What is Animal Biology?
Animal biology is the study of an animal’s physical and chemical makeup. Pursuing fieldwork studies will investigate animals’ evolution, ecology, molecular biology, physiology, and genetics. The focus of some degree programs is on biological principles that you can apply to situations involving domestic animals.
You can study animal biology and allied subjects, such as molecular and cellular biology, animal and dairy science, zoology, animal science, and veterinary medicine, in bachelor’s, master’s, or doctoral degree programs.
Difference Between Biology and Zoology
What is Biology?
The field of study known as biology examines everything alive. It investigates what they are and how they grow, connect, and relate to one another. Biologists have various job options, including conducting research, writing about science, or teaching.
Biology is a vast field that can be into a variety of subfields according to one’s area of interest. Numerous facets of life you can enhance with the assistance of biology. The study of animals falls under the purview of zoology, a subfield of the biological science known as biology.
The study of animal structure, function, classification, behaviors, and distribution patterns is the primary focus of this academic field. Zoology translates to “the study of animals,” Contrary to popular belief, the study area has been around for much longer than most people realize.
It is generally agreed that Aristotle laid the groundwork for the modern field of zoology around 270 B.C. when he began compiling his collection of animals for research purposes.
Biology primarily focuses on living things such as plants, bacteria, and other microorganisms, whereas zoology focuses more on studying animals.
This distinction is what differentiates biology from zoology. A further difference between biology and zoology is that biologists typically focus on more disciplines that have no relation to animals. In contrast, zoologists more narrowly devote to investigating animal life.
A zoologist typically concentrates their research on a particular subfield, such as anatomy or behavior, but a biologist may look into various topics.
Animal Biology vs. Zoology
Zoologists focus their research on animals, whereas biologists investigate all life forms, including plants and animals. While a zoologist focuses more narrowly on the study of animals, a biologist studies all living species, including plants. In contrast, the field of zoology does not subdivide into many subfields, as is the case with biology.
Zoology and biology are branches of science that need further study (animal biology college undergraduate degree). Professional opportunities are available in zoology and biology; however, a biology major can teach science.
A biologist can research and study all living organisms, including animals, plants, bacteria, and other organisms, whereas a zoologist focuses on studying animals. This distinction gives biology a greater scope than zoology.
The study of animals is zoology, while the study of all living species, including plants, microorganisms, and so on, is biology. While it’s up to the discretion of a biologist whether or not they research animals, zoologists must do so.
It is possible for a biologist to become an expert in all subfields of biology, whereas a zoologist cannot simultaneously become an expert in all subfields.
What Exactly is Biology?
Biology is the name given to the subfield of the natural sciences that focuses on investigating living things and how they relate to the inanimate world. In 1801, Jean-Baptiste Lamarck and Gottfried Reinhold Teviranus were the first individuals to use the term “Biology.”
The term “biology” comes from two Greek words: “bios,” which means life, and “logos,” which means study or science. Together, these terms form the English word “biology.” Aristotle, a well-known Greek philosopher who lived between 384 and 322 BC, is commonly referred to be the “Father of Biology.”
Botany, the study of various aspects of plants, and zoology, which is the study of animals, are the two primary areas of biology, even though biology as a topic encompasses many sub-branches (the study of various aspects of animals).
In addition to being the founder of zoology, Aristotle is also credited with being the father of botany, whereas Theophrastus has this title.
In the Field of Biology, What is Zoology?
Zoology comes from two Greek words: zoon, which means “animal,” and logos, which you can translate as “study” or “science.” Together, these terms form the modern English word. Therefore, Zoology often referred to as Animal Biology, is one of the primary branches of Biology, in addition to botany and microbiology.
This branch of Biology focuses on studying animals that exclusively belong to the kingdom Animalia and is also known as Zoology. It is the study of their structure, form, and distribution from a scientific perspective. Aristotle is the “Father of Zoology,” while John Ray is the first scientist to devise a system for identifying animals.
Branches of Zoology
The following is a list of the numerous subfields that are in zoology. Zoography or Descriptive Zoology: Zoology is the applied science that focuses on describing animals and the environments in which they live.
- Comparative anatomy: The comparative study of the anatomy of different animal species is comparative anatomy.
- Ethology is the objective and scientific study of animal behavior in the environments in which they naturally exist.
- Animal physiology: Animal physiology is the scientific study of the functions and mechanisms present in animals.
- Histology: commonly referred to as microscopic anatomy, is the study of the microscopic anatomy of biological tissues. Specifically, histology focuses on the analysis of organelles.
- Vertebrate zoology: The study of vertebrate creatures, also known as animals that have a backbone and include fish, amphibians, reptiles, birds, and mammals, is vertebrate zoology.
- Invertebrate Zoology: the study of invertebrates, i.e., animals without a backbone, such as sponges, echinoderms, and tunicates.
Animal Biology Career
Although programs leading to a bachelor’s degree in animal biology on their own are uncommon, you have the option of enrolling in similar programs, such as those in animal science, which frequently incorporate studies in animal biology within their curriculum.
Laboratory work is typically a requirement for courses that include topics such as animal anatomy and physiology, ape anthropology, evolution, animal behaviors, and infectious diseases. You can also pursue the study of animal biology through various master’s and doctoral degree programs that you can find in the fields of biology and animal science.
Animal behavior, genetics, zoology, and dairy science are some of the possible areas of concentration for postgraduate study in animal biology degree programs. The care of farm animals, the management of livestock, and advanced studies in animal genetics and nutrition are some topics you can cover in this degree program.
Animal biologists can pursue careers in various fields, including teaching, research, agriculture, health, or government control.
The United States Bureau of Labor Statistics (BLS, www.bls.gov) projects that the employment demand for animal scientists will increase by 9% between 2012 and 2022, while the demand for veterinarians will increase by 12%. The need for animal caretakers who did not work on farms, including zookeepers, will increase by 15%.
As of May 2013, the median annual compensation for veterinarians was around $86,640, the median yearly salary for animal scientists was around $64,260, and the median annual wage for animal caregivers was around $19,910.
How Can I Work in Animal Biology?
The animal biology concentration, part of the Bachelor of Science degree program, emphasizes the scientific principles that underlie the practical management of animals. These animals include not only those that are for food products but also domesticated animals and species from other countries.
You will walk away from this course with a comprehensive understanding of animal production systems and a detailed comprehension of how these systems depend increasingly on our expanding knowledge in areas such as genetics, molecular biology, reproductive technology, nutrition, environmental physiology, behavior, and animal welfare.
Students interested in pursuing a profession in veterinary medicine will receive an outstanding education and training through the program. The Department of Animal Biosciences is in charge of the provision of this program and its administration. On-campus, face-to-face instruction is available through the program.
There are many job opportunities available in animal biology; however, most of them need you to obtain a bachelor’s degree or higher. Because animal biology degree programs are in the scientific method, they allow students to experience various professional environments.
This could help you decide which aspect of the field you enjoy the most: hands-on work with animals, conducting research in a lab, or any mix of the three.
Suppose you have a bachelor’s degree in animal biology. In that case, you may consider working with animals, such as on a farm or in a wildlife rehabilitation center. As a farm manager, you are responsible for providing animal care in well-managed environments and monitoring the animals’ nutrition, health, and behaviors.
If you want to help injured wild animals and track them down in their natural habitats while collaborating with vets to treat them, becoming a wildlife rehabilitator is your career path. You also can further your education in animal biology or a field closely related to it, which could lead to more opportunities.
You could be able to teach biology or animal biology at a university if you have a graduate degree in animal biology, such as a master’s or doctorate. A doctoral degree is often a requirement for employment in the field of animal science.
As an animal scientist, one of your primary goals would be to enhance the productivity and quality of the methods used to process meat and dairy products. You would accomplish this by improving the living conditions of animals and their health and diet.
If you pursue a career as a veterinarian, you will interact with a wide variety of animals, including domestic, wild, farm, and exotic. Completing a doctoral degree program in veterinary medicine, which requires an extra four years of study above the requirements of a bachelor’s degree, is a requirement for this line of work.
According to the Bureau of Labor Statistics (BLS), professionals in this industry must be able to operate alone and with others. Animal biology jobs may require you to work under pressure, get along with animals and their owners or carers, address problems relating to animal health, and keep correct records.
Other skills that may be necessary include the following areas:
- Principles of animal care and welfare
- Animal production systems, health, and industry
- Animal reproduction
- Animal disorders
- Pet Nutrition
- Experiments in animal biology
- Principles of animal behavior
Career opportunities in animal biology include;
- Animal bioscience specialist (research and education)
- Animal behavior/animal care
- Animal nutritionist
- Pet nutrition consultant
- Product quality controller
Expert Animal Biology Books to Own
By Chris M. Wood (Editor), Trevor J. Shuttleworth (Editor) Format: Kindle Edition
About This Book
The transport of ions into and out of organs, tissues, and cells are essential for regulating many different physiological processes. Over the last ten years, numerous novel methods and approaches have led to a fuller understanding of the diverse influences that ions have on the structure and function of organisms.
Ions and the mechanisms that regulate them play an important part in the physiology of fish and other species, including but not limited to respiration, excretion, neurological control, and metabolic processing.
A thorough review of the most recent research on ionic management in fish. Examines a diverse range of organ systems and the effect that ions have on the functioning of organ systems. Contributions coming from a group based all across the world
“Volume 14, Cellular and Molecular Approach to Fish Ionic Regulation,” as stated on the book’s website, “provides an essential update” and “presents detailed descriptions of cutting-edge techniques and new approaches at the cellular and molecular levels that are playing a central role in pushing forward the frontiers of this diverse field.”
Transactions of American fisheries society. This text pertains to an edition of this book that is either no longer published, or you cannot obtain—the Statement on the Back Cover.
Ions are responsible for a wide variety of effects on the structure and function of organisms. Researchers have developed a deeper knowledge of these effects during the past ten years thanks to various innovative methods and approaches.
Ions and the mechanisms that control them play an important part in the physiological functioning of all creatures, including fishes. This includes the processes of breathing, excretion, neurological control, and metabolic processing. By focusing on fishes as model organisms, this book offers a state-of-the-art update on these newly discovered areas of interest.
This text pertains to an edition of this book that is either no longer published or you cannot obtain.
Publisher: Academic Press; 1st edition (July 17, 1995)
Publication date: July 17, 1995
Book formats: Kindle, hardcover, paperback
File size: 25,141 KB
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By Chriss J. Vowles (Author), Natalie E. Anderson (Author), Kathryn A. Eaton (Author)
About This Book
Recent years have seen a meteoric rise in germ-free animal models studying human physiology and illness, notably mice. Gnotobiotic Mouse Technology: An Illustrated Guide is the first manual to cover the care, husbandry, and experimental manipulation of germ-free and gnotobiotic mice.
This book also includes a guide to the illustrations. It consists of all aspects of establishing and operating a germ-free mouse research facility, from basic principles and equipment to detailed instructions for assembling and maintaining isolators, sterilizing supplies, handling animals, and monitoring sterility.
For example, it includes information on fundamental principles and equipment and detailed instructions for assembling and maintaining an isolator. The methods and processes break down into individual modules inside the book, containing step-by-step practical and visual instructions for a set of procedures related to one another.
Each description begins with a list of the necessary supplies, an introduction, and an overall summary before moving on to a step-by-step illustrated guide of the process involved in completing each procedure. At the end of each description is a section with troubleshooting advice.
The technical parts provide copious amounts of illustration and include notes on probable dangers and alternate solutions. The procedures and practices of management, such as recruiting and training people, creating price schedules, and maintaining records, are discussed in other book chapters.
This book is vital for setting up and maintaining a facility free of germs to research mice. It outlines every step you must take to successfully create a facility, making it useful to technicians and investigators. In addition to this, it offers guidance on the expansion of multi-user facilities and the integration of new technology into existing procedures.
“This book presents and describes the procedures used in a research support facility for the production, maintenance, and experimental manipulation of germ-free and gnotobiotic mice. The introductory chapter provides background information and describes the types of animals successfully derived and kept in germ-free environments.
The information necessary to set up an isolator is covered in great length in the section of the book located in the middle of the book gives detailed descriptions of each step, along with accompanying pictures, for the processes of assembly, inflation, sterilization, and decontamination.
The following chapter of the book walks the reader through the correct procedure for port entry and exit, the maintenance of isolators, and the utilization of supply cylinders and isolators.
The book comes to a close by discussing various techniques for evaluating microorganisms, including the Gram stain procedure and quantitative PCR.
The debate centers on genetic testing and the maintenance of records. The facility setup and management that goes into running a gnotobiotic laboratory are in Chapter 18. Gnotobiotic laboratories require a significant amount of manual labor.
It is necessary to have a conversation with the institution’s directors about the various funding possibilities and space requirements before creating a new gnotobiotic laboratory or maintaining an existing one.
In general, the price of this book is affordable, and You can purchase it in both electronic and paperback formats. One of the strengths of this book is that it provides both step-by-step instructions and images that are extremely comprehensive.
The chapter discusses the isolator setup in great detail and includes graphics accompanying the text. This book is useful for gnotobiotic facilities, whether they are brand new or already in operation.”
Publisher: CRC Press; 1st edition (July 27, 2017)
Book formats: Kindle, hardcover
By Alan F. Dixson (Author)
About This Book
Within the Class Mammalia, there are more than 6,000 species that you can categorize into twenty-seven different orders. Comparative research on the wide range of extant species, each unique and remarkable in its way, offers researchers invaluable possibilities to develop and validate ideas about the evolution of reproduction.
This is the first book that explores, in-depth and in breadth, the complex interrelationships between mating behavior patterns and the development of mammalian reproductive anatomy and physiology. The book has the title: Patterns of Mating Behavior and the Evolution of Mammalian Reproductive Anatomy and Physiology.
It examines the effects of sperm competition and cryptic female choice upon the coevolution of the genitalia in both sexes. It focuses on how copulatory and post-copulatory sexual selection has played out during the evolution of monotremes, marsupials, and placental mammals.
In addition, it focuses on the role that sexual selection has played in placental mammals’ development. In addition, considerations of the lifestyles of mammals, as well as the functions performed by natural selection and phylogeny in establishing the reproductive characteristics of mammals, receive the appropriate amount of weight and consideration.
It’s not often that we come across a book written by a single author that covers the topic of mammalian sexuality in such depth as this one does.
The author discusses everything from how different aspects of anatomy have developed in tandem with mating behavior to in-depth discussions of the most recent research on sperm transport and its genomic responses within the female reproductive tract. This is an unusual aspect of the text, and its discussion is in a way that is clear and appears to be easy.
The author provides clear explanations of fundamental mechanisms such as cryptic female choice and sperm competition by referring to various species, many of which will be foreign to even seasoned readers. The reader may expect to learn something new from this book.
To put it another way, the book provides a wealth of examples that you can use to comprehend comparative reproductive biology better. The book also has many of the author’s original drawings of animals and precise anatomical characteristics, which he used to demonstrate his points skillfully.
This is an excellent addition that is in the book. Professor William V. Holt of the University of Sheffield in the United Kingdom, “This outstanding, wonderfully illustrated book – a magnum opus – is the authoritative study on the comparative biology of mating and reproductive strategies in mammals,” the author writes the book introduction.
A monograph that is essential reading for evolutionary biologists, zoologists, mammalogists, and reproductive biologists, in particular those who have an interest in post-copulatory sexual selection, this book is essentially an evolutionary perspective. It presents it in a captivatingly readable manner.
Outlining how natural selection has shaped mammalian mating patterns, genitalia, accessory glands, testes, sperm cells, and reproductive tracts, as well as the complex coevolution of male and female behavior and anatomy, are just some of the topics that are in this book.
It gathers vast information previously widely dispersed throughout the literature into a coherent and fascinating whole—Professor Emeritus of Zoology at the University of Liverpool in the United Kingdom, Geoff A. Parker.
“Mammalian Sexuality fills an important niche and is unlike other works in its sheer scale; it covers an incredibly large swath of mammalian species,” says the book’s author. “Mammalian Sexuality.
This new text, which includes classic studies and more recent research on mammalian sexual behavior, reproductive anatomy, and physiology, is the result of decades of research and scholarship that Alan Dixson has conducted on this subject. As a result, he has been able to compile a wealth of information about the topic.
Researchers interested in mammalian reproduction will find this book an indispensable reference resource.
“I would recommend it to anyone interested in animal reproduction, particularly in how sexual selection has shaped mating behavior and reproductive anatomy, as well as to anyone trying to find answers to the fascinating questions about mammalian reproduction that are still out there,” said Professor Joyce A. Parga from California State University in Los Angeles, in the United States of America
“A detailed comparative examination of the wide variety of reproductive animal characteristics found in mammalian species.” However, in addition to providing factual information, this book also discusses key proximate and ultimate questions about the evolution of mammals’ morphology, physiology, and behavioral adaptations.
“This an incredible resource for anyone interested in studying sexual selection and reproductive biology,” said Professor Jane Waterman from the University of Manitoba in Canada, “Mammalian Sexuality was a joy to read because it has fresh perspectives and dramatic details of mammalian mating that the author portrays clearly”.
This volume is bound to be one of those books that never gathers dust on the shelf, even though there is still more information to learn about the sexuality of mammals—the Quarterly Review of Biology by Patricia Adair Gowaty.
This article provides the first comprehensive account of post-copulatory sexual selection and the evolution of reproduction in mammals.
Publisher: Cambridge University Press; 1st edition (July 29, 2021)
Hardcover: 400 pages
By Ratan Kumar Choudhary (Editor), Shanti Choudhary (Editor) Format: Kindle Edition
About This Book
This book investigates the various ways in which veterinary medicine might use animal stem cells in the future. It starts with a general introduction to stem cells and how you can use them to treat various animal ailments, including mastitis. The book covers the limitations of employing stem cells in regenerative medicine.
It underlines the need to know the function of stem cells and the preclinical data to guarantee stem cell treatments’ safety and therapeutic efficacy. In addition, it provides methodologies for identifying, characterizing, and quantitatively analyzing stem cells.
In addition, it examines the potential therapeutic applications of various stem cells, such as those obtained from breast milk, testicles, and mesenchymal tissue, in veterinary medicine. The final section explores therapeutic applications of genome editing using CRISPR/Cas9 in mammary stem cells and ways for editing the genome in this way.
As a result, the book is an excellent resource for everyone working in the field of veterinary sciences, including students, scientists, and veterinarians.
The final section explores therapeutic applications of genome editing using CRISPR/Cas9 in mammary stem cells and ways for editing the genome in this way. As a result, the book is an excellent resource for everyone working in the field of veterinary sciences, including students, scientists, and veterinarians.
Publisher: Springer (February 5, 2022)
Publication date: February 5, 2022
File size: 24,046 KB
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By Jan Pechenik (Author)
About This Book
Other vendors have it available at a lower price. However, they might not provide free shipping with Prime. This educational book on invertebrates is, in terms of its level of detail and its readability, the most condensed and user-friendly of its kind (other texts do not offer boxed readings, a second color, end-of-chapter questions, or pronunciation guides).
All discussions on invertebrate phyla are available (the coverage is exhaustive), focusing on the shared features among all the different groups.
Publisher: McGraw Hill; 7th edition (February 11, 2014)
Hardcover: 624 pages
By Viktor V. Babenko (Author) Format: Kindle Edition
About This Book
The most recent findings from research on the physiological, morphological, and evolutionary aspects that influence the locomotion of aquatic animals may be present in Experimental Hydrodynamics of Fast-Floating Aquatic Animals.
The book begins with an overview of how to conduct experiments on swimming marine animals, assessing hydrodynamic forces, resistance, and geometric parameters of animal bodies. It then details how aquatic animals, such as fast-moving dolphins, can achieve high speeds without expending an excessive amount of their available energy resources.
It offers a natural paradigm for enhancing human and technological underwater mobility and provides insights into how animals such as dolphins, sharks, and swordfish can navigate through the water at high speeds.
This book is necessary for academic scholars and working biologists interested in studying the physiology of locomotion in aquatic animals and how you might apply it to human technology. This is a valuable educational resource for advanced undergraduate and graduate students interested in further developing their grasp of animal hydrodynamics.
Examines the advantages that certain anatomical characteristics offer to the locomotion of aquatic animals, such as species of cetaceans, penguins, sharks, and species of fish that can swim quickly, such as the swordfish.
The most recent findings from a scientific study and first-hand investigative investigations of the hydrodynamic elements that affect aquatic animals include skin elasticity, fin shape and movement, bioenergy, and more.
A comparison of the hydrodynamics of humans and animals is available, along with an explanation of the distinct ways in which animals spend their energy due to the evolutionary improvements they have undergone.
Publisher: Academic Press; 1st edition (June 12, 2020)
Publication date: June 12, 2020
File size: 32,762 KB
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Print length: 259 pages
Page numbers source ISBN: 0128210257
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By Kristine Coleman (Editor), Steven J. Schapiro (Editor) Format: Kindle Edition
About This Book
Students and working professionals can learn helpful information about animals’ behavioral biology in laboratories and other types of captive settings from this volume’s thirty chapters.
Many of the species’ one-of-a-kind behavioral traits, preserved in captivity even after generations of breeding, come from the fact that each species originated under a distinct set of environmental conditions. Therefore, having a fundamental comprehension of natural behavior is essential to the practices of modern animal care.
This book contains descriptions, facts, information, resources, and recommendations that will assist the reader in better understanding their animals, refining the care and treatment that their animals receive, and improving their animals’ wellbeing, welfare, and overall wellbeing.
The book is into three parts, all of which concentrate on different aspects of the behavioral biology of animals in laboratories and other research-related environments.
Following five introductory chapters, the remaining 25 chapters devote to specific taxonomic groups (such as mice, zebrafish, zebra finches, reptiles, and macaques), and the book concludes with a section of ethograms that serves as a centralized resource for individuals who have an interest in comprehending and possibly quantifying animal behavior.
The Behavioral Biology of Laboratory Animals is a resource that will provide information about how animals live in the wild and how they should live in captive research settings to those who work in programs that involve the care, maintenance, and research of laboratory animals. This information will be available to anyone working in laboratory animal programs.
Many of the ideas and rules will also be helpful to individuals who are in charge of managing animals and dealing with them in other situations, such as zoological parks, aquariums, and animal sanctuaries.
This book is a must-have for everyone who works with animals, including but not limited to veterinarians, zookeepers, trainers, and animal enthusiasts. There are plenty of books on how to care for specific species properly.
Still, this tome is unique in that it not only compiles advice on more than two dozen species but also emphasizes the significance of comprehending the evolutionary history of the species from which they descended. Jungle Fowl’s behavior in India’s forests may not appear relevant to someone who raises domestic chickens.
Still, you will not miss the value of such information for the readers of BBLA. It significantly contributes to the growing body of research on animal welfare. The book Behavioral Biology of Laboratory Animals offers a fresh and in-depth perspective on the behavior and well-being of laboratory animals.
Each of the three sections offers novel views on the subject matter that it covers: The first part, which is a first of its kind, discusses behavior in general terms, and the second part discusses the majority of animals that are in utilization in research settings, and the third part offers ethograms of various animals, which were not previously available for the majority of them.
Individuals with extensive knowledge of the subject matter covered in a chapter are responsible for writing that chapter. The editors did a fantastic job of bringing together materials written by individuals with varying writing styles discussing animals whose habits are quite varied.
They covered a wide range of species. As a result, the book will be a fantastic resource for people interested in the behavior of animals and animals used in research.
Publisher: CRC Press; 1st edition (August 11, 2021)
Publication date: August 11, 2021
File size: 48,102 KB
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Print length: 528 pages
Page numbers source ISBN: 0367029235
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By Andrew Biewener (Author), Sheila Patek (Author)
About This Book
The diverse range of motions that animals are capable of becomes possible through the unique biomechanical and physiological systems that have evolved in animals over time. Animal Locomotion provides a fundamental understanding of animal movement through a comprehensive comparative and integrative approach.
This approach considers fundamental mathematics and physics, an examination of new and enduring literature, consideration of classic and cutting-edge methods, and a strong emphasis on the core concepts that consistently ground the dizzying array of animal movements.
This book links the biomechanics of animal movement with the physiology of animal energetics and the brain regulation of locomotion over a wide range of scales and situations.
This second version includes additional material on the locomotor systems of non-vertebrate animals, studies of animal locomotion that have influenced mechanical design, and a new chapter on applying evolutionary techniques to locomotor processes and performance.
Publisher: Oxford University Press; 2nd edition (June 5, 2018)
Paperback: 240 pages
By Luca Fontanesi (Editor)
About This Book
Rabbits serve various purposes; in addition to keeping them as cherished pets, they are also produced for their meat and fur and use in scientific research. It is essential to their production, as well as their care, welfare, and health, to have a comprehensive understanding of their genetics and genomes.
This book begins with an overview of the rabbit, covering its origins, domestication, and the various breeds found today. It then discusses the rabbit’s genetics and genomics, highlighting its significance as an animal. This book focuses on the following:
- The study of cytogenetics, genetic maps, and quantitative trait loci mapping;
- The genetics of characteristics such as the color of the coat, the production of meat, fiber, and fur, reproduction, and disease resistance.
This book brings this significant subject up to date by concluding with practical applications such as the creation of transgenic and genome-edited rabbits, biotechnical applications, and the use of the rabbit as a biomedical model.
Researchers and students studying animals and veterinary medicine, as well as scientists working in laboratories and breeding rabbits, will find this an invaluable resource.
Publisher: CABI (July 28, 2021)
Hardcover: 344 pages
By Lukas Jenni (Author), Raffael Winkler (Author)
About This Book
This is the first study to provide an all-encompassing analysis of the biological processes involved in molting. The authors drew on research from various sources and examined the phenomenon in all types of birds, from penguins to passerines.
Amazing structures are in the feathers. Molting is the process all birds undergo to replace their old feathers with new ones periodically. As a result of the fact that you can only replace feathers as a set, the molt causes all of the functions of the plumage to become compromised.
As a result, this process has a significant impact on the majority of a bird’s life. Because of this, the molt period is one of the most significant repeating annual events in a bird’s life, alongside reproduction and migration for many species. Despite this process’s powerful effects on birds, the study of molt is still a severely understudied area of ornithological research.
This book, which Lukas Jenni and Raffael Winkler authored, by two well-known ornithologists worldwide, is an attempt to rectify this situation. The earlier chapters offer a general overview of feathers and fur’s roles.
After that, it discusses topics such as the two primary functions of molt, which are plumage maintenance and feather wear; feather growth; the physiology, energetics, and control of molt; and how molt affects plumage quality, structural quality, and coloration, as well as the consequences of this for the bird.
The final chapter of this book provides an overview of the many strategies birds have devised to accommodate molting within their annual cycles. The Biology of Moult in Birds is the first comprehensive review of all aspects of the biology of molt, drawing information from across the literature and in all birds, from penguins to passerines.
It is also packed with color photography throughout. This book is a companion to the magnificent Moult and Ageing in European Passerines by the same authors.
Print length: 320 pages
Publication date: November 17, 2020
Veterinary Genetics and Reproductive Physiology: A Textbook for Veterinary Nurses and Technicians 1st Edition
By Susan Long BVMS Ph.D. DipECAR MRCVS MBVA (Author)
The first textbook ever written on veterinary genetics and reproductive physiology, Veterinary Genetics and Reproductive Physiology, directs specifically toward veterinary nurses. This book, written by an experienced instructor, goes beyond the fundamental facts to give a lucid and thorough overview of genetics and reproductive physiology in veterinary nursing.
It addresses a wide range of topics, beginning with genetic material and continuing with breeding and the physiological aspects of reproduction in a variety of species, such that it fulfills the requirements of the curriculum.
This book is straightforward and user-friendly, making it accessible to students who have no prior understanding of the subject matter. However, because of its content and the depth of its investigation, it is also relevant and helpful to students working for more advanced degrees.
The first textbook of its kind to cover reproduction and genetics at a level appropriate for use by veterinary nurses and technicians. Integrates the study of genetics with the study of reproduction to provide the greatest possible comprehension of theoretical topics. Includes a significant portion of the learning objectives.
Including free-flowing text and bullet points makes for an extremely user-friendly layout, which maximizes the learning potential. The study of equine genetics, as well as reproduction, is available.
Publisher: Butterworth-Heinemann; 1st edition (July 24, 2006)
Paperback: 132 pages
Both zoology and biology are forms of science that you can pursue as career options and require additional education. However, the most significant distinction is that zoology focuses more on animal life, whereas biology is more general and has numerous subfields.
A zoologist needs to research animals, but a biologist is free to choose whether or not to do so. Comparatively, zoology is the study of animals, while biology is more broadly concerned with studying living organisms.