This article is about food that is produced to feed dogs. For the human consumption of dog flesh and parts, see Dog meat. For other uses, see Dog food (disambiguation).
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Dog food is specifically formulated food intended for consumption by dogs and other related canines. Dogs are considered to be omnivores with a carnivorous bias. They have the sharp, pointed teeth and shorter gastrointestinal tracts of carnivores, better suited for the consumption of meat than of vegetable substances, yet also have ten genes that are responsible for starch and glucose digestion, as well as the ability to produce amylase, an enzyme that functions to break down carbohydrates into simple sugars – something that obligate carnivores like cats lack. Dogs evolved the ability living alongside humans in agricultural societies, as they managed on scrap leftovers and excrement from humans.
Dogs have managed to adapt over thousands of years to survive on the meat and non-meat scraps and leftovers of human existence and thrive on a variety of foods, with studies suggesting dogs' ability to digest carbohydrates easily may be a key difference between dogs and wolves.
The dog food recommendation should be based on nutrient suitability instead of dog's preferences. Pet owners should consider their dog's breed, size, age, and health condition and choose food that is appropriate for their dog's nutritional needs.
In the United States alone, the dog food market was expected to reach $23.3 billion by 2022.
History
Prior to being domesticated, dogs, being canines, fended for themselves and survived on a carnivorous diet. After adapting them for protection, work, and companionship, people began to care at least in part for their nutritional needs. The historic record of this changing approach dates back at least 2,000 years.
In 37 BCE, Virgil talks about the feeding of dogs in his Bucolics:
Nec tibi cura canum fuerit postrema; sed una Veloces Spartae catulos, acremque Molossum, Pasce sero pingui: "Do not let the care of dogs be last; but the swift Spartan hounds, and fierce Mastiff, Feed the whey"
Around 70 CE, Columella wrote his book On Agriculture in which he addresses the feeding of dogs:
Cibaria fere eadem sunt utrique generi praebenda. Nam si tam laxa rura sunt, ut sustineant pecorum greges, omnis sine discrimine hordeacea farina cum sero commode pascit. Sin autem surculo consitus ager sine pascuo est, farreo vel triticeo pane satiandi sunt, admixto tamen liquore coctae fabae, sed tepido, nam fervens rabiem creat. "Provisions of victuals are almost the same for both . If the fields are so large as to sustain herds of animals, barley meal mixed with whey is a convenient food. But if it is an orchard without grain, spelt or wheat bread is fed mixed with the liquid from cooked beans, but warm, for boiling creates rabies."
In the Avesta, written from 224 to 651 CE, Ahura Mazda advises:
Bring ye unto him milk and fat with meat; this is the right food for the dog.
By Medieval times, dogs were more seen as pets rather than just companions and workers which affected their quality of the diet to include "Besides being fed bran bread, the dogs would also get some of the meat from the hunt. If a dog was sick, he would get better food, such as goat's milk, bean broth, chopped meat, or buttered eggs."
In France, the word pâtée began to appear in the 18th century and referred to a paste originally given to poultry. In 1756, a dictionary indicates it was made of a mixture of bread crumbs and little pieces of meat given to pets.
In 1781, an encyclopedia mentioned an earlier practice of removing the liver, heart, and blood of a downed stag and mixing it with milk, cheese, and bread, and then giving it to dogs.
In 1844, the French writer, Nicolas Boyard, warned against even giving tallow graves (the dregs of the tallow pot) to dogs, though the English favored them (see below), and suggested a meat-flavored soup:
By a misguided economy dogs are given meat scraps and tallow graves; one must avoid this, because these foods make them heavy and sick; give them twice a day a soup of coarse bread made with water, fat and the bottom of the stew pot; put a half-kilogram of bread at least in each soup.
In England, care to give dogs particular food dates at least from the late eighteenth century, when The Sportsman's dictionary (1785) described the best diet for a dog's health in its article "Dog":
A dog is of a very hot nature: he should therefore never be without clean water by him, that he may drink when he is thirsty. In regard to their food, carrion is by no means proper for them. It must hurt their sense of smelling, on which the excellence of these dogs greatly depends. Barley meal, the dross of wheatflour, or both mixed together, with broth or skim'd milk, is very proper food. For change, a small quantity of greaves from which the tallow is pressed by the chandlers, mixed with their flour; or sheep's feet well baked or boiled, are a very good diet, and when you indulge them with flesh it should always be boiled. In the season of hunting your dogs, it is proper to feed them in the evening before, and give them nothing in the morning you take them out, except a little milk. If you stop for your own refreshment in the day, you should also refresh your dogs with a little milk and bread.
In 1833, The Complete Farrier gave similar but far more extensive advice on feeding dogs:
The dog is neither wholly carnivorous nor wholly herbivorous, but of a mixed kind, and can receive nourishment from either flesh or vegetables. A mixture of both is therefore his proper food, but of the former he requires a greater portion, and this portion should be always determined by his bodily exertions.
It was not until the mid-1800s that the world saw its first food made specifically for dogs. An American electrician, James Spratt, concocted the first dog treat. Living in London at the time, he witnessed dogs around a shipyard eating scraps of discarded biscuits. Shortly thereafter he introduced his dog food, made up of wheat meals, vegetables and meat. By 1890 production had begun in the United States and became known as "Spratt's Patent Limited".
In later years, dog biscuit was sometimes treated as synonymous with dog food:
The first three prize winners at the late coursing meeting at Great Bend were trained on Spratt's Patent Dog Biscuit. This same dog food won no less than three awards, including a gold medal, at the Exposition in Paris which has just closed. It would seem that the decision of the judges is more than backed up by the result in the kennel. Another good dog food is that manufactured by Austin & Graves, of Boston. They, too, seem to be meeting with great success in their line.
Canned horse meat was introduced in the United States under the Ken-L Ration brand after World War I as a means to dispose of excess horses no longer needed for the war. The 1930s saw the introduction of canned cat food and dry meat-meal dog food by the Gaines Food Co. By the time World War II ended, pet food sales had reached $200 million. In the 1950s Spratt's became part of General Mills. For companies such as Nabisco, Quaker Oats, and General Foods, pet food represented an opportunity to market by-products as a profitable source of income.
Impact and sustainability
This section is an excerpt from Pet food § Impact and sustainability.As of 2018, there are around 470 million pet dogs and around 370 million pet cats. Given the carnivorous diets fed to many pets (especially cats and dogs), involving the consumption of an estimated fifth of the world's meat and fish, the impact of pet-food production on climate change, land-use and other environmental impacts becomes an issue. Pet food production is responsible for 20-30% of the environmental impacts from animal production. It has been estimated that global greenhouse gas emissions from dog and cat dry food represents around 1.1%−2.9% of global emissions, an amount close to the total emissions of countries such as Mozambique or the Philippines.
Like humans, dogs are omnivores. There is research on alternative protein sources for pet food including insects and algae.
A life-cycle analysis of contemporary pet foods suggests wet foods for cats and dogs tend to have a larger impact than dry foods. It also suggests there are substantial opportunities for improvement in "all phases of the pet food life cycle, including formulation, ingredient selection, manufacturing processes" and so on.Commercial varieties
Most commercially produced dog food is made with animal feed grade ingredients and comes dry in bags (also known in the US as kibble) or wet in cans. Dry food contains 6–10% moisture by volume, as compared to 60–90% in canned food. Semi-moist products typically run 25–35%. Isotopic analysis of dog food in the Brazilian market have found that they are basically made of maize and poultry by-products.
Dry
Dry dog food usually consists of bagged pellets that contain 3-11% water. It makes up the vast majority of pet foods.
Manufacturing process
See also: Food extrusionDry food processing is popular in the pet food industry, as it is an efficient way to supply continuous production of feed in many varieties. It is energy efficient, allows for large amounts of feed to be used, and is cost effective.
To make dog kibble, a process known as extrusion is done. A simple extruder consists of a barrel, helical screws, and a die (tool to cut and shape food). Feed ingredients are solid at room temperature; therefore, the extrusion process of these ingredients requires a temperature above 150 degrees Celsius, achieved by the use of steam, hot water, or other heat sources in order to soften or melt the mixture and allow for fluidity through the barrel. During the extrusion process, the high amounts of pressure applied to the mixture forces it to enter through the die before exiting the extruder completely, where it is cut to its desired size by a rotating fly knife.
Unfortunately, the extrusion process actually denatures some of nutritional elements of the food. Taurine deficiency has been found in dogs and cats fed extruded commercial diets. Not usually considered an essential nutrient for dogs, taurine is plentiful in most whole meats, whether raw or cooked, but is reduced in extruded diets. Taurine deficiency could also be due to the use of rendered, highly processed meat sources that are low in taurine. Regardless of the cause, taurine is now artificially supplemented back into the diet after processing in the production of most commercial pet food.
Wet
Wet or canned dog food usually is packaged in a solid or soft-sided container. Wet food contains roughly 60-78% water, which is significantly higher in moisture than dry or semi-moist food. Canned food is commercially sterile (cooked during canning); other wet foods may not be sterile. Sterilizing is done through the process of retorting, which involves steam sterilization at 121 degrees Celsius. A given wet food will often be higher in protein or fat compared to a similar dry food on a dry matter basis (a measure which ignores moisture); given the canned food's high moisture content. A larger amount of canned food must be fed in order to meet the dog's required needs. Grain gluten and other protein gels may be used in wet dog food to create artificial meaty chunks, which look like real meat. This food is usually used for old dogs or puppies.
Manufacturing process
After ingredients are combined, they are placed in a tank at the end of a canning machine. From there, the mixture is forced through an opening and onto a metal sheet, forming a thickness of 8 to 12mm. Next, the mixture is heated to thoroughly cook the ingredients. Heating can be done through the means of ovens, microwaves or steam heating. The sheet containing a layer of feed is passed through the heat source that displays heat to the top and bottom of the tray, allowing the internal temperature to reach 77 degrees Celsius at a minimum. Once cooked, this mixture can be directly placed into cans to form a loaf or it can be cut into "meaty" pieces for chunks and gravy formulas.
Semi-moist
Semi-moist dog food is packaged in vacuum-sealed pouches or packets. It contains about 20-45% water by weight, making it more expensive per energy calorie than dry food.
Most semi-moist food does not require refrigeration. They are lightly cooked and then quickly sealed in a vacuum package. This type of dog food is extremely vulnerable to spoiling if not kept at a cool temperature and has a shelf life of 2–4 months, unopened.
Dehydrated and freeze-dried
Dehydrated or freeze-dried meals come in raw and cooked forms. Products are usually air-dried or frozen, then dehydrated (freeze-dried) to reduce moisture to the level where bacterial growths are inhibited. The appearance is very similar to dry dog pellets. The typical feeding methods include adding warm water before serving. There is some concern of nutrients, such as vitamins, being lost during the dehydration process.
Specialty small batches sold through specialty or online stores generally consist of some form of cooked meat, ground bone, pureed vegetables, taurine supplements, and other multivitamin supplements. Some pet owners use human vitamin supplements, and others use vitamin supplements specifically engineered for dogs.
Contents
Many commercial dog foods are made from materials considered by some authorities and dog owners to be unusable or undesirable. These may include:
- Meat and bone meal
- Offal (wild canines eat offal as a vital part of their diets)
- Animal digest
- Sucrose and/or fructose
- Animal by-products
Less expensive dog foods generally include less meat and more animal by-products and grain fillers. Proponents of a natural diet criticize the use of such ingredients, and point out that regulations allow for packaging that might lead a consumer to believe that they are buying natural food, when, in reality, the food might be composed mostly of ingredients such as those listed above. More expensive dog foods may be made of ingredients suitable for organic products or free range meats. Lamb meal is a popular ingredient.
According to the Association of American Feed Control Officials (AAFCO), animal by-products in pet food may include parts obtained from any animals that have died from sickness or disease, provided they are rendered in accordance to law. Cow brains and spinal cords not allowed for human consumption under federal regulation 21CFR589.2000 due to the possibility of transmission of BSE are allowed to be included in pet food intended for non-ruminant animals. In 2003, the AVMA speculated changes might be made to animal feed regulations to ban materials from "4-D" animals – those who enter the food chain as dead, dying, diseased or disabled.
Quality, digestibility and energy density
There are a few key components to consider when evaluating dietary needs. These factors include the quality and digestibility of the protein provided in the diet, as well as the composition of the amino acids included, and finally the energy density provided in the diet. Diets containing proteins that are high in quality, composition, and digestibility require less of that protein to be present. The same can be said in regards to the energy density. In contrast, high-protein diets will provide excess protein content after meeting maintenance demands; this can therefore lead to the protein being utilized in fat and energy storage. This ultimately increases the risk for developing obesity and other health related issues. Higher protein in the diet helps reduce lean body mass loss, but will not lead to an increase in size of muscle unless paired with resistance exercises or anabolic steroids under maintenance conditions.
Labeling
Further information: Pet food § Labeling and regulationIn the United States, dog foods labelled as "complete and balanced" must meet standards established by the Association of American Feed Control Officials (AAFCO), either by meeting a nutrient profile or by passing a feeding trial. The Dog Food Nutrient Profiles were last updated in 2016 by the AAFCO's Canine Nutrition Expert Subcommittee.
Critics argue that due to the limitations of the trial and the gaps in knowledge within animal nutrition science, the term "complete and balanced" is inaccurate and even deceptive. An AAFCO panel expert has stated that "although the AAFCO profiles are better than nothing, they provide false securities."
Certain manufacturers label their products with terms such as "premium", "ultra premium", "natural", and "holistic". Such terms currently have no legal definitions and are not regulated. There are also varieties of dog food labeled as "human-grade food." Although no official definition of this term exists, the assumption is that other brands use foods that would not pass US Food and Drug Administration inspection according to the Pure Food and Drug Act or the Meat Inspection Act.
The ingredients on the label must be listed in descending order by weight before cooking. This means before all of the moisture is removed from the meat, fruits, vegetables and other ingredients used.
Types of diets
Raw
Main article: Raw feedingRaw feeding is the practice of feeding domestic dogs, cats and other animals a diet consisting primarily of uncooked meat, edible bones, and organs. The ingredients used to formulate raw diets can vary. Some pet owners choose to make homemade raw diets to feed their animals but commercial raw food diets are also available.
Frozen, or fresh-prepared, meals come in raw or cooked form, some of which is made with ingredients that are inspected, approved, and certified by the USDA for human consumption, but formulated for pets. Part of this growing trend is the commercialization of home-made dog food for pet owners who want the same quality, but do not have the time or expertise to make it themselves. The advantage is forgoing the processing stage that traditional dog food undergoes. This causes less destruction of its nutritional integrity.
The practice of feeding raw diets has raised some concerns due to the risk of foodborne illnesses, zoonosis and nutritional imbalances. People who feed their dogs raw food do so for a multitude of reasons, including but not limited to: culture, beliefs surrounding health, nutrition and what is perceived to be more natural for their pets. Feeding raw food can be perceived as allowing the pet to stay in touch with their wild, carnivorous ancestry. The raw food movement has occurred in parallel to the change in human food trends for more natural and organic products.
Senior
Main article: Senior dog dietAging dogs require specialized catering. Commercially available senior dog diets address their physiological changes through various ingredients and nutrients.
When looking for a senior dog food, one of the first things that should be taken into consideration is the energy content of the diet. The maintenance energy requirements decrease as a dog ages due to the loss in lean body mass that occurs. Therefore, senior dogs will require a diet with a lowered energy content compared to non senior diets. Although senior dogs require lower energy content diets, they will also require diets that are higher in protein and protein digestibility. This is due to the fact that dogs have a reduced ability to synthesize proteins as they age.
Joint and bone health is an important factor to be considered when purchasing a senior dog food. The addition of glucosamine and chondroitin sulfate has been shown to improve cartilage formation, the composition of synovial fluid, as well as improve signs of osteoarthritis. The calcium to phosphorus ratio of senior dog foods is also important. Calcium and phosphorus are considered essential nutrients, according to AAFCO.
Gastrointestinal health is another important factor to consider in the aging dog. Sources of fiber such as beet pulp and flaxseed should be included within senior dog foods to help improve stool quality and prevent constipation. A current technology that is being used to improve gastrointestinal health of aging dogs is the addition of fructooligosaccharides and mannanoligosaccharides. These oligosaccharides are used in combination to improve the beneficial gut bacteria while eliminating the harmful gut bacteria.
The aging dog goes through changes in brain and cognitive health. There are two highly important ingredients that can be included in senior dog foods to help prevent cognitive decline and improve brain health. These ingredients are vitamin E and L-carnitine. Vitamin E acts as an antioxidant, which can prevent oxidative damage that occurs during aging. L-carnitine is used to improve mitochondrial function, which can also help to prevent and lower rates of oxidative damage.
Skin and coat health is important in all dogs, but especially becomes important as dogs age. An important nutrient to look for in senior dog foods to support coat health is linoleic acid, which can be found in corn and soybean oil. Another important nutrient is vitamin A, which helps with keratinization of hair. Good sources of vitamin A for skin and coat health include egg yolk and liver.
Immune system health has been shown to decline in aging dogs. The ratio of omega-6 to omega-3 fatty acids plays an important role in providing optimal health. Vitamin E can be used as an antioxidant in senior dog foods. Pre- and probiotics can also be added to senior dog foods to help improve the beneficial bacteria in the gut, providing support for the immune system.
Low-protein
According to The Association of American Feed Control Officials (AAFCO) nutrient guideline for cats and dogs, the minimum protein requirement for dogs during adult maintenance is 18% on a dry matter (DM) basis. Other parts of the world would have a guideline similar to AAFCO. The European Pet Food Federation (FEDIAF) also stated a minimum of 18%. AAFCO only provided a minimum, but majority of the diets found on the market contain a protein level exceeding the minimum. Some diets have a protein level lower than others (such as 18-20%). These low-protein diets would not be seen with growth and reproductive life stages because of their higher demand for protein, as such, these diets are for dogs meeting maintenance levels. They can be purchased, such as vegetarian, vegan, weight control, and senior diets. Furthermore, this protein requirement varies from species to species.
Disadvantages
There is an increasing risk of the practice of coprophagy when providing low-protein diets to dogs; a negative correlation exists between the amount of protein fed and the occurrence of coprophagy. Maintenance needs should still be met by low-protein diets, and the muscle turnover (i.e. synthesis and breakdown) will also remain at an optimal rate, as long as the amino acid intake remains balanced and there are no limiting amino acids. There is a greater opportunity for amino acids to balance in diets containing more protein.
Advantages
The dog's simple gastrointestinal tract contains a vast array of microbial populations; some members of this very diversified community include Fusobacteriota, Pseudomonadota, and Actinomycetota. The gut microbiota of the dog will be comparable to that of the owners due to similar environmental impacts. Not only are the microbes influenced by the dog's environment, but they are also affected by the macronutrient content of the dog's diet. The populations present and health status of the microbiota found within the gut can alter the physiological and metabolic functions of the dog, which then subsequently affects susceptibility to disease development.
Fermentation and digestion in the hindgut of a dog can potentially be improved depending on the source and the concentration of protein provide in a diet. Greater digestibility due to higher quality ingredients, in addition to lower protein concentrations within a diet, will help promote beneficial outcomes in assisting the health of a dog's gastrointestinal tract. Higher protein entering the gut will lead to more putrefaction that give rise to various toxins including carcinogens and increase the chances of many bowel diseases, such as colorectal cancer.
The age of dogs and cats is inversely proportional to protein consumption. As they age, the protein requirement decreases due to lower level of pepsin in their stomachs. There has also been discussion about higher protein content in diets being inversely related with lifespan (i.e. negative relationship), where lower protein content diets were related to longer lifespans.
Hypoallergenic
Dogs are prone to have adverse allergic reactions to food similar to human beings. The most common symptoms of food allergies in dogs include rashes, swelling, itchy or tender skin, and gastrointestinal upsets such as uncontrollable bowel movements and soft stools. Certain ingredients in dog food can elicit these allergic reactions. Specifically, the reactions are understood to be initiated by the protein ingredients in dog food, with sources such as beef, chicken, soy, and turkey being common causes of these allergic reactions. A number of "novel protein" dog foods are available that claim to alleviate such allergies in dogs.
Hypoallergenic diets for dogs with food allergies consist of either limited ingredients, novel proteins, or hydrolyzed proteins. Limited ingredients make it possible to identify the suspected allergens causing these allergic reactions, as well as making it easy to avoid multiple ingredients if a canine is allergic to more than one. In novel protein recipes, manufacturers use ingredients which are less likely to cause allergic reactions in dogs such as lamb, fish, and rice. Hydrolyzed proteins do not come from a novel source; they could originate from chicken or soy for example. Hydrolyzed proteins become novel when they are broken apart into unrecognizable versions of themselves, making them novel to allergic gastrointestinal tracts.
Grain-free and low-carbohydrate
Some dog food products differentiate themselves as grain- or carbohydrate-free to offer the consumer an alternative, claiming carbohydrates in pet foods to be fillers with little or no nutritional value. A study published in Nature suggests that domestic dogs' ability to easily metabolize carbohydrates may be a key difference between wolves and dogs.
Some consumers and manufacturers say dogs perform better on grain-free diets, while some veterinarians doubt this for a lack of scientific evidence. In 2019, a study comparing dry dog food that was manufactured in the United States found that 75% of food containing feed grade grains also contained measurable levels of various mycotoxins (discussed below), while none of the grain-free dry diets tested had any detectable levels of mycotoxins. Feed grade (lower quality grade) grains that are allowed to spoil and become moldy are the suspected source of the mycotoxins. This is the first published study to show a potential health benefit to feeding grain-free commercial dry pet foods.
In 2019, the U.S. Food and Drug Administration identified 16 dog food brands linked to canine heart disease. The FDA has investigated more than 500 cases of dilated cardiomyopathy (DCM) in dogs eating food marketed as grain-free. The 16 brands are: Acana, Zignature, Taste of the Wild, 4Health, Earthborn Holistic, Blue Buffalo, Nature's Domain, Fromm, Merrick, California Natural, Natural Balance, Orijen, Nature's Variety, NutriSource, Nutro, and Rachael Ray Nutrish. These brands are labeled as "grain-free" and list peas, lentils, or potatoes as the main ingredient. The top three brands associated with reports of cardiomyopathy are Acana with 67 reports, Zignature with 64, and Taste of the Wild with 53 reports.
In 2022, the FDA released a follow-up report which superseded the 2019 research. The follow-up report stated the following:
Most of the diets associated with the reports of non-hereditary DCM have legume seed ingredients, also called "pulses" (e.g., peas, lentils, etc.), high in their ingredient lists ... these include both "grain-free" and grain-containing formulations. Legumes, including pulse ingredients, have been used in pet foods for many years, with no evidence to indicate they are inherently dangerous, but analysis of data reported to the Center for Veterinary Medicine indicates that pulse ingredients are used in many "grain-free" diets in greater proportion than in most grain-containing formulas. FDA has asked pet food manufacturers to provide diet formulations so we can further understand the proportions of ingredients in commercially-available diets and possible relationships with non-hereditary DCM. The FDA does not know the specific connection between these diets and cases of non-hereditary DCM and is continuing to explore the role of genetics, underlying medical conditions, and/or other factors.
Vegetarian and vegan
Main article: Vegetarian and vegan dog dietLike the human practice of veganism, vegan dog foods are those formulated with the exclusion of ingredients that contain or were processed with any part of an animal, or any animal byproduct. A 2023 systematic review found no evidence of serious impacts on animal health from vegetarian cat and dog diets; however, the authors noted that the studies suffered from issues such as selection bias, low sample size, and short feeding periods and recommended further research. The omnivorous domestic canine has evolved to metabolize carbohydrates and thrive on a diet lower in protein, and a vegan diet may be adequate if properly formulated and balanced.
Popularity of this diet has grown with a corresponding increase in people practicing vegetarianism and veganism as well as with growing concerns about environmental issues such as climate change or awareness of the large environmental impacts of animal agriculture. Vegetarian dog foods are produced to either assuage a pet owner's ethical concerns or for animals with extreme allergies.
Due to the exclusion of animal products and by-products, which are primary ingredients of conventional dog food, many nutrients that would otherwise be provided by animal products need to be provided by replacement, plant-based ingredients. While both animal and plant products offer a wide range of macro and micronutrients, strategic formulation of plant ingredients should be considered to meet nutritional requirements, as different nutrients are more abundant in different plant sources. Despite the large differences in ingredient sourcing, studies have demonstrated that a plant-based diet can be just as edible and palatable as animal-based diets for dogs. There are now various commercial vegetarian and vegan diets available on the market.
- Special considerations
Some nutrients that require special consideration include protein, calcium, vitamin D, vitamin B12, taurine, L-carnitine, and omega-3 fatty acids, particularly DHA and EPA. Although their sources are more limited without animal products, it is possible to formulate a diet adequate in these nutrients through plant and synthetic sources. A review recommends a cautious approach to vegan dog food given "the lack of large population-based studies" as of 2023 and that commercial foods are used if guardians wish to implement a vegan diet.
Potential risks in feeding a plant-based diet include alkaline urine and nutrient inadequacy, especially in homemade diets. Adherence to recommendations by reliable sources is strongly advised.
Nutrients and supplements
See also: Cat food § Nutrients and supplementsThe requirements and functions of nutrients in dogs are largely similar to those in cats, with many requirements relaxed:
- The requirement of arginine in the urea cycle is reduced, as dogs have a functional pyrroline-5-carboxylate synthase.
- Dogs have a functional delta 6 desaturase, hence no specific need for arachidonic acid.
- Dogs have a functional sulfinoalanine decarboxylase, hence no need for taurine.
- Unlike cats, dogs and humans can use Vitamin D2 nearly as efficiently as they use Vitamin D3.
Chart
This section may lack focus or may be about more than one topic. In particular, need to replace cat functions and symptoms with dog information. Please help improve this article, possibly by splitting the section, or discuss this issue on the talk page. (November 2020) |
Nutrient | Units (dry matter basis) |
Growth and reproduction minimum |
Adult maintenance minimum |
Maximum | Functions | Signs of deficiency/Excess |
---|---|---|---|---|---|---|
Protein and amino acids | ||||||
Total protein | % | 22.5 | 18.0 | |||
Arginine | % | 1.0 | 0.51 |
| ||
Histidine | % | 0.44 | 0.19 | |||
Isoleucine | % | 0.71 | 0.38 | |||
Leucine | % | 1.29 | 0.68 | |||
Lysine | % | 0.90 | 0.63 | |||
Methionine + cystine | % | 0.70 | 0.65 | |||
Methionine | % | 0.35 | 0.33 | |||
Phenylalanine + tyrosine | % | 1.30 | 0.74 | |||
Phenylalanine | % | 0.83 | 0.45 | |||
Threonine | % | 1.04 | 0.48 | |||
Tryptophan | % | 0.20 | 0.16 | |||
Valine | % | 0.68 | 0.49 | |||
Fats | ||||||
Total fats | % | 8.5 | 5.5 | |||
Linoleic acid | % | 1.3 | 1.1 | |||
alpha-Linolenic acid | % | 0.08 | ND | |||
EPA + DHA | % | 0.05 | ND | |||
ω-6:ω-3 ratio | 30:1 | |||||
Minerals | ||||||
Calcium | % | 1.2 | 0.5 | 1.8 |
|
|
Phosphorus | % | 1.0 | 0.4 | 1.6 |
|
|
Ca:P ratio | 1:1 | 1:1 | 2:1 | |||
Potassium | % | 0.6 | 0.6 |
|
| |
Sodium | % | 0.3 | 0.08 |
|
| |
Chloride | % | 0.45 | 0.12 |
|
| |
Magnesium | % | 0.06 | 0.06 |
|
| |
Iron | mg/kg | 88 | 40 |
|
| |
Copper | mg/kg | 12.4 | 7.3 |
|
| |
Manganese | mg/kg | 7.2 | 5.0 |
|
No studies of deficiency in cats | |
Zinc | mg/kg | 100 | 80 | 1000 (removed in 2014) |
|
|
Iodine | mg/kg | 1.0 | 1.0 | 11 |
|
|
Selenium | mg/kg | 0.35 | 0.35 | 2 |
|
No studies of deficiency in cats |
Vitamins | ||||||
Vitamin A | IU/kg | 5000 | 5000 | 250,000 |
|
|
Vitamin D | IU/kg | 500 | 500 | 3,000 |
|
|
Vitamin E | IU/kg | 50 | 50 |
|
| |
Vitamin B1 / Thiamine | mg/kg | 2.25 | 2.25 |
|
| |
Riboflavin | mg/kg | 5.2 | 5.2 |
|
| |
Pantothenic acid | mg/kg | 12 | 12 |
|
| |
Niacin | mg/kg | 13.6 | 13.6 |
|
| |
Vitamin B6 / Pyridoxine | mg/kg | 1.5 | 1.5 |
|
| |
Folic Acid | mg/kg | 0.216 | 0.216 |
|
| |
Vitamin B12 | mg/kg | 0.028 | 0.028 |
|
| |
Choline | mg/kg | 1360 | 1360 |
|
- Presumes an energy density of 4.0 kcal/g ME, based on the modified Atwater values of 3.5, 8.5, and 3.5 kcal/g for protein, fat, and carbohydrate (nitrogen-free extract, NFE), respectively . Rations greater than 4.5 kcal/g should be corrected for energy density; rations less than 4.0 kcal/g should not be corrected for energy.
- Recommended concentrations for maintenance of body weight at an average caloric intake for dogs of a given optimal weight.
- Although a true requirement for fat per se has not been established, the minimum level was based on recognition of fat as a source of essential fatty acids, as a carrier of fat-soluble vitamins, to enhance palatability, and to supply an adequate caloric density.
- Average apparent digestibility for iron associated with recommended minimums is 20% of that consumed. Because of very poor bioavailability, iron from carbonate or oxide sources that are added to the diet should not be considered as components in meeting the minimum nutrient level.
- Because of very poor bioavailability, copper from oxide sources that are added to the diet should not be considered as components in meeting the minimum nutrient level.
- It is recommended that the ratio of IU of vitamin E to grams of polyunsaturated fatty acids (PUFA) be >0.6:1. A diet containing 50 IU of vitamin E will have a ratio of >0.6:1 when the PUFA content is 83 grams or less. Diets containing more than 83 grams of PUFA should contain an additional 0.6 IU of vitamin E for every gram of PUFA.
- Because processing may destroy up to 90% of the thiamine in the diet, allowance in formulation should be made to ensure the minimum nutrient level is met after processing.
The European Union does not use a unified nutrient requirement. A manufacturer committee called FEDIAF (European Pet Food Industry Federation) makes recommendations for cats and dogs that members follow. Both AAFCO and FEDIAF publish in two formats: one in the amount-per-kilogram form above, another in an energy-ratio format.
Dangers
Main article: Dog health § Dangerous foodsA number of common human foods and household ingestibles are toxic to dogs, including chocolate solids (theobromine poisoning), onion and garlic (thiosulfate, alliin or allyl propyl disulfide poisoning), grapes and raisins (cause kidney failure in dogs), milk (some dogs are lactose intolerant and suffer diarrhea; goats' milk can be beneficial to dogs), mushrooms, fatty foods, rhubarb, xylitol, macadamia nuts, as well as various plants and other potentially ingested materials. A full list of poison/toxic substances can be found on the ASPCA's website.
Recalls
Main article: 2007 pet food recallsThe 2007 pet food recalls involved the massive recall of many brands of cat and dog foods beginning in March 2007. The recalls came in response to reports of renal failure in pets consuming mostly wet pet foods made with wheat gluten from a single Chinese company, beginning in February 2007. After more than three weeks of complaints from consumers, the recall began voluntarily with the Canadian company Menu Foods on March 16, 2007, when a company test showed sickness and death in some of the test animals.
Overall, several major companies recalled more than 100 brands of pet foods, with most of the recalled product coming from Menu Foods. The contaminant was identified as melamine, which had been added as an adulterant to simulate a higher protein content.
In the United States, there has been extensive media coverage of the recall. There have been calls for government regulation of pet foods, which had previously been self-regulated by pet food manufacturers. The economic impact on the pet food market has been extensive, with Menu Foods losing roughly $30 million alone from the recall.
Contaminants
Mycotoxins
In April 2014, aflatoxin B1, a known carcinogenic toxin, melamine, and cyanuric acid were all found in various brands of USA pet food imported into Hong Kong. Since 1993, the FDA has confirmed concerns of toxins in feed grade (animal grade) ingredients, yet to date no comprehensive federal regulation exists on mycotoxin testing in feed grade (animal grade) ingredients used to make pet food.
In 1997, the Journal of Food Additives and Contaminants established that low levels of various mycotoxins could cause health concerns in pets, and was found in feed grade ingredients.
A study published in the Journal of Food Protection in 2001 cited concerns regarding fungi (the source of mycotoxins) in commercial pet foods and warned about the "risk for animal health".
In 2006, a study published in the Journal of Agricultural and Food Chemistry confirmed mycotoxins in pet foods around the world and concluded that contamination of mycotoxins in pet foods can lead to chronic effects on the health of pets.
In 2007, the International Journal of Food Microbiology published a study that claimed "mycotoxin contamination in pet food poses a serious health threat to pets", and listed them: aflatoxins, ochratoxins, trichothecenes, zearalenone, fumonisins and fusaric acid.
A 2008 study published in the Journal of Animal Physiology and Animal Nutrition found high levels of mycotoxins in the raw ingredients used for pet food in Brazil.
A 2010 study in the Journal of Mycotoxin Research tested 26 commercial dog foods and found mycotoxins at concerning sub-lethal levels. It was determined that long-term exposure to low levels of confirmed mycotoxins could pose chronic health risks.
For all the above reasons, a trend away from feed ingredients and toward USDA-certified ingredients fit for human consumption has developed.
In 1999, another fungal toxin triggered the recall of dry dog food made by Doane Pet Care at one of its plants, including Ol' Roy, Wal-Mart's brand, as well as 53 other brands. This time the toxin killed 25 dogs.
A 2005 consumer alert was released for contaminated Diamond Pet Foods for dogs and cats. Over 100 canine deaths and at least one feline fatality have been linked to Diamond Pet Foods contaminated by potentially deadly aflatoxin, according to Cornell University veterinarians.
Salmonella and copper
The FDA released a video focusing on another major threat in commercial pet food: Salmonella bacterial contamination. They also cite other major toxins of concern. The video references the case of a specific commercial pet food plant that was also the subject of a March 2014 study published in the Journal of the American Veterinary Medical Association. It details how at least 53 known human illnesses were linked to commercial pet foods made at that plant in 2012. A class action lawsuit linked to this outbreak was settled in 2014.
The video also cites the dangers of over supplementation of nutrients in pet food. A study published in the Journal of the American Veterinary Medical Association in February 2013 suggested a correlation between liver disease and the amount of copper supplementation in AAFCO diets.
In popular culture
Eating your own dog food or dogfooding is the practice of using your own products or services.
See also
- Cat food
- Dental health diets for dogs
- Dog food brands
- Dog biscuits
- Dog meat
- Dog odor
- Hypoallergenic dog food
- Pet store
- Puppy nutrition
- Senior dog diet
References
- ^ Axelsson, E.; Ratnakumar, A.; Arendt, M.L.; Maqbool, K.; Webster, M.T.; Perloski, M.; Liberg, O.; Arnemo, J.M.; Hedhammar, Å.; Lindblad-Toh, K. (2013). "The genomic signature of dog domestication reveals adaptation to a starch-rich diet". Nature. 495 (7441): 360–364. Bibcode:2013Natur.495..360A. doi:10.1038/nature11837. PMID 23354050. S2CID 4415412.
- ^ Arendt, M; Cairns, K M; Ballard, J W O; Savolainen, P; Axelsson, E (13 July 2016). "Diet adaptation in dog reflects spread of prehistoric agriculture". Heredity. 117 (5): 301–306. doi:10.1038/hdy.2016.48. PMC 5061917. PMID 27406651.
- Pajic, Petar; Pavlidis, Pavlos; Dean, Kirsten; Neznanova, Lubov; Romano, Rose-Anne; Garneau, Danielle; Daugherity, Erin; Globig, Anja; Ruhl, Stefan; Gokcumen, Omer (14 May 2019). "Independent amylase gene copy number bursts correlate with dietary preferences in mammals". eLife. 8. doi:10.7554/eLife.44628. PMC 6516957. PMID 31084707.
- Mareike C Janiak (May 14, 2019). "Evolution: Of starch and spit". eLife.
- "Did Eating Human Poop Play a Role in the Evolution of Dogs? | Psychology Today".
- Song, Hee Seok; Kim, Young Ae (March 2021). "A dog food recommendation system based on nutrient suitability". Expert Systems. 38 (2). doi:10.1111/exsy.12623. ISSN 0266-4720. S2CID 225422919.
- "Dog Food in the US". Euromonitor.com. Archived from the original on 13 August 2018. Retrieved 12 August 2018.
- Virgil (6 December 2017). "Bucolica, Georgica, et Aeneis: accedunt clavis metrica, notulae Anglicae, et quaestiones". Hilliard, Gray, Little et Wilkins. Archived from the original on 15 November 2021. Retrieved 5 February 2019 – via Google Books.
- "Columella: de Re Rustica VII". Thelatinlibrary.com. Archived from the original on 2015-04-26. Retrieved 2015-03-16.
- Darmesteter, James; Mills, Lawrence Heyworth (6 December 1895). "The Zend-Avesta: The Vendîdâd, translated by James Darmesteter". Clarendon Press. Archived from the original on 15 November 2021. Retrieved 16 March 2015 – via Google Books.
- de), Fr Girard (Viuda (6 December 2017). "Nouveau dictionnaire universel des arts et des sciencies: françois, latin et anglois..." chez la Veuve de Fr. Girard. Archived from the original on 15 November 2021. Retrieved 5 February 2019 – via Google Books.
- "Denis Diderot, Jean Le Rond d' Alembert, Encyclopédie ou dictionnaire raisonné des sciences ..., Volume 35, Part 1". 1781. Retrieved 2016-10-21.
- Boyard, Nicolas Jean Baptiste (1844). "Nicolas Jean Baptiste Boyard, Manuel du bouvier et zoophile: ou l'art d'élever de soigner les animaux 1844, 327". Archived from the original on 2020-08-19. Retrieved 2018-10-02.
- "The Sportsman's Dictionary; Or, The Gentleman's Companion: for Town and Country: Containing Full and Particular Instructions for Riding, Hunting, Fowling ... Hawking, &c. With the Various Methods to be Observed in Breeding and Dieting of Horses Both for the Road and Turf; Also, the Management of Dogs, Gamecocks, Dunghill-fowls, Turkies, Geese, Ducks, Pigeons, Singing-birds, &c. And the Manner of Curing Their Various Diseases and Accidents". G.G.J. and J. Robinson. 6 December 1785. Archived from the original on 15 November 2021. Retrieved 5 February 2019 – via Google Books.
- Lawrence, Richard (6 December 2017). "The Complete Farrier, and British Sportsman: Containing a Systematic Enquiry Into the Structure and Animal Economy of the Horse, the Causes, Symptoms, and Most-approved Methods of Prevention and Cure for Every Disease to which He is Liable ... with Numerous ... Recipes for Various Diseases. ... Including a ... Declineation of the ... Dogs Used in the Sports of the Field, with Canine Pathology. With an Appendix, Containing a Minute Anatomical Description of the ... Skeleton of the Horse; the ... Muscles ... and the Different Viscera". W. Clowes for T. Kelly. Archived from the original on 15 November 2021. Retrieved 5 February 2019 – via Google Books.
- "The Best Dog Food for Small Dogs". allsmalldogs.org. December 21, 2013. Archived from the original on August 12, 2014. Retrieved January 11, 2016.
- "Outing: Sport, Adventure, Travel, Fiction". W. B. Holland. 6 December 1890. Archived from the original on 15 November 2021. Retrieved 5 February 2019 – via Google Books.
- Forrest, Susanna (8 June 2017). "The Troubled History of Horse Meat in America". The Atlantic. Archived from the original on 15 March 2020. Retrieved 15 March 2020.
- "History of Pet Food". sojos.com. Archived from the original on 2011-08-29. Retrieved 2011-09-10.
- "Dog and cat pet population worldwide 2018". Statista. Retrieved 6 March 2023.
- ^ Acuff, Heather L.; Dainton, Amanda N.; Dhakal, Janak; Kiprotich, Samuel; Aldrich, Greg (1 May 2021). "Sustainability and Pet Food: Is There a Role for Veterinarians?". Veterinary Clinics: Small Animal Practice. 51 (3): 563–581. doi:10.1016/j.cvsm.2021.01.010. ISSN 0195-5616. PMID 33773646. S2CID 232406972.
- Pedrinelli, Vivian; Teixeira, Fabio A.; Queiroz, Mariana R.; Brunetto, Marcio A. (17 November 2022). "Environmental impact of diets for dogs and cats". Scientific Reports. 12 (1): 18510. Bibcode:2022NatSR..1218510P. doi:10.1038/s41598-022-22631-0. ISSN 2045-2322. PMC 9672041. PMID 36396966.
- Okin, Gregory S. (2017-08-02). "Environmental impacts of food consumption by dogs and cats". PLOS ONE. 12 (8): e0181301. Bibcode:2017PLoSO..1281301O. doi:10.1371/journal.pone.0181301. ISSN 1932-6203. PMID 28767700.
- Alexander, Peter; Berri, Aiden; Moran, Dominic; Reay, David; Rounsevell, Mark D. A. (2020-11-01). "The global environmental paw print of pet food". Global Environmental Change. 65: 102153. Bibcode:2020GEC....6502153A. doi:10.1016/j.gloenvcha.2020.102153. hdl:20.500.11820/7d70be97-5535-45b9-9aea-58a60cfbb774. ISSN 0959-3780.
- Hernandez, Juan; Rhimi, Soufien; Kriaa, Aicha; Mariaule, Vincent; Boudaya, Houda; Drut, Amandine; Jablaoui, Amin; Mkaouar, Héla; Saidi, Amel; Biourge, Vincent; Borgi, Mohamed Ali; Rhimi, Moez; Maguin, Emmanuelle (May 2022). "Domestic Environment and Gut Microbiota: Lessons from Pet Dogs". Microorganisms. 10 (5): 949. doi:10.3390/microorganisms10050949. ISSN 2076-2607. PMC 9143008. PMID 35630391.
- Oberbauer, Anita M.; Larsen, Jennifer A. (2021). "Amino Acids in Dog Nutrition and Health". Amino Acids in Nutrition and Health. Advances in Experimental Medicine and Biology. Vol. 1285. Springer International Publishing. pp. 199–216. doi:10.1007/978-3-030-54462-1_10. ISBN 978-3-030-54461-4. PMID 33770408. S2CID 232375959.
- Bosch, Guido; Hagen-Plantinga, Esther A.; Hendriks, Wouter H. (January 2015). "Dietary nutrient profiles of wild wolves: insights for optimal dog nutrition?". British Journal of Nutrition. 113 (S1): S40–S54. doi:10.1017/S0007114514002311. ISSN 0007-1145. PMID 25415597. S2CID 17359879.
- Golder, Christina; Weemhoff, James L.; Jewell, Dennis E. (March 2020). "Cats Have Increased Protein Digestibility as Compared to Dogs and Improve Their Ability to Absorb Protein as Dietary Protein Intake Shifts from Animal to Plant Sources". Animals. 10 (3): 541. doi:10.3390/ani10030541. ISSN 2076-2615. PMC 7143243. PMID 32213956.
- Kępińska-Pacelik, Jagoda; Biel, Wioletta (January 2022). "Insects in Pet Food Industry—Hope or Threat?". Animals. 12 (12): 1515. doi:10.3390/ani12121515. ISSN 2076-2615. PMC 9219536. PMID 35739851.
- McCusker, Sarah; Buff, Preston R.; Yu, Zengshou; Fascetti, Andrea J. (30 September 2014). "Amino acid content of selected plant, algae and insect species: a search for alternative protein sources for use in pet foods". Journal of Nutritional Science. 3: e39. doi:10.1017/jns.2014.33. ISSN 2048-6790. PMC 4473169. PMID 26101608.
- Galera, Leonardo de Aro; Abdalla Filho, Adibe Luiz; Reis, Luiza Santos; Souza, Janaina Leite de; Hernandez, Yeleine Almoza; Martinelli, Luiz Antonio (2019). "Carbon and nitrogen isotopic composition of commercial dog food in Brazil". PeerJ. 7: e5828. doi:10.7717/peerj.5828. PMC 6387582. PMID 30809425.
- ^ "Pet Foods - Diet Types | PetDiets". www.petdiets.com. Archived from the original on 2019-11-17. Retrieved 2019-11-17.
- MacNamara, John P. Principles of Companion Animal Nutrition. 2006. New Jersey: Pearson/Prentice Hall.
- Elsey, J.; Riepenhausen, J.; McKay, B.; Barton, G.W.; Willis, M. (1997). "Modeling and Control of a Food Extrusion Process". Computers Chem Engng. 21 (1–2): S361–S366. doi:10.1016/s0098-1354(97)00075-6.
- Pitchon, E. (1980). United States Patent No. 4225630. Flushing, New York:United States Patent Office.
- Fascetti, Andrea (October 2003). "Taurine deficiency in dogs with dilated cardiomyopathy". Journal of the American Veterinary Medical Association. 223 (8): 1137–1141. doi:10.2460/javma.2003.223.1137. PMID 14584743.
- Pion, Paul (1992). "Dilated Cardiomyopathy Associated with Taurine Deficiency in the Domestic Cat: Relationship to Diet and Myocardial Taurine Content". Taurine. Advances in Experimental Medicine and Biology. Vol. 315. pp. 63–73. doi:10.1007/978-1-4615-3436-5_8. ISBN 978-1-4613-6520-4. PMID 1387282.
- Spitze, AR (2003). "Taurine concentrations in animla feed ingredients; cooking influences taurine content" (PDF). Journal of Animal Physiology and Animal Nutrition. 87 (7–8): 251–262. doi:10.1046/j.1439-0396.2003.00434.x. PMID 12864905. Archived from the original (PDF) on 6 December 2013. Retrieved 21 June 2014.
- Messonnier, S. (2001) Natural Health Bible for Dogs & Cats. New York: Three Rivers Press. ISBN 0-7615-2673-0
- Bohart, G.S. (1934). United States Patent No. 1961681. Washington, D.C.:United States Patent Office.
- ^ Baker, G.J., Bansal, A.K., Konieczka, J.L. and Kuntz, D.A. (1990). United States Patent No. 4895731. Chicago, Illinois: United States Patent Office.
- Taylor, Jessica (2013-09-26). "How to: Apply human food trends to petfood". Petfoodindustry.com. Archived from the original on 2012-11-09. Retrieved 2014-08-10.
- "Making Homemade dog food recipes". Archived from the original on 2013-05-11. Retrieved 2013-03-27.
- "The Dog Food Project – Ingredients to avoid". Dogfoodproject.com. Archived from the original on 2009-01-16. Retrieved 2009-01-31.
- "The Pet Food Ingredient Game - Wysong". Wysong.net. Archived from the original on 2012-08-23. Retrieved 2012-08-13.
- "An excerpt from the book "Food Pets Die For"". Homevet.com. Archived from the original on 2007-06-21. Retrieved 2007-10-25.
- the Association of American Feed Control Officials Archived January 17, 2009, at the Wayback Machine
- Canada Wraps Up BSE Investigation Archived November 27, 2008, at the Wayback Machine
- ^ Case, Linda P (2011). Canine and feline nutrition: a resource for companion animal professionals. Maryland Heights, Mo.: Mosby. ISBN 9780323066198. Archived from the original on 2021-11-15. Retrieved 2017-12-05.
- Hilton, J.W.; Atkinson, J.L. (January 1988). "High Lipid and High Protein Dog Foods". The Canadian Veterinary Journal. 29 (1): 76–78. ISSN 0008-5286. PMC 1680747. PMID 17422957.
- Dehkordi, N.; Rao, R.; Sakhanokho, H.; Zipf, A. (2003). "Nutrient Intake in Adults 50 Years Age and Older in the United States". Journal of the American Dietetic Association. 103: 26. doi:10.1016/S0002-8223(08)70041-5. Archived from the original on 2021-11-15. Retrieved 2017-11-29.
- Sepowitz, John J.; McClung, Holly L.; Berryman, Claire E.; Armstrong, Nicholes J.; Ferrando, Arny A.; Lieberman, Harris R.; McClung, James P.; Pasiakos, Stefan M. (May 2016). "Supplementing An Energy Adequate High Protein Diet With Additional Protein Is Not Necessary For Recovery Of Lean Body Mass After Short-term Starvation: 1609 Board #262 June 2, 800 AM - 930 AM". Medicine & Science in Sports & Exercise. 48 (5S): 443. doi:10.1249/01.mss.0000486334.23548.c5. ISSN 0195-9131. S2CID 2730636.
- Peterson, Mark D.; Sen, Ananda; Gordon, Paul M. (February 2011). "Influence of resistance exercise on lean body mass in aging adults: a meta-analysis". Medicine and Science in Sports and Exercise. 43 (2): 249–258. doi:10.1249/MSS.0b013e3181eb6265. ISSN 1530-0315. PMC 2995836. PMID 20543750.
- Federal Drug Administration. (2018, March 23). "Complete and Balanced" Pet Food. Retrieved May 31, 2018, from https://www.fda.gov/animal-veterinary/animal-health-literacy/complete-and-balanced-pet-food
- "Alternative Feeding Practices". World Small Animal Veterinary Association. 2001. Archived from the original on 2008-02-12. Retrieved 2008-02-24.
- DACVN, Cailin R. Heinze, VMD, MS; DACVN, Cailin R. Heinze, VMD, MS (2019-02-15). "Human Grade: Should pets eat the same food that we do?". Clinical Nutrition Service at Cummings School. Archived from the original on 2019-11-18. Retrieved 2019-11-18.
{{cite web}}
: CS1 maint: multiple names: authors list (link) - Medicine, Center for Veterinary (2019-04-15). "Information on Marketing a Pet Food Product". FDA. Archived from the original on 2019-12-12. Retrieved 2019-12-16.
- ^ Schlesinger, Daniel P.; Joffe, Daniel J. (2011). "Raw food diets in companion animals: A critical review". The Canadian Veterinary Journal. 52 (1): 50–54. ISSN 0008-5286. PMC 3003575. PMID 21461207.
- Harper, Amelie (2011-06-11). "Raw Feeding Dogs – Handling Raw Dog Food At Home". Raw feeding. Archived from the original on 2020-09-18. Retrieved 2017-03-24.
- "Worried about tainted jerky treats?". Orange County Register. 28 October 2013. Archived from the original on 17 April 2014. Retrieved 16 April 2014.
- Taylor, Jessica (2013-09-26). "Just Food for thought". Petfoodindustry.com. Archived from the original on 2021-11-15. Retrieved 2014-08-10.
- "High-Pressure Processing and Raw Pet Food Diets: What You Need to Know". Petmd.com. Archived from the original on 2017-11-24. Retrieved 2017-11-27.
- ^ Michel, Kathryn E. (2006). "Unconventional Diets for Dogs and Cats". Veterinary Clinics of North America: Small Animal Practice. 36 (6): 1269–1281. doi:10.1016/j.cvsm.2006.08.003. PMID 17085234.
- Laflamme, Dorthy (May 2005). "Nutrition for Aging Cats and Dogs and the Importance of Body Condition". Veterinary Clinics of North America: Small Animal Practice. 35 (3): 713–742. doi:10.1016/j.cvsm.2004.12.011. PMID 15833567.
- Churchill, J.A. (2015). "Nutrition for senior dogs: New tricks for feeding old dogs" (PDF). Clinicians Brief. Archived from the original (PDF) on 2015-10-10. Retrieved 2017-11-28.
- Neil, Kirsten M.; Caron, John P.; Orth, Michael W. (2005). "The role of glucosamine and chondroitin sulfate in treatment for and prevention of osteoarthritis in animals". Journal of the American Veterinary Medical Association. 226 (7): 1079–1088. doi:10.2460/javma.2005.226.1079. PMID 15825732.
- Case, Linda P.; et al. (2011). Canine and feline nutrition: a resource for companion animal professionals (3rd ed.). Maryland Heights, Mo.: Mosby. ISBN 9780323066198. OCLC 664112342.
- Adolphe, Jennifer; Fitzpatrick, Kelley. "FLAXSEED: Nutrition Benefits for Dogs and Cats" (PDF). Flax Council of Canada. Archived (PDF) from the original on 2021-11-01. Retrieved 2017-11-28.
- Swanson KS, Grieshop CM, Flickinger EA, Bauer LL, Healy HP, Dawson KA, Merchen NR, Fahey GG Jr (May 2002). "Supplemental fructooligosaccharides and mannanoligosaccharides influence immune function, ileal and total tract nutrient digestibilities, microbial populations and concentrations of protein catabolites in the large bowel of dogs". The Journal of Nutrition. 132 (5): 980–989. doi:10.1093/jn/132.5.980. PMID 11983825. Archived from the original on 2021-11-15. Retrieved 2017-11-28.
- ^ Roudebush, Philip; Zicker, Steven C.; Cotman, Carl W.; Milgram, Norton W.; Muggenburg, Bruce A.; Head, Elizabeth (2005-09-01). "Nutritional management of brain aging in dogs". Journal of the American Veterinary Medical Association. 227 (5): 722–728. doi:10.2460/javma.2005.227.722. ISSN 0003-1488. PMID 16178393.
- Straus M (November 2012). "Plant oils: do you know which plant oils may help your dog, and which ones could cause problems?". Whole Dog Journal. 15: 16. Archived from the original on 2021-11-15. Retrieved 2017-11-29.
- ^ Watson, Tim D. G. (1998-12-01). "Diet and Skin Disease in Dogs and Cats". The Journal of Nutrition. 128 (12): 2783S–2789S. doi:10.1093/jn/128.12.2783S. ISSN 0022-3166. PMID 9868266.
- "Common pet food ingredients" (PDF). Skaer Veterinary. Archived (PDF) from the original on 2018-04-18. Retrieved 2017-11-29.
- ^ Wander RC, Hall JA, Gradin JL, Shi-Hua D, Jewell DE (June 1997). "The ratio of dietary (n-6) to (n-3) fatty acids influences immune system function, eicosanoid metabolism, Lipid peroxidation and vitamin E status in aged dogs". The Journal of Nutrition. 127 (6): 1198–1205. doi:10.1093/jn/127.6.1198. PMID 9187636. Archived from the original on 2021-11-15. Retrieved 2017-11-29.
- Kau, Andrew L.; Ahern, Philip P.; Griffin, Nicholas W.; Goodman, Andrew L.; Gordon, Jeffrey I. (2011-06-15). "Human nutrition, the gut microbiome and the immune system". Nature. 474 (7351): 327–336. doi:10.1038/nature10213. ISSN 1476-4687. PMC 3298082. PMID 21677749.
- ^ "The Association of American Feed Control Officials > Home". Aafco.org. Archived from the original on 2020-08-17. Retrieved 2017-12-05.
- "Nutrition". Fediaf.org. Archived from the original on 2017-12-06. Retrieved 2017-12-05.
- ^ J. France and E. Kebreab (2008). Mathematical Modelling in Animal Nutrition. Canada: CABI. ISBN 9781845933593.
- ^ Swanson, K. S. (2016-10-01). "0226 Dietary manipulation of canine and feline gut microbiome". Journal of Animal Science. 94 (supplement5): 107. doi:10.2527/jam2016-0226. ISSN 1525-3163. Archived from the original on 2017-12-06. Retrieved 2017-12-05.
- Nery, J.; Goudez, R.; Biourge, V.; Tournier, C.; Leray, V.; Martin, L.; Thorin, C.; Nguyen, P.; Dumon, H. (August 2012). "Influence of dietary protein content and source on colonic fermentative activity in dogs differing in body size and digestive tolerance" (PDF). Journal of Animal Science. 90 (8): 2570–2580. doi:10.2527/jas.2011-4112. hdl:2318/94132. ISSN 1525-3163. PMID 22328724.
- Conlon, Michael A.; Bird, Anthony R. (2014-12-24). "The Impact of Diet and Lifestyle on Gut Microbiota and Human Health". Nutrients. 7 (1): 17–44. doi:10.3390/nu7010017. ISSN 2072-6643. PMC 4303825. PMID 25545101.
- ^ Fahey, George C.; Barry, Kathleen A.; Swanson, Kelly S. (2008). "Age-related changes in nutrient utilization by companion animals". Annual Review of Nutrition. 28: 425–445. doi:10.1146/annurev.nutr.28.061807.155325. ISSN 0199-9885. PMID 18598137.
- Favrot, Claude (2016). "Diagnosis of canine atopic dermatitis (including food allergy)" (PDF). World Congress of Veterinary Dermatology. Archived (PDF) from the original on 2017-12-01. Retrieved 2017-11-30 – via ZORA.
- ^ Kennis, Robert, A. (2006). "Food Allergies: Update of Pathogenesis, Diagnoses, and Management". Veterinary Clinics of North America: Small Animal Practice. 36 (1): 175–184. doi:10.1016/j.cvsm.2005.09.012. PMID 16364783.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - Jensen-Jarolim, Erika (2017). Comparative Medicine: Disorders Linking Humans with their Animals. Cham, Switzerland: Springer. p. 121. ISBN 978-3-319-47007-8.
- Dodds, W. Jean (2015). Canine Nutrigenomics: The New Science of Feeding Your Dog for Optimum Health. Dogwise Publishing.
- ^ Verlindin A, Hesta M, Millet S, Janssens GP (2007). "Food Allergy in Dogs and Cats: A review". Critical Reviews in Food Science and Nutrition. 46 (3): 259–273. doi:10.1080/10408390591001117. PMID 16527756. S2CID 32026297.
- ^ Cave, Nicholas, J (2006). "Hydrolyzed Protein Diets for Dogs and Cats". Veterinary Clinics Small Animal Practice. 36 (6): 1251–1268. doi:10.1016/j.cvsm.2006.08.008. PMID 17085233.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - Mestel, Rosie (2013-01-23). "Carbs were key in wolves' evolution into dogs". Los Angeles Times. Archived from the original on 2013-06-29. Retrieved 2013-07-08.
- "FDA names 16 brands of dog food linked to canine heart disease". NBC News. Archived from the original on 2019-11-18. Retrieved 2019-11-19.
- Tegzes, John H.; Oakley, Brian B.; Brennan, Greg (January 2019). "Comparison of mycotoxin concentrations in grain versus grain-free dry and wet commercial dog foods". Toxicology Communications. 3 (1): 61–66. doi:10.1080/24734306.2019.1648636. ISSN 2473-4306.
- "FDA Identifies 16 Dog Food Brands Linked to Canine Heart Disease". July 2019. Archived from the original on 2019-07-19. Retrieved 2019-07-19.
- Garcia, Sandra E. (2019-06-29). "F.D.A. Names 16 Brands of Dog Food That May Be Linked to Canine Heart Disease (Published 2019)". The New York Times. ISSN 0362-4331. Archived from the original on 2021-05-16. Retrieved 2021-03-03.
- "Questions & Answers: FDA's Work on Potential Causes of Non-Hereditary DCM in Dogs". Food and Drug Administration. FDA. 2023-07-26. Retrieved 2023-10-22.
- Ruby, Matthew B. (February 2012). "Vegetarianism. A blossoming field of study". Appetite. 58 (1): 141–150. doi:10.1016/j.appet.2011.09.019. ISSN 1095-8304. PMID 22001025. S2CID 30991920.
- ^ Domínguez-Oliva, Adriana; Mota-Rojas, Daniel; Semendric, Ines; Whittaker, Alexandra L. (January 2023). "The Impact of Vegan Diets on Indicators of Health in Dogs and Cats: A Systematic Review". Veterinary Sciences. 10 (1): 52. doi:10.3390/vetsci10010052. ISSN 2306-7381. PMC 9860667. PMID 36669053.
- ^ Knight, Andrew; Leitsberger, Madelaine (2016-09-21). "Vegetarian versus Meat-Based Diets for Companion Animals". Animals. 6 (9): 57. doi:10.3390/ani6090057. PMC 5035952. PMID 27657139.
- ^ McEvoy, Claire T.; Temple, Norman; Woodside, Jayne V. (December 2012). "Vegetarian diets, low-meat diets and health: a review". Public Health Nutrition. 15 (12): 2287–2294. doi:10.1017/S1368980012000936. ISSN 1368-9800. PMC 10271837. PMID 22717188.
- Kienzle, E.; Engelhard, R. (2001). "A field study on the nutrition of vegetarian dogs and cats in Europe". Compendium on Continuing Education for the Practising Veterinarian. 23 (9A): 81.
- Rogers, QR; Phang, JM (1985). "Deficiency of pyrroline-5-carboxylate synthase in the intestinal mucosa of the cat". J Nutr. 115 (1): 146–50. doi:10.1093/jn/115.1.146. PMID 3965666.
- KNOPF, Karen (2011). "Taurine: An Essential Nutrient for the Cat". The Journal of Nutrition. 108 (5): 773–778. doi:10.1093/jn/108.5.773. PMID 641594 – via Primo.
- Morris, J. G. (August 2002). "Cats discriminate between cholecalciferol and ergocalciferol*". Journal of Animal Physiology and Animal Nutrition. 86 (7–8): 229–238. doi:10.1046/j.1439-0396.2002.00379.x. PMID 15379909.
- ^ "AAFCO methods for substantiating nutritional adequacy of dog and cat foods (proposed for 2014 publication)" (PDF). AAFCO. 2013. Archived (PDF) from the original on 2020-10-22. Retrieved 2020-11-30.
- The Role of Vitamins and Minerals in the Diet for Cats. National Research Council - National Academies. 2006. doi:10.17226/10668. ISBN 978-0-309-08628-8. Archived from the original on 2006-09-07. Retrieved 2007-03-08.
{{cite book}}
:|work=
ignored (help) Note: A dog chapter should be available. If any editor is able to access the book, please adjust the article accordingly. - Bauer, J. E. (January 1998). "Nutritional Uniqueness of Cats". Veterinary Quarterly. 20 (sup1): S78–S79. doi:10.1080/01652176.1998.10807428. PMID 9652024.
- David A. Dzanis (November 1997). "SELECTING NUTRITIOUS PET FOODS". INFORMATION FOR CONSUMERS. Food and Drug Administration - Center for Veterinary Medicine. Archived from the original on June 25, 2006. Retrieved 2005-01-20.
- ^ Schaeffer, Rogers; Morris (1982). "The choline requirement of the growing kitten in the presence of just adequate dietary methionine". Nutrition Research. 2 (3): 289–299. doi:10.1016/s0271-5317(82)80010-9.
- Global Alliance of Pet Food Associations. "How pet food is regulated" (PDF). Archived (PDF) from the original on 2020-07-27. Retrieved 2020-11-30.
- "Nutritional Guidelines". FEDIAF. Archived from the original on 2020-11-30. Retrieved 2020-11-30.
- Sources vary on which of these are considered the most significant toxic item.
- Archived 2016-06-19 at the Wayback Machine, Toxic Food Guide for Pets
- "Toxic Foods and Plants for Dogs". entirelypets.com. Archived from the original on 2010-07-23. Retrieved 2010-06-24.
- Drs. Foster & Smith. "Foods to Avoid Feeding Your Dog". peteducation.com. Archived from the original on 2014-09-15. Retrieved 2010-06-24.
- "People Foods to Avoid Feeding Your Pets". Aspca.org. Archived from the original on 2013-07-15. Retrieved 2017-09-20.
- "FDA Animal Safety Recalls". FDA. 2018-11-03. Archived from the original on 2019-04-24. Retrieved 2019-12-16.
- Cianciolo RE, Bischoff K, Ebel JG, Van Winkle TJ, Goldstein RE, Serfilippi LM (September 2008). "Clinicopathologic, histologic, and toxicologic findings in 70 cats inadvertently exposed to pet food contaminated with melamine and cyanuric acid". Journal of the American Veterinary Medical Association. 233 (5): 729–37. doi:10.2460/javma.233.5.729. PMID 18764706.
- Thompson ME, Lewin-Smith MR, Kalasinsky VF, et al. (May 2008). "Characterization of melamine-containing and calcium oxalate crystals in three dogs with suspected pet food-induced nephrotoxicosis". Veterinary Pathology. 45 (3): 417–26. doi:10.1354/vp.45-3-417. PMID 18487505. S2CID 41007011.
- Dobson RL, Motlagh S, Quijano M, et al. (November 2008). "Identification and characterization of toxicity of contaminants in pet food leading to an outbreak of renal toxicity in cats and dogs". Toxicological Sciences. 106 (1): 251–62. doi:10.1093/toxsci/kfn160. PMID 18689873.
- Rumbeiha WK, Agnew D, Maxie G, et al. (June 2010). "Analysis of a survey database of pet food-induced poisoning in North America". Journal of Medical Toxicology. 6 (2): 172–184. doi:10.1007/s13181-010-0022-9. PMC 3550281. PMID 20393823.
- Cocchi M, Vascellari M, Gallina A, Agnoletti F, Angeletti R, Mutinelli F (January 2010). "Canine nephrotoxicosis induced by melamine-contaminated pet food in Italy". The Journal of Veterinary Medical Science. 72 (1): 103–7. doi:10.1292/jvms.09-0278. PMID 19915330.
- Price WD, Lovell RA, McChesney DG (September 1993). "Naturally occurring toxins in feedstuffs: Center for Veterinary Medicine Perspective". Journal of Animal Science. 71 (9): 2556–62. doi:10.2527/1993.7192556x. PMID 8407668.
- Scudamore KA, Hetmanski MT, Nawaz S, Naylor J, Rainbird S (1997). "Determination of mycotoxins in pet foods sold for domestic pets and wild birds using linked-column immunoassay clean-up and HPLC". Food Additives and Contaminants. 14 (2): 175–86. doi:10.1080/02652039709374512. PMID 9102350.
- Bueno DJ, Silva JO, Oliver G (May 2001). "Mycoflora in commercial pet foods". Journal of Food Protection. 64 (5): 741–3. doi:10.4315/0362-028X-64.5.741. PMID 11348013.
- Leung MC, Díaz-Llano G, Smith TK (December 2006). "Mycotoxins in pet food: a review on worldwide prevalence and preventative strategies". Journal of Agricultural and Food Chemistry. 54 (26): 9623–35. doi:10.1021/jf062363+. PMID 17177480.
- Boermans HJ, Leung MC (October 2007). "Mycotoxins and the pet food industry: toxicological evidence and risk assessment". International Journal of Food Microbiology. 119 (1–2): 95–102. doi:10.1016/j.ijfoodmicro.2007.07.063. PMID 17889389.
- Campos SG, Cavaglieri LR, Fernández Juri MG, et al. (June 2008). "Mycobiota and aflatoxins in raw materials and pet food in Brazil". Journal of Animal Physiology and Animal Nutrition. 92 (3): 377–83. doi:10.1111/j.1439-0396.2008.00809.x. PMID 18477320.
- Böhm J, Koinig L, Razzazi-Fazeli E, et al. (August 2010). "Survey and risk assessment of the mycotoxins deoxynivalenol, zearalenone, fumonisins, ochratoxin A, and aflatoxins in commercial dry dog food". Mycotoxin Research. 26 (3): 147–53. doi:10.1007/s12550-010-0049-4. PMID 23605379. S2CID 21833929.
- DELL, MARYANNE (October 27, 2013). "Worried about tainted jerky treats? Here's how to keep your pets safe". Orange County Register. Archived from the original on April 17, 2014. Retrieved April 16, 2014.
- "Animal Protection Institute (API)". Archived from the original on 2008-10-17.
- "The Cornell Vet College". Archived from the original on 2007-04-09. Retrieved 2007-04-18.
- "FDA Video Pet Food Safety". February 2014. Archived from the original on 2014-03-02. Retrieved 2014-04-16.
- Imanishi M, Rotstein DS, Reimschuessel R, et al. (March 2014). "Outbreak of Salmonella enterica serotype Infantis infection in humans linked to dry dog food in the United States and Canada, 2012". Journal of the American Veterinary Medical Association. 244 (5): 545–53. doi:10.2460/javma.244.5.545. PMC 11292585. PMID 24548229.
- "Diamond Pet Foods Agrees to Class Action Settlement". Archived from the original on 2014-04-06. Retrieved 2014-04-16.
- Johnston, Andrea (February 1, 2013). "DVM". Journal of the American Veterinary Medical Association. 242 (3): 372–380. doi:10.2460/javma.242.3.372. PMID 23327181.
- Helft, Miguel (12 December 2009). "Google Appears Closer to Releasing Its Own Phone". The New York Times. Archived from the original on 9 March 2012. Retrieved 12 December 2009.
On Saturday morning, Google confirmed that it was testing a new concept in mobile phones, writing in a blog post that it was 'dogfooding' the devices, an expression that comes from the idea that companies should "eat their own dog food", or use their own products.
- "Microsoft tests its own 'dog food'". Tech News on ZDNet. Archived from the original on 21 June 2008. Retrieved 14 November 2009.
- Dvorak, John C. (15 November 2007). "The Problem with Eating Your Own Dog Food". PC Magazine. Archived from the original on 28 June 2009. Retrieved 17 May 2010.
External links
- Interpreting pet food labels – Pet food labeling according to AAFCO regulations
- National Research Council (U.S.). Subcommittee on Dog Nutrition (1974). Nutrient requirements of dogs. National Academy of Sciences. ISBN 978-0-309-02315-3.
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