, as well as healthy muscle tone in the gastrointestinal tract and proper brain function. B-complex vitamins are coenzymes involved in energy production, and may even be useful for alleviating anxiety. There are no side effects so you can feel comfortable giving your canine and feline companions this vitamin supplement.
Dosage: Give once or twice daily.
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Small dogs give ½ of a B25
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Medium dogs give one tablet of B25
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Large/giant dogs give one to two tablets of B50.
Please note the urine may become a “brighter” yellow while taking B vitamins.
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Vitamin C and it's Role in Stress Management
- click here for article
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Minerals
Twelve minerals are known to be essential nutrients for dogs. Dogs can get
too much or too little of a specific mineral in their diets. Following is a
list of the functions of minerals and symptoms of deficiency and excess. The
full report also provides recommended daily allowances for these minerals.
|
|
Functions |
Signs of Deficiency/Excess |
| Calcium
| Formation of bones and teeth; blood coagulation; nerve impulse
transmission; muscle contraction; cell signalling |
Nutritional secondary hyperparathyroidism; significant decreases in
bone mineral content, which can result in major skeletal abnormalities
Different types of skeletal aberrations, especially
in growing puppies of large breeds |
| Phosphorus |
Skeletal structure; DNA and RNA structure; energy metabolism;
locomotion; acid-base balance |
Reduced weight gain; poor appetite; bowing and swelling of forelimbs
in puppies |
| Magnesium |
Enzyme functions; muscle and nerve-cell membrane stability; hormone
secretion and function; mineral structure of bones and teeth |
Reduction in weight gain, irritability, and convulsions in puppies;
hyperextension of carpal joints and hind-leg paralysis later in life |
| Sodium |
Acid-base balance; regulation of osmotic pressure; nerve impulse
generation and transmission |
Restlessness; increased heart rate, water intake, and hemoglobin
concentration; dry and tacky mucous membranes |
| Potassium |
Acid-base balance; nerve-impulse transmission; enzymatic reactions;
transport functions |
Poor growth and restlessness at first in puppies; paralysis of neck
muscles and rear legs and general weakness later in life |
| Chlorine |
Acid-base balance; osmolarity of extracellular fluids |
Reduced weight gain and weakness in puppies |
| Iron |
Hemoglobin and myoglobin synthesis; energy metabolism |
Poor growth; pale mucous membranes; lethargy; weakness; diarrhoea
Dangerous oxidative reactions that lead to
gastrointestinal and other tissue damage |
| Copper |
Connective tissue formation; iron metabolism; blood cell formation;
melanin pigment formation; myelin formation; defence against oxidative
damage |
Loss of hair pigmentation in puppies; anemia |
| Zinc |
Enzyme reactions; cell replication; protein and carbohydrate
metabolism; skin function; wound healing |
Poor weight gain; vomiting; skin lesions |
| Manganese |
Enzyme functions; bone development; neurological function |
No studies of deficiency in dogs |
| Selenium |
Defence against oxidative damage; immune response |
Anorexia; depression; dyspnea; coma; muscular degeneration |
| Iodine |
Thyroid hormone synthesis; cell differentiation; growth and
development of puppies; regulation of metabolic rate |
Enlargement of thyroid glands; dry, sparse hair coat; weight gain
Excessive tearing, salivation, and nasal discharge;
dandruff |
| National Academies
of Science, September 8th, 2003 |
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Mineral Supplementation in Dog Foods
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| Mineral |
Mineral Supplement Sources |
Food
Sources |
Comments |
| Calcium (without phosphorous) |
Calcium carbonate
Limestone |
Poultry by-product meal, lamb meal, fish meal |
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| Calcium and phosphorus |
Curacao phosphate
Defluorinated phosphate
Dicalcium phosphate*
Mono and tricalcium phosphate
Soft rock |
Bone meal |
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| Phosphorus |
Phosphoric acid
Sodium tripolyphosphate |
Meats, eggs, milk products |
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| Magnesium |
Magnesium oxide
Magnesium sulfate |
Bone meal, lamb meal, oilseed/protein supplements, wheat and oat bran, beet pulp, soymill run |
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| Potassium |
Potassium citrate
Potassium chloride
Potassium sulfate |
Soybean meal, unrefined grains, sunflower hulls, rice and wheat bran, soymill run, yeast |
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| Sodium and chloride |
Sodium chloride (salt)
Sodium acetate
Sodium tripolyphosphate
Calcium chloride
Potassium chloride
Choline chloride |
Fish, eggs, dried whey, poultry by-product meal, soy isolate |
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| Iron |
Ferrous sulfate
Ferric ammonium citrate
Ferrous fumarate
Ferric chloride
Ferrous carbonate
Ferric oxide
Ferrous oxide |
Meats, beet pulp, peanut hulls, soymill run, dicalcium phosphate* |
The iron in iron oxide is in a form that cannot be readily used by the body |
| Copper |
Cupric carbonate
Cupric chloride
Cupric hydroxide
Cupric oxide
Cupric sulfate |
Meat, especially liver |
Absorption decreased in the presence of calcium, zinc, iron, and phytate; the copper in copper oxide is in a form that cannot be readily used by the body |
| Manganese |
Manganese carbonate
Manganous chloride
Manganous oxide
Manganese sulfate
Manganous sulfate |
Sources of fiber, dicalcium phosphate* |
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| Zinc |
Zinc carbonate
Zinc chloride
Zinc oxide
Zinc sulfate |
Meats, sources of fiber, dicalcium phosphate* |
Absorption decreased in the presence of calcium, phosphate, copper, iron, cadmium, chromium, and phytate |
| Iodine |
Calcium iodate
Potassium iodide
Cuprous iodide
Iodized salt |
Fish, eggs, iodized salt, poultry by-products |
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| Selenium |
Sodium selenite
Sodium selenate |
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The selenium in foods is in a form that cannot be readily used by the body; selenium supplementation in dog food is generally needed |
| * Dicalcium phosphate is derived from bones and contains minerals other than calcium and phosphorous |
| Holly
Frisby, DVM, MS, Pet Education
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