The Dog E-Book

Contents

Preface

Acknowledgments

Part 1 Man’s Best Friend: The Animal within the Companion

1 Man and Wolf: The Process of Domestication

The Dog’s Phylogeny (Evolutionary History)

The Dog’s Taxonomy (Naming the Dog)

The Process of Domestication

In the Beginning: Man Meets Dog

Changes of Domestication

Conclusions

Cited References

2 Selective Breeding: The Creation of the Working Dog

Natural and Artificial Selection

Working Breeds versus "Pure" Breeds

Early Breeds: The Romans and Their Dogs

Darwin’s Influence

Advent of Organized Dog Shows

Spitz Breeds

Mastiff Breeds

Sight Hound Breeds

Scent Hound Breeds

Terrier Breeds

Gundogs

Livestock-Herding Breeds

Livestock-Guarding Breeds

Toy Breeds

Dog Breed Registry Organizations

Conclusions

Cited References

3 The Dog’s Body: Structure, Movement, and Special Senses

The Dog’s Structure

The Dog’s Movement

The Dog’s Special Senses

Recognizing the Normal Dog

Conclusions

Cited References

4 Reproduction and Breeding Management

Reproductive Anatomy of the Bitch

Reproductive Anatomy of the Male

The Female Estrous Cycle

Detection of Ovulation in the Bitch

Breeding Management

Gestation

Care of Newborn Puppies

Reproductive Problems in the Bitch

Reproductive Problems in the Male

Neonatal Health Problems

Conclusions

Cited References

5 Genetics and Breeding Programs

Basic Genetic Principles

Selection of Breeding Animals

Types of Breeding Systems

Genetically Influenced Disorders in Dogs

Conclusions

Cited References

6 Sharing Our Lives with Dogs: Benefits and Responsibilities

The Human–Dog Bond

Benefits of Sharing Our Lives with Dogs

Dogs and Recreation

Bonds That Fail: Dogs in Shelters

Selecting the Right Dog

Conclusions

Cited References

Part 1 References and Recommended Reading

Part 2 Behavior: Communicating with Man’s Best Friend

7 Developmental Behavior: Puppy to Adult

Neonatal Period (Birth-14 Days)

Transition Period (14–21 Days)

Primary Socialization (3–12 Weeks)

Juvenile Period (Secondary Socialization) to Adulthood

Conclusions

Cited References

8 Understanding Normal Canine Behavior

The Dog’s Social Heritage

The Concepts of Dominance and Submission

Communication Patterns

Aggression

Predation

Breed Differences in Behavior

Conclusions

Cited References

9 Learning Processes and Training Principles

Habituation and Sensitization

Classical Conditioning

Operant Conditioning (Instrumental Learning)

Social Learning

Training and Behavior Modification Techniques

Influences on Learning

Conclusions

Cited References

10 Common Behavior Problems and Solutions

Identification and Diagnosis: Obtaining a Behavioral History

Problem Aggression in Dogs

Fears and Phobias

Separation-Related Problems

Elimination Problems

Pharmacotherapy for Behavior Problems

Conclusions

Cited References

Part 2 References and Recommended Reading

Part 3 Health and Disease: Taking Care and Keeping Fit

11 Infectious Diseases and Vaccination Programs

Viral Diseases

Bacterial Diseases

Fungal Infections

Vaccinations

Vaccination Schedules and Guidelines

Conclusions

Cited References

12 Common Noninfectious Disorders of Dogs

Canine Hip Dysplasia

Osteochondrosis

Juvenile Panosteitis (Wandering Lameness)

Gastric Dilatation Volvulus (Gastric Torsion, Bloat)

Hypothyroidism

Cushing’s Syndrome (Hyperadrenocorticism)

Addison’s Disease (Hypoadrenocorticism)

Hot Spots (Acute Moist Dermatitis)

Canine Atopic Disease (Atopy)

Idiopathic Epilepsy

Dental Problems

Conclusions

Cited References

13 Internal Parasites

Canine Heartworm Disease

Roundworms (Ascarids)

Hookworms

Whipworms

Tapeworms (Cestodes)

Coccidiosis

Giardiasis

Conclusions

Cited References

14 External Parasites

Fleas

Mange Mites

Ticks

Conclusions

Cited References

15 First Aid Procedures for Dogs

Preparing a First Aid Kit

Immediate Procedures

Cardiac and Respiratory Arrest

Shock

Bleeding

Choking

Heatstroke

Burns

Insect Stings and Spider Bites

Snake Bites

Poisoning

Conclusions

Cited References

Part 3 References and Recommended Reading

Part 4 Nutrition: Feeding for Health and Longevity

16 Nutrient Requirements of the Dog

Essential and Nonessential Nutrients

Energy

Water

Carbohydrates

Fat

Protein

Vitamins

Minerals

Digestion and Absorption in Dogs

Conclusions

Cited References

17 Providing a Healthy Diet

Types of Commercial Dog Food

Sources and Quality of Pet Foods

Evaluation and Selection of an Appropriate Dog Food

The Pet Food Label

Conclusions

Cited References

18 Feeding for Health throughout Life

Normal Feeding Behavior of the Dog

Feeding Regimens

What to Feed (Overview)

How Much to Feed?

Feeding during Growth

Feeding for Adult Maintenance

Feeding during Gestation and Lactation

Weaning Puppies

Feeding Geriatric Dogs

Feeding Working Dogs

General Feeding Guidelines

Conclusions

Cited References

19 Nutritionally Responsive Disorders in Dogs

Obesity

Diabetes Mellitus

Chronic Kidney Disease

Food Hypersensitivity (Allergy)

Conclusions

Cited References

Part 4 References and Recommended Reading

Glossary

Index

Linda P. Case earned her B.S. in Animal Science at Cornell University and her M.S. in Canine/Feline Nutrition at the University of Illinois. She teaches companion animal science and behavior in the Department of Animal Sciences and College of Veterinary Medicine at the University of Illinois. She owns AutumnGold Consulting, which provides technical writing services on the topics of companion animal care, behavior, and nutrition. She and her husband also own and operate AutumnGold Dog Training Center, in Mahomet, Illinois. Ms. Case is the author of numerous academic articles on companion animal care, nutrition, and behavior and is the author of two other books: Canine and Feline Nutrition: A Resource for Companion Animal Professionals (Mosby Yearbook, 1st edition 1995, 2nd edition, 2000), and The Cat: Its Behavior, Nutrition and Health (Iowa State Press, 2003). She is a member of Delta Society and the Association of Pet Dog Trainers (APDT) and is a certified instructor with the National Association of Dog Obedience Instructors (NADOI). She and her husband share their lives with three dogs and three cats and enjoy distance running, hiking, and traveling with their dogs.

Illustrations by Kerry Helms

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First edition, 1999 Iowa State University PressSecond edition, 2005

Library of Congress Cataloging-in-Publication Data

Case, Linda P.

The dog : its behavior, nutrition, and health / Linda P. Case.—2nd ed.

    p.    cm.

Includes bibliographical references and index.

ISBN 0-8138-1254-2 (alk. paper)

1. Dogs. 2. Dogs—Behavior. 3. Dogs—Nutrition. 4. Dogs—Health. I. Title.

SF426.C375 2005

636.7—dc22

2004022582

The last digit is the print number:

987654321

In memory of…

Those who are no longer with us in life, but who are forever in our hearts—Fauna, Stepper, Roxie, Gusto, and Sparks. We love and miss you all.

Dedicated to…

Nike, Cadie, and Vinny Binny Vanilla Bean, who continue to bring laughter, joy, and love to our lives.

Preface

TODAY, about 40 percent of households in the United States share their homes with at least one dog, comprising a total of more than 61 million dogs. The multibillion dollar pet food industry and the more than seven billion dollars that pet guardians spend on veterinary care each year provide tangible evidence of the increasing importance that dogs have in our society. This devotion is further illustrated by the continued growth of the pet supply industry, which includes increasing numbers of pet “super-stores”, play-parks, training centers, and doggie day care centers in many communities. The bond that human caretakers have with their dogs and the many health benefits that are afforded by this bond have been the topic of numerous research studies in the past 30 years. The dog as a cherished companion and family member is here to stay, and many caretakers, students, and companion animal professionals are eager to learn more about man’s best friend, Canis familiaris.

The Dog: Its Behavior, Nutrition and Health is a comprehensive study of the domestic dog. This book is written for people who are either pursuing or are currently engaged in a profession or avocation that involves dogs. Dog trainers, breeders, kennel owners, veterinary technicians, veterinarians, and other companion animal professionals will find this book to be an indispensable resource. In addition, The Dog: Its Behavior, Nutrition and Health is an essential text for college students who are studying the physiology, care, behavior and nutrition of companion animals. The book is divided into four topical sections. Part 1, Man’s Best Friend: The Animal within the Companion, examines the origin of the relationship between humans and dogs and follows the development of the dog from the first stages of domestication through present day. This section also includes basic information about the dog’s physiology, structure, reproduction, and genetics. The status of the dog today and the importance of proper pet selection and responsible guardianship are discussed in the final chapter of this section. Part 2, Behavior: Communicating with Man’s Best Friend, examines the developmental behavior of the dog from birth to adulthood. Species-specific behavior patterns are examined, followed by a discussion of breed specific behaviors. Learning process and principles of training are the topic of Chapter 8. Basic tenets of learning are first reviewed, followed by an examination of successful training methodologies. Various training principles are compared and contrasted, and practical examples are provided throughout the chapter. The final chapter in this section identifies several common behavior problems and their solutions. Part 3 concerns Health and Disease: Taking Care and Keeping Fit. Infectious and non-infectious diseases and common internal and external parasitic diseases are included. Types of vaccines, procedures for their use, and new information regarding recommended vaccination schedules are discussed. The final chapter in the section reviews emergency care and first aid procedures that are essential skills for all pet care professionals and dog caretakers. Part 4, Nutrition: Feeding for Health and Longevity, provides an overview of the dog’s nutrient requirements and examines available pet foods and methods of feeding. Detailed instructions for feeding throughout the dog’s life cycle and criteria for the selection of optimal pet foods are included. The final chapter of the book reviews common medical disorders that can be treated or managed through diet.

The first edition of this book was completed by the author in 1998 and was published by Iowa State University Press in 1999. In the six-plus years since its completion, numerous research studies and academic journal articles have been published on the topics of companion animal domestication, breeding, behavior, training, health care, and nutrition. All four sections and most chapters of this second edition have been updated with new information from recently published journal papers and books. These revisions will serve to provide college professors and companion animal professionals with the most up-to-date information possible in the field of companion animal science.

This new edition of The Dog: Its Behavior, Nutrition and Health offers the reader extensive information and technical depth in a readable and “user-friendly” format. The book is intended not only as a helpful resource, but also as an enjoyable and interesting exploration of the domestic dog, our relationship with him, and the best methods of caring for him. The knowledge gained can only strengthen the well-established and enduring bond that exists between dogs and their human caretakers in our culture today.

Acknowledgments

THIS BOOK would not have been possible without the help of numerous friends and colleagues. First and foremost, many thanks go to one of my proofreaders and editors, Jean S. Palas, whose experience as a dog person and professional trainer were invaluable (thanks Mom!). The illustrations and diagrams are the work of Kerry Helms, whose positive attitude, creativity, and friendship made this project an enjoyable endeavor. The behavior chapters of this book would not be what they are without the help and ideas of several trainers at AutumnGold. Pam Wasson’s understanding of dogs and her positive approach to training have had a strong influence on the ideas contained in this book. In addition, the continuing help and input of our trainers Susan Helmink, Jennie Kang, and Dianna Millard have been invaluable. My good friend Roger Abrantes has always been a source of inspiration, critical thinking, and enthusiasm. I thank him for all of our wonderful “dog talks” over the years. And as always, many thanks to my husband and best friend Mike, who provided support, editing help, and many hours of help throughout this project.

Linda P. Case

Mahomet, Illinois

Part 1

Man’s Best Friend: The Animal within the Companion

1

Man and Wolf: The Process of Domestication

TODAY, more than one-third of households in the United States own at least one dog, comprising a total of more than 61 million dogs.1 In the year 2001, pet owners spent more than 8 billion dollars on food for their animals, and dog owners alone spend more than 10 billion dollars on veterinary care. It is undeniable that the dog is a valued and important member of our society. Unlike any other nonhuman species, the dog has become fully integrated into our lives, and it appears that he is here to stay. So what exactly was it that brought man and dog together so many years ago? And more important, what characteristics of these two very different species enabled them to forge the strong and ongoing partnership that is still so important to us today?

The Dog’s Phylogeny (Evolutionary History)

The dog, like the cat, is a member of the order Carnivora, which includes a diverse group of animals that are all predatory in nature. Carnivores are so named because of their enlarged carnassial teeth. These include the enlarged upper fourth premolar and the lower first molar on each side of the mouth. These adaptations make the teeth efficient at shearing and tearing prey. All carnivores also have small, sharp incisors for holding prey, and they often have elongated canine teeth for stabbing and tearing.

During the time when dinosaurs dominated the earth, a group of animals called the miacids were evolving. The Miacidae family included a very diverse group of predatory mammals, many of whom were small, tree-dwelling animals. This group existed about 62 million years ago and formed the ancestral family for all members of the order Carnivora. The miacids all walked on the palms/soles of their feet (plantigrade), were long bodied and slim, and were the first animals with carnassial teeth—an indication of their predatory nature.

Over time, a group called the viveravines branched off from the miacids. The viveravines are now known to be the oldest ancestor of the domestic cat. A second branch that evolved from the miacids was the miacines. Animals in this group were the ancestors of all extant canid species, as well as the bear, raccoon, and weasel. The miacines existed about 60 million years ago and eventually gave rise to Hesperocyon (meaning western dog), who is designated as the oldest member of the Canidae family. Remains of Hesperocyon have been found in South Dakota, Nebraska, Colorado, and Wyoming and are estimated to have existed about 36–38 million years ago. Interestingly, current evidence indicates that the Canidae family evolved completely in North America and did not migrate into Eurasia until much later in its development. Hesperocyon was a digitigrade mammal (walking on its toes) and was long bodied and long legged, obviously adapted for speed. Its dentition (including the presence of carnassial teeth) and body structure showed it to be an agile predator. By the end of the Oligocene period, about 23 million years ago, Hesperocyon had evolved into Leptocyon. Leptocyon is thought to be the most recent common ancestor of all of today’s canids, although there is some controversy over this mammal’s eventual fate.2 Some accounts claim that Leptocyon gave rise to Tomarctus, who became the wolf’s and our dog’s primary ancestor. Other records depict Tomarctus and Leptocyon as two separate branches of Hesperocyon. Regardless, it appears that Leptocyon, and probably Tomarctus, gave rise to the dominant group of canids in North America, who were destined to become all of our modern-day canid species.

The Dog’s Taxonomy (Naming the Dog)

Today, the domestic dog is classified as a member of the Canidae family (Table 1.1). This family also includes the wolf, coyote, dingo, fox, jackal, and Cape hunting dog. The dog’s genus is Canis, and its species is familiaris. Other members of Canis are the coyote (Canis latrans), two species of wolf (the grey or timber wolf, Canis lupus, and the red wolf, Canis rufus), and four species of jackal. The extreme regional variations that are observed in wolves all represent varieties (subspecies) of Canis lupus, rather than separate species. Twenty to thirty subspecies have been identified, a number of which have become extinct in the last century. The genetic plasticity of the wolf as a species is illustrated by the great variation in physical and behavioral attributes in various subspecies. For example, Alaskan timber wolves (Canis lupus pambasileus) typically weigh more than 100 pounds at maturity and live in well-organized packs consisting of an average of five to eight adults. In contrast, the small Asian wolf (Canis lupus pallipes) weighs only about 45–50 lbs and travels alone or in very small packs. There is much dispute over whether or not the red wolf (Canis rufus) should continue to be classified as a separate species of wolf or be classified as a subspecies.

TABLE 1.1 Taxonomy of the Dog

Phyla

Animalia

Class

Mammalia

Order

Carnivora

Family

Canidae

Genus

Canis

Species

familiaris

There is similar dispute regarding the domestic dog. The immediate common wild ancestor of Canis familiaris continues to be the subject of some debate. At one time, it was believed that the dog was descended from the inter-breeding of ancestral wolves, coyotes, jackals, and possibly other wild canids.3 During the 1940s, the Nobel prize-winning ethologist Konrad Lorenz wrote that some breeds of dogs were descended from the golden jackal, whereas others, those that he called “lupus” breeds, were directly descended from the wolf.4 This theory has been largely discarded, however. During the 1970s, wolf and dog expert Michael Fox developed a “missing link” theory. He believed that the dog is descended from a now-extinct, European, dingo-like dog. However, little fossil evidence of this ancestor has been found. Another the-ory suggests that our present-day domestic dog arose from a type of semiwild dog similar to the Australian dingo (classified as either Canis lupus dingo or as Canis familiaris dingo) and the New Guinea singing dog (classified as Canis familiaris hallstromi).

Current behavioral, morphological, and molecular biological (genetics) evidence supports the theory that today’s gray wolf, Canis lupus, is the domestic dog’s closest relative. Although it is often stated that the wild wolf is our domestic dog’s immediate wild ancestor, in evolutionary terms this is impossible. More correctly, the present-day wolf and the present-day dog share their most recent ancestor, which was probably very wolflike in appearance and behavior. This distinction is important because the wolf that is extant today has been evolving for the same period of time that today’s domestic dog has been evolving. Therefore, the present-day wolf is actually the present-day domestic dog’s closest relative.

Overall, the most compelling evidence in recent years about how to accurately classify the domestic dog comes from relatively new methods of analyzing genetic information. Mitochondrial DNA (mDNA) is genetic material that is passed from mothers to their offspring (in the ovum), with no genetic recombination. Analysis of mDNA allows the reconstruction of matrilineal histories and also can provide an estimate of evolutionary history. These studies have shown that although there are morphological and behavioral differ-ences between wolves and dogs, from a genetic standpoint, the domestic dog is virtually identical to the other members of the Canis genus. In fact, there are greater mitochondrial DNA differences between some breeds of dogs than are found between dogs and wolves! This knowledge, coupled with the fact that dogs, wolves, coyotes, and jackals are still reproductively interfertile, pro-vides strong evidence that there is very little phylogenic distance between these groups of canids.

Both dogs and wolves have 39 pairs of chromosomes (78 total), as is true for the four species of jackal and the coyote. Because of this very close genetic relatedness, some argue that the domestic dog should not be classified as a new species but, rather, as a subspecies of wolf (i.e., Canis lupus familiaris).5 Con-versely, another criterion for species classification is adaptation to different ecological niches. Some biologists and ecologists, although accepting the close genetic relationship between the dog and the wolf, maintain that be-cause dogs, wolves, coyotes, and jackals all adapted to occupy and thrive in very different ecological niches, they should each represent a separate species.6

Additional evidence for the dog’s close relationship to the wolf lies in the existence of physical, genetic, and behavioral similarities between the two species. One of the most basic is the social nature of dogs and wolves. Both species establish social groups. In contrast, jackals are known to live and hunt alone, while coyotes hunt in pairs or, at the most, as a threesome. The typical wolf pack consists of closely related individuals who are each independent yet voluntarily work together to obtain food, raise young, and protect the pack from other predators. For the wolf, this means survival in a harsh environment in which food is scarce and the primary food source is often large ungulates (hooved mammals). Hunting such large prey would be impossible for one wolf hunting alone. As individuals, both dogs and wolves seek out con-tact and interactions with conspecifics (other pack members), and social activity is an important component of their daily life. Common examples include the elaborate greeting rituals, play, and exploratory behaviors of both species.

A second important similarity between the domestic dog and the wolf involves methods of communication. Natural selection has resulted in the establishment of complex communication patterns in all species that are required to work cooperatively for survival. In wolves, primary communication patterns involve body postures, facial expressions, and vocalizations. The domestic dog has inherited some of these communication tools in their complete form, differing little from their expression in Canis lupus. Other patterns have been modified through domestication, but vestigial portions are still ob-served. The wolf and the dog exhibit similar postures that signal aggression, dominance, submission and fear. However, the level of stimulus that is necessary to evoke these expressions, along with their intensity and completeness, have been modified significantly through domestication. The development of different breeds of dogs for specific purposes has further exaggerated or attenuated both physical and behavioral characteristics of the wolf (see Chapter 2). Finally, recent studies comparing dogs with socialized wolves have shown that dogs are significantly better at responding to various types of human social cues, such as gesturing, pointing, and gazing, compared with wolves.7 The ability to engage in this type of social communication and learning appears to be an important aspect of domestication in the dog (see Chapter 7 for a more complete discussion).

The Process of Domestication

Domestication of a species occurs when the breeding and containment of large groups of animals are under the control of humans. Over a period of many generations, this results in the development of a group of animals who are genetically distinct from members of the original species. Although members of domesticated species can often still mate and produce viable offspring with members of the progenitor species, the domestication process still involves changes in genetically determined morphology and behavior. The process of domestication can be contrasted to “taming,” which refers to simply decreasing fear of humans in an individual animal. A tame animal is merely a wild animal who is has been habituated to his human caretakers. Such an animal usually easily reverts back to the wild state, most often when sexual maturity occurs. In contrast, domestication must be viewed as a process that affects an entire subgroup of a species over many generations and that involves the geographic, reproductive, and behavioral isolation of the selected group from its wild population.

At present, there are two predominant theories that attempt to explain the morphological and behavioral changes that occurred during domestication of the dog from the ancestral wolf. The first of these develops a model of the dog as a pedomorphic (or neotenized) wolf.8,9 Pedomorphosis refers to the retention of juvenile body shapes (morphology) and features into maturity and occurs as a result of changes in the onset, rate, or completion of development in the individual. These changes may affect the individual as a whole (i.e., final body size), or they may be restricted to certain body structures. The term neoteny is commonly used to describe the persistence of physical or behavioral infantile characteristics into adulthood. However, neoteny is actually one of several forms of pedomorphosis and refers to a reduced rate of development. Regardless of the terminology that is used, a pedomorphic (neotogenic) animal remains permanently immature with respect to the characteristic in question. Physical attributes that are commonly observed in domestic species that are pedomorphic include decreased body size, altered jaw size and strength, decreased number and size of teeth, development of a prominent forehead, shortened limbs, and diminished secondary sexual characteristics in males.

Neotenized behavioral characteristics are of equal significance in the domestic dog. An examination of the normal wolf pup demonstrates a number of behavior patterns that have been selected to persist into adulthood in the domesticated dog. Wolf pups are highly curious about their environments and will readily explore and investigate new animals and objects without showing the characteristic wariness that is seen in adult wolves. It is only after a certain age that wolf pups begin to show fear of unfamiliar stimuli. This is called xenophobia or neophobia, meaning fear of the foreign or fear of the new, respectively. Xenophobia has survival value for any species that is living in a harsh environment. However, this trait is not desirable in a domesticated animal. Adaptability to new environments is a key characteristic in domesticated species. For example, an adult dog who is fearful of new situations, people, or animals is not well adapted to living and working with man. Therefore, the selection for dogs with a puppylike trust of new stimuli was of distinct advantage. Moreover, once the evolving dog began to live near human settlements there was less selective pressure to maintain xenophobia, as the wolf’s normal predators were less of a threat and, more important, animals who were less nervous would have more opportunities to feed.

A second important neotenized characteristic that is seen in the dog is the presence of enhanced and easily elicited subordinate behavior patterns. Wolf pups are naturally subordinate to elder members of their pack and are also more sociable with animals of other species. However, as pups mature into adult wolves, subordinate behaviors are not as readily elicited, and a collection of dominant behavior patterns develop that are necessary and vital for the adult wolf’s integration into the pack. In the domestic dog, both dominant and subordinate behavior patterns are present, but there is an intensification of subordinate behaviors in the adult dog, compared with the expression of these behaviors in the wolf. Although there are great variations between breeds in both dominant and subordinate behaviors, in general, the display of dominant behaviors has been attenuated.

A second, related theory challenges the premise that pedomorphosis or neoteny can explain all of the morphological and behavioral changes that have occurred in the dog. The “mesomorphic remodeling theory” proposes that there are traits present in the domestic dog that are not to be found in either wolf pups or wolf adults.10–12 This theory proposes that the dog may be looked on more as being arrested at some point during its adolescence or metamorphic period, rather than being strictly neotenic. The mesomorphic period refers to a period during which the young animal is rapidly changing into an adult form. In mammals such as the dog this period is typically referred to as the period of adolescence or the juvenile period. The various stages of life through which an individual progresses (i.e., fertilized egg, fetus, neonate, infant, juvenile, and adult) can be viewed as specialized stages in which the animal is behaviorally and morphologically adapted to the environment in which it exists at that time. Behaviors that are present in the infant slowly recede to give way to behaviors that are adaptive for the juvenile, and so on. In wolves, the mesomorphic juvenile exhibits some characteristics of the pup (which are decreasing with time), some traits of the adults (which are increasing with time), and some traits that are present only in the juvenile stage.

An interesting and important aspect of the mesomorphic period is that it represents a period of behavioral flexibility or plasticity. Proponents of this model believe that the mesomorphic period represents a period in which a multitude of new and different behaviors can evolve, and also a period in which the animal is highly responsive to learning. This theory maintains that a better model to use for the domesticated dog is one in which the dog represents a wolf whose development has been arrested or halted during the highly unstable mesomorphic period. The juvenile period in the wolf is relatively long in duration, and there are a number of changes that occur during this period. It is theorized that natural or artificial selection for traits that occur during different points of the juvenile period may be one source of the wide variation in size, morphology, and behavior seen in different breeds of domestic dog. This hypothesis of metamorphic remodeling is relatively new but, although it has not yet been thoroughly tested or examined by behaviorists, does represent another possible explanation for many of the behaviors and structural differences that are seen in the domesticated dog.

In the Beginning: Man Meets Dog

Domestication of the dog is believed to have begun late in the Mesolithic period, 12,000–15,000 years ago, as humans were changing from being completely nomadic hunter-gatherers to living in semipermanent settlements. Although archeological (fossil) evidence of a domestic dog existing from this period of time is very scant, there is some evidence that a dog or “proto-dog” was living in close proximity to some human settlements about 12,000–14,000 years ago. By the Neolithic period, when agriculture was becoming the predominant way of life, the dog was fully domesticated, and various types of working dogs were beginning to emerge.13

Fossil evidence has shown that the dog was distributed across both Eurasia and the Americas before transoceanic travel during the fifteenth century. For some time, this fact, along with morphological data, seemed to show that the dog was domesticated separately in the Old and New worlds. However, a set of recent studies supports the theory that domestication occurred at one time only, in Eurasia, from the Old World gray wolf.14 It now appears that when the first humans traveled to the New World across the Bering Strait approximately 12,000–14,000 years ago, they brought the newly domesticated (or semidomesticated) dog with them. Subsequently, semidomestic dogs, wolves, and coyotes appear to have occasionally interbred (hybridized), and some of their offspring were successfully integrated back into wild populations.15–17 This hybridization is an influencing factor in the wide variations in size and body conformation observed in the domestic dog.

Traditionally, the theory that has been used to explain the evolution of the wild wolf into the domestic dog rested on the assumption that human hunters of the Mesolithic period coexisted with wild wolves and often competed for the same prey species. As humans began to recognize the superior hunting abilities of wolves (this theory states), they capitalized on these abilities by capturing, raising, and taming individual wolf pups, who were then used as hunting aids. Over time, artificial selection for individuals who were more naturally “tamable” and trainable, along with the isolation of this new group of canids from the wild population, led to genetic alterations in structure and behavior. As time went on, humans began to recognize other advantages to keeping this predatory species as a campsite friend, and supposedly, this led to artificial selection and the development of breeds.

Although this scenario has been widely propagated and popularized, it has several flaws from an evolutionary perspective, and in recent years it has been challenged by evolutionary biologists. Given what is currently known about the behavior of wild wolves, the likelihood of prehistoric humans intentionally capturing, taming, and training a wild wolf to hunt, and then repeating this often enough to control breeding of the (still) wild wolves in captivity, is virtually nonexistent. Wild wolves are extremely shy and nervous animals and have a highly structured and ritualized system of social hierarchy. Even when pups are socialized to human caretakers from birth, they continue to be wary of any person who is not well-known to them and are highly resistant to human control and training.18 As adults, socialized wolves still resist control by human caretakers, retain their need for a strict social hierarchy, and pose a significant threat, even to humans to whom they are socialized. Therefore, the scenario presented above, in which humans who were living as hunter/gatherers during the Mesolithic period took the time and trouble (not to mention risked their lives) to force individual wolves into captivity is untenable.

An alternate, more reasonable theory suggests that the early domestication of the dog was a result of natural selection, leading eventually to self-domestication.6 This theory posits that as humans settled into semipermanent villages at the end of the last Ice Age, these settlements provided a new environmental niche into which wolves could adapt. Specifically, these new villages provided a steady supply of food in the form of surplus human food, spoiled foods, and human wastes. In addition, the outskirts of human settlements provided relative safety from other predator species and the potential for new nesting sites. Although the popular mythology surrounding wolves depicts them as efficient predators, wolves are also highly opportunistic scavengers. They are capable of consuming and thriving on a varied omnivorous diet. Therefore, as a species, the wolf was already well adapted to feed at these newly formed “dump sites,” which contained a wide variety of food types. It is quite possible that humans of that period tolerated or, more likely, just ignored the presence of the wild wolves around their settlements. This type of relationship is called commensalism—a form of symbiosis in which one species obtains benefit while the other is not harmed but receives no benefit.

As stated previously, wild wolves are very shy and nervous and have a highly sensitive and well-developed flight response. In the early stages of this self-selection process, most wolves would have had a tendency to run away whenever humans appeared or an unfamiliar situation developed. Natural selection in this new environment would favor wolves who were more tolerant of humans and who had less inclination to flee. The rules of natural selection tell us that the less timid animals would have more opportunity to feed because they would stay longer and flee less often than more timid animals. Feeding longer would lead to enhanced survival and greater opportunities to breed. The frequency of nontimid behaviors would gradually increase in this new population of animals.

Because the waste sites associated with human villages contained food that was, in general, of lower quality and was less energy dense than the prey species of wolves, natural selection would also favor individuals who were smaller in overall size and who had smaller teeth and weaker jaws. In addition, selective pressure for social hierarchies and strict pack order would relax as pack behavior was replaced primarily by semisolitary scavenging behaviors. As this proto-dog became more adapted to eating and reproducing in the presence of humans, the population as a whole became “naturally” tame and developed a set of behavior patterns that differed significantly from those of the wild wolf.

Today, the relevance of this domestication theory is that the evolutionary tree of the wild wolf and the dog split about 14,000 years ago as a new environmental niche presented itself and was exploited. The wild wolf, Canislupus, remained a pack-living predator, while the dog evolved specialized adaptations to live in close proximity to humans and their newly developed permanent settlements. Therefore, in every aspect, including size, structure, and behavior, the domestic dog should be considered a distant cousin of the wild wolf of today, rather than as a “wolf in dog’s clothing” (more about this in Part 2).

Changes of Domestication

Several distinct and important physical changes occurred to Canis lupus as it became adapted to living in close proximity to humans. As stated previously, there were significant changes in size. Compared with the wolf, the dog has a smaller jaw and smaller and fewer teeth. Even the largest St. Bernard has smaller teeth and less jaw strength than an adult wolf. In most breeds, the shape of the mandible is more curved than that of the wolf, and the angle between the facial region and cranium is greater, resulting in a pronounced stop. Other modifications to the mandible include alterations in length to produce the brachycephalic (shortened muzzle) breeds and doliocephalic (elongated muzzle) breeds. The dog’s ears, tail, and coat type became diversified. The pendulous ears of breeds such as the Cocker Spaniel and Beagle are probably examples of neoteny and may have come about through artificial selection. Although wolf pups’ ears often fold, all adult wolves have an erect (or prick) ear. In contrast, the erect ear has been retained in many breeds, such as the German Shepherd and the Siberian Husky.

In addition, entire body size has been reduced in most dogs. Extreme examples are the toy breeds, such as the Papillon and the Italian Greyhound. In others, giantism has resulted in extremely large animals, such as the Great Dane and St. Bernard.

Most domesticated species demonstrate high fertility and early sexual maturity compared with their wild ancestors.19 The wolf has only one estrous cycle per year, usually in the spring. Female dogs, in contrast, are not seasonal breeders and have approximately two estrous cycles per year. The male wolf only produces sperm seasonally, whereas the male dog is fertile throughout the year. Dogs also reach puberty at an earlier age, attaining sexual maturity at age 6–9 months. In contrast, wolves do not become sexually active until they are at least 2 years old.

Interestingly, the attainment of social maturity in the domestic dog still occurs at a later date, generally at about 18–24 months. Social maturity is conveyed by the development of strong social bonds, the onset of dominance relationships, and the active defense of territory (see Chapter 7). If the dog is of a dominant nature, certain types of aggression may arise as well. Domestication appears to have resulted in an uncoupling of sexual maturity and social maturity in the dog’s development. Although these two changes occur around the same time in wolves (2 years), social maturity occurs substantially later than sexual maturity in the dog. This dichotomy has important significance when one is dealing with behavioral problems associated with dominance hierarchies in the dog (see Chapters 8 and 10).

The physical and the behavioral development of wolf and dog puppies also show important differences. Compared with dogs, wolf pups develop physically much more quickly during the early weeks of life. Important information was gathered in a study that compared growth and development of a group of wolf pups to a group of Alaskan Malamute puppies.20 Both groups were raised by the same foster wolf mother and socialized to humans. It was found that the wolf pups developed coordination and locomotor skills more rapidly than did the Malamute puppies. For example, at the age of 3 weeks, the wolf pups were capable of climbing out of a whelping pen with 16-inch sides. At the same age, even though they were of comparable size, the Malamutes pups were unable to traverse a 6-inch barrier. At 6 weeks of age, motor performance was tested in each group. The wolf pups’ coordination was almost equivalent to that of small adult dogs. Again, in contrast, the Malamute pups still showed the uncoordinated, rolling gait of a neonate. Interestingly, by 10 weeks of age, these differences had disappeared. When retested for locomotor skills, the wolf pups and the Malamute pups showed very similar performances. It is possible that domestication has resulted in decreased selection for early coordination because the survival value of this trait is lessened in a protected environment.

All domestic dogs exhibit varying degrees of neotenous or juvenile behavior. Whining is a good example. Whining is commonly observed in wolf pups but rarely in adult wolves. The dog, in contrast, continues to exhibit whining into adulthood and often uses this verbal pattern as an important communication tool with human caretakers. Play behaviors in dogs are a second example. Although adult wolves do exhibit play behaviors, playfulness in general is more exaggerated and more easily evoked (i.e., lower response threshold) in dogs than in wolves. The natural subordinate attitude of puppies and the demonstration of passive and active submission are probably some of the most important behavioral traits that have been intensified in the domestic dog. The prolonged display of subordinate behavior into adulthood and a decreased tendency toward dominant challenges as sexual and social maturity is achieved are traits that have allowed the dog to live in close proximity and to bond closely with human caretakers. It has been hypothesized that both the young puppy’s need for maternal care and its natural subordination to adult pack members are neotenized traits.4 The need for maternal care manifests as an elevated propensity to bond to caretakers, whereas enhanced subordination facilitates acceptance of a leader and, subsequently, ease of training.

It appears that the primary socialization period in pups occurs for a longer span of time in dogs than in wolves (see Chapter 7). In canid species, socialization periods represent an age during which social bonds are easily and strongly established. During the early weeks of this period, pups readily approach and investigate novel stimuli such as new sights, new smells, and other animals. However, near the end of this period, pups become progressively fearful of new experiences (neophobic). The adaptive significance of this behavior for wolves is that it facilitates appropriate bonding to the dam, littermates, and other pack members early in life. However, as the pups grow and become more mobile and capable of wandering further from the den area, the onset of a “fear of the new” and of having a long flight distance has distinct survival value.

Domestic dogs demonstrate primary socialization and develop social bonds most intensely between 5 and 12 weeks of age. Frequent and positive interactions with human caretakers during this period have been shown to facilitate strong attachment behaviors and training at a later age. In contrast, puppies who are isolated from humans during the period of primary socialization have a greater tendency to become aloof or even timid toward humans. If no interactions occur between puppies and humans before 12 to 14 weeks of age, the formation of normal relationships is often severely compromised. By comparison, the wolf pup’s primary socialization period appears to be much shorter in duration than that of the dog, and the manifestation of the fear imprint period is much more intense. It has been hypothesized that this early and intense fear imprint period is the cause of the wolf’s inability to bond strongly to humans, even when raised in captivity.21 It appears that although the socialization period starts at about the same time in dogs as in wolves, the fear reaction to new animals and situations is delayed in the puppy and is demonstrated far less intensely.

Even when wolf pups are raised in captivity and spend many hours with humans during the period of primary socialization (i.e., the period during which they will be forming primary social attachments), the bond or orientation that wolf pups develop toward humans is still very weak. Although they will passively accept handling by and interactions with human caretakers up until about 7 weeks of age, they begin to show a strong period of fear imprint between 6 and 8 weeks of age. Throughout their development, if the pups have access to a foster mother or to another adult wolf, they will demonstrate a strong social preference to the member of their own species, rather than to the human caretaker. This is in strong contrast to developmental behavior in puppies. The study cited previously reported that as soon as the Malamute puppies were mobile, they would readily abandon their foster mother on the approach of a human caretaker.13 Moreover, by the time of weaning, the dog puppies were demonstrably more independent of their foster mother than were the wolf pups at the same age.

Of special interest is the greeting behavior of wolf pups compared to that of dog puppies. Wolf puppies typically demonstrate an intense and effusive “greeting frenzy” toward elder pack members. This greeting behavior is characterized by body postures and facial expressions that convey submission. Wolf pups consistently demonstrate this type of greeting toward their dam, sire, and other pack members. In contrast, puppies greet other dogs much less intensely and reserve most of their frenzied greeting responses for their human caretakers. This is another example of how domestication has shifted the dog’s primary social attachment from his conspecifics to that of another species, the human.

As wolf pups attain physical maturity, they begin to show normal agonistic behaviors, which include dominance displays and challenges to other pack members. The purpose of these behaviors is to establish a stable social hierarchy within the pack. There are natural selective pressures against overt intragroup aggression in social species that are predatory in nature. There are several reasons for this. First, any energy that is spent on altercations with other individuals within the pack is energy that could be better spent in the procurement of food though cooperative hunting. The wolf pack that spends large amounts of time fighting among themselves would be at a distinct disadvantage in terms of survival. Therefore, there is direct selective pressure to minimize the amount of energy that is expended settling disputes within the pack. Second, social animals that are predators have the capability to inflict severe injury and death on other animals. Thus, aggression between pack members could result in injury or death, given the power of their defense mechanisms. If injured by another pack member during a dispute, a hurt wolf would not be able to hunt efficiently and may even attract other predators to the pack because of the presence of blood and its weakened state. Therefore, to prevent the problems associated with agonistic behavior toward others of the pack, evolution produced a set of highly predictable and ritualized dominance and submissive displays, along with a social order within the pack that defined the respective roles of dominant and subordinate animals of decreasing social rank. These displays allow the resolution of conflict and other types of interactions within the pack to occur without the danger of inflicting injury to pack members.

Although the dog has inherited many of these ritualized body postures, facial expressions, and vocalizations, two important and opposing pressures of the domestication process have distinctly modified the wolf’s behavior patterns. During domestication, the natural selective pressure against aggression between pack members was unintentionally relaxed. This occurred because, during the period of self-domestication, evolving dogs no longer lived as large, cooperatively hunting groups but, rather, lived semisolitary lives as scavengers. This meant that the selective pressure for the survival of an entire pack was no longer present. In addition, as dogs eventually became completely domesticated and incorporated into human social groups, they no longer needed to function as a working unit with other dogs. Later still, in some areas of the world, dogs were selectively bred for guarding behavior and protectiveness. This selective pressure increased the intensity of aggressive responses and decreased the level of stimulus needed to trigger the agonistic behavior.

The end result of these pressures was actually an increase in interdog aggression. The repercussions of this can be seen in some of the highly aggressive breeds of dogs that exist today (see Chapter 2). In direct contrast, a second selective force was at work during domestication. The selection for infantile behaviors, including the evolution of a more naturally subordinate animal, functioned to decrease aggressive behaviors. The final result of these pressures was the creation of a dog that is naturally more subordinate (and less dominant) than wolves. However, when aggressive behaviors toward other dogs (or humans) are displayed, they may be of higher intensity, and it may take a lower stimulus level to elicit them.

A final important behavioral change that has occurred during domestication is the alteration of normal predatory behavior. The wolf is a predatory animal that hunts cooperatively with a group to kill prey that is much larger than itself. The complete sequence of predatory behavior includes finding, stalking, chasing, catching, killing, dissecting, and ingesting prey. This sequence of activity both is diminished in intensity in the dog and is terminated before its end (i.e., prey kill and dissection are absent or severely diminished in most breeds). In all dogs, predatory behavior is diminished in intensity because of a lack of selective pressure as the dog evolved as a commensally living scavenger. In addition, certain parts of the predatory sequence were exaggerated and others suppressed when particular breeds were developed to fulfill specific working functions (see Chapter 2).

Conclusions

Man’s association with Canis lupus began over 10,000 years ago and resulted in morphological, developmental, and behavioral changes. These changes eventually produced Canis familiaris, the dog as we know it today. Once the dog was domesticated, selective breeding in different areas of the world, in widely different climates, and for a variety of functions resulted in the development of distinct breeds. An examination of the history of selective breeding and the development of different breeds provides valuable information about individual pets that live with us today.

Cited References

1. American Veterinary Medical Association. U.S. Pet Ownership and Demographics Sourcebook, AVMA, Schaumburg, Illinois. (2002)

2. Wayne, R.K. Phylogenetic relationships of canids to other carnivores. In: Miller’s Anatomy of the Dog, third edition (H.E. Evans, editor), W.B. Saunders Company, Philadelphia, Pennsylvania, pp. 15–21. (1993)

3. Fiennes, R. and Fiennes, A. The Natural History of Dogs. The Natural History Press, Garden City, New York. (1970)

4. Lorenz, Konrad. Man Meets Dog, first printed in 1953. Kodansha International. (1994)

5. Fox, M.W. The Dog: Its Domestication and Behavior. Garland STPM Press, New York. (1978)

6. Coppinger, R.P. and Coppinger, L. Dogs: A Startling New Understanding of Canine Origin, Behavior, and Evolution. Scribner, New York, pp. 273–294. (2001)

7. Miklosi, A., Kubinyi, E., Topal, J. et al. A simple reason for a big difference: wolves do not look back at humans, but dogs do. Current Biology, 13:763–766. (2003)

8. Schenkel, R. Submission: its features and functions in the wolf and dog. American Zoologist, 7:319–330. (1967)

9. Kretchmer, K.R. and Fox, M.W. Effects of domestication on animal behaviour. Veterinary Record, 96:102–108. (1975)

10. Coppinger, R.P. and Schnieder, R. Evolution of working dog behavior. In: The Domestic Dog: Its Evolution, Behavior and Interactions with People (J.A. Serpell, editor), Cambridge University Press, Cambridge. (1995)

11. Coppinger, R.P. and Smith, C.K. A model for understanding the evolution of mammalian behavior. In: Current Mammalogy, Volume 2 (H. Genoways, editor), pp. 33–74, Plenum Press, New York. (1989)

12. Coppinger, R.P. and Feinstein, M. Why dogs bark. Smithsonian Magazine, January: 119–129. (1991)

13. Davis, S.J. and Valls, F.R. Evidence for domestication of the dog 12,000 years ago in the natufian of Israel. Nature, 276:608–610. (1978)

14. Leonard, J.A., Wayne, R.K, Wheeler, J., et al. Ancient DNA evidence for Old World origin of New World dogs. Science, 298:1613–1616. (2002)

15. Lehman, N., Eisenhawer, A., Hansen, K., Mech, L.D., Peterson, R.O., Gogan, P.J., and Wayne, R.K. Introgression of coyote mDNA into sympatric North American gray world populations. Evolution, 45:104–109. (1991)

16. Adams, J.R., Leonard, J.A., and Waits, L.P. Widespread occurrence of a domestic dog mitochondrial DNA haplotype in southeastern US coyotes. Molecular Ecology, 12:541–546. (2003)

17. Tsuda, K., Kikkawa, Y., Yonekawa, H., and Tanabe, Y. Extensive interbreeding occurred among multiple matriarchal ancestors during the domestication of dogs: evidence from inter- and intraspecies polymorphisms in the D-loop region of mitochondrial DNA between dogs and wolves. Genes and Genetic Systems, 72:229–238. (1997)

18. Klinghammer, E. and Goodmann, P. Socialization and management of wolves in captivity. In: Man and Wolf (H.F. Dordrecht, editor), Dr. W. Junk Publishers, The Hague, The Netherlands. (1987)

19. Zeuner, F.E. A History of Domesticated Animals, Harper and Row, New York. (1963)

20. Frank, H. and Frank, M.G. On the effects of domestication on canine social development and behavior. Applied Animal Ethology, 8:507–525. (1982)

21. Fox, M.W. Behaviour of Wolves, Dogs and Related Canids. Harper and Row, New York. (1971)

2

Selective Breeding: The Creation of the Working Dog

AS HUMAN POPULATIONS increased and humans spread across the world, changes in the climate and habitats started to place different demands on our canine companions and working partners. Different types of dogs evolved through natural selection to cohabitate alongside human settlements in different environments. These natural breeds of dogs developed with little or no intervention from humans during the first part of the Neolithic period. It is estimated that intentional selective breeding of dogs began between 3,000 and 5,000 years ago. For example, around 2900 B.C., dogs resembling today’s greyhound were depicted on paintings and pottery in Egypt and Western Asia. Selective breeding of dogs for specific working abilities flourished during the Middle Ages. However, most of the extreme alterations in form and function of the dog and the intensive line breeding and inbreeding of purebred dogs have occurred only within the last 150–200 years.

Natural and Artificial Selection

A current theory of domestication of the dog suggests that natural selection was primarily responsible for the major changes associated with domestication. The exploitation of a new and consistent food source (human waste sites associated with Mesolithic villages) led to gradual changes in the wolf’s morphology and behavior. Over time, natural selection for smaller, less packoriented, and less nervous individuals led to the creation of “village dogs,” the ancestors of our present-day domestic dogs.1 This new population of animals existed commensally with humans for thousands of years and became the progenitor population of dogs eventually selected for further taming, training, and eventually, selective breeding (artificial selection). Evidence supporting this scenario can be found in studies of village dogs found in different areas of the world today. These dogs live in close proximity to humans and survive on human waste sites and some provisioned food but are not house pets in the traditional Western sense. One example of this type of relationship is the village dogs of the island of Pemba, off of the east Africa coast.

A theory of self-domestication for the dog is more congruous with historical evidence and is also more defensible than the premise that humans directly tamed and domesticated the wolf. The successful integration of a puppy taken from a population of smaller, less nervous, and more tame animals is more likely than a Mesolithic human having been able (or willing) to catch, tame, and keep for life a wild wolf puppy (see Chapter 1). Natural breeds gradually developed modifications in behavior and appearance as they became established around human settlements in different environments and climates. Although human intervention was still minimal, the forces of natural selection would favor larger animals with thicker coats in colder climates of the North and smaller animals with short, sparse coats in more arid environments.

Selective breeding differs distinctly from the process of natural selection described above. Selective breeding is the deliberate and discriminative selection of dogs by humans for breeding based on the presence of desired structural or behavioral characteristics. In practical terms, this involves positively selecting for certain traits while ignoring others. The origins of this type of selection, called artificial selection, began during the Neolithic period, as an agricultural way of life spread and human populations became more settled. These new agriculturalists began to use dogs for a variety of different functions. For example, the mastiff breeds, which were the original fighting and guarding dogs, were selected for a dominant and protective nature. Males and females who showed the desired temperament were chosen as breeding stock. Those who did not were not bred. Over time, a breed type evolved that included individuals who exhibited very high levels of dominance (and aggression) and that reacted to lower intensities of stimuli. In contrast, herding dogs were required to follow (chase) livestock and to move animals into or out of areas of confinement. Herding behaviors represent modified predatory behavior, and those animals who showed a very strong chase instinct were selected for breeding as herders. Dogs who followed the chasing behavior with a predatory bite, however, were not chosen. Over many generations, selective breeding for this type of work resulted in dogs who would readily chase their charges but would curtail the predatory response short of the killing bite.

It is important when discussing dogs to distinguish between the development of breeds and the existence of subspecies. A subspecies occurs when a distinctive subpopulation evolves that is separated geographically and differs morphologically from the original population. For example, the dingo, the feral dog of Australia, is considered to be a subspecies of the domestic dog. The dingo was first introduced to Australia by humans but eventually became fully established as a feral (semiwild) population. The dingo was geographically separated from other domestic dogs for many generations and is now classified as the subspecies Canis familiaris dingo. The New Guinea singing dog, Canis familiaris hallstomi, has a similar history. Conversely, breeds of dogs comprise groups of animals that have been artificially selected to possess a uniform heritable appearance. Although earlier classifications of the dog identified five breed types as subspecies of Canis familiaris, that classification scheme has since been rescinded.2–4 At present, all breeds of dog are considered to be members of a single species, Canis familiaris. There is evidence that regional differences and founding effects have led to the development of “natural breeds” of dogs in different areas of the world. These dogs have not been subjected to the intense artificial selection that typifies most breeds but, rather, have developed to thrive within a specific ecological niche around a particular group of humans. A present-day example of a natural breed is the Carolina dog found in the southern United States.

Working Breeds versus “Pure” Breeds

Natural and artificial selection led to the development of various types of working dogs in different environments, climates, and living situations throughout the world. For example, the selection for dogs to protect domestic livestock (usually sheep) from predators led to regional varieties (breeds) such as the Maremmano-Abruzzese of Italy, the Estrela mountain dog and Castro Laboreiro of Portugal, and the Komondor and Kuvasz of Hungary. Because working ability was the primary selective criteria, the shepherds would cull animals who did not work and would feed and support those that did. For the majority of their history, these regional breeds were not subjected to artificial selection in the form of attention to lineages or conformity to a particular appearance. It is probable that the dogs were not purposely bred but, rather, that the shepherd fed and cared for the dogs who worked and culled or simply ignored those who did not. Depending on the area of the world and the climate in which the dogs worked, various coat types and sizes evolved in different regions.