Fisiologiaanimalhill: A Comprehensive Guide to Animal Physiology
Animal physiology is the study of how animals function, from the molecular and cellular level to the whole organism. Animal physiology covers a wide range of topics, such as metabolism, respiration, circulation, digestion, excretion, reproduction, movement, communication, and behavior. Animal physiology also integrates with other disciplines, such as ecology, evolution, genetics, and molecular biology.
If you are interested in learning more about animal physiology, you may want to check out Fisiologiaanimalhill, a book by Richard W. Hill, Gordon A. Wyse, and Margaret Anderson. This book is a comprehensive and updated resource that presents all the branches of modern animal physiology with a strong emphasis on integration of physiological knowledge, ecology, and evolutionary biology.
In this article, we will give you an overview of what you can learn from Fisiologiaanimalhill, and why it is a valuable book for anyone who wants to understand the functions of living animals.
What You Can Learn from Fisiologiaanimalhill
Fisiologiaanimalhill is divided into twenty-five main chapters and five additional \"At Work\" chapters that apply the physiological knowledge to curiosity-provoking and important topics, such as diving by marine mammals, the mechanisms of navigation, and muscle plasticity in use and disuse.
The main chapters cover the following topics:
The study of animal physiology: This chapter introduces the basic concepts and principles of animal physiology, such as homeostasis, feedback loops, adaptation, acclimation, and acclimatization.
Chemical and physical background: This chapter reviews the essential chemistry and physics for animal physiology, such as water properties, pH, diffusion, osmosis, thermodynamics, and bioenergetics.
Cells: This chapter explains the structure and function of animal cells, including membranes, organelles, cytoskeleton, cell signaling, cell cycle, and apoptosis.
Genomics: This chapter explores the molecular basis of life, such as DNA structure and replication, gene expression and regulation, RNA processing and translation, mutations and repair.
Neural signaling: This chapter describes how neurons communicate with each other and with other cells through electrical and chemical signals.
Sensory processes: This chapter examines how animals perceive and process sensory information from various modalities, such as vision, hearing,
olfaction, taste, mechanoreception, and electroreception.
Nervous systems: This chapter compares the structure and organization of nervous systems in different animal groups, from simple nerve nets to complex brains.
Muscles: This chapter analyzes the structure and function of skeletal, cardiac, and smooth muscles, and how they generate force and movement.
Endocrine systems: This chapter investigates how hormones regulate various physiological processes, such as growth, development, metabolism, stress, reproduction, and behavior.
Cardiovascular systems: This chapter explores how blood and lymph circulate in animals, and how the heart and blood vessels maintain blood pressure and flow.
Respiratory systems: This chapter discusses how animals exchange gases with their environment, and how the lungs and gills adapt to different oxygen and carbon dioxide levels.
Ion and water balance: This chapter explains how animals regulate their osmolarity and volume of body fluids, and how they cope with different salinity and hydration conditions.
Temperatures: This chapter describes how animals maintain their body temperature in different thermal environments, and how they use behavioral and physiological mechanisms to cope with heat and cold stress.
Energy metabolism: This chapter examines how animals obtain and use energy from food, and how they store and mobilize energy reserves.
Feeding and digestion: This chapter covers how animals ingest and digest food, and how they absorb and assimilate nutrients.
Growth: This chapter investigates how animals grow from fertilization to adulthood, and how they control their body size and shape.
Reproduction: This chapter explores how animals produce gametes and offspring, and how they regulate their reproductive cycles and behaviors.
Development: This chapter follows the process of animal development from fertilization to adulthood, and how genes and environment influence the formation of body plans and organs.
Movement: This chapter studies how animals move in different environments, such as water, air, and land, and how they use different modes of locomotion, such as swimming, flying, crawling, walking, running, jumping, etc.
Nervous system integration: This chapter integrates the topics of neural signaling,
sensory processes, nervous systems, and muscles, and how they coordinate complex behaviors, such as learning, memory, cognition, emotion, and social interactions.
Endocrine system integration: This chapter integrates the topics of endocrine systems, growth, reproduction, and development, and how they coordinate long-term physiological responses to internal and external stimuli.
Immune systems: This chapter introduces the basic concepts and principles of immunology, such as innate and adaptive immunity, antigens and antibodies, inflammation and infection, and autoimmune diseases.
Chronobiology: This chapter investigates how animals keep track of time and synchronize their physiological and behavioral rhythms with daily and seasonal cycles.
Ecological physiology: This chapter applies the physiological knowledge to understand how animals adapt to different ecological challenges, such as altitude, depth, desiccation, hypoxia, anoxia, etc.
Evolutionary physiology: This chapter applies the physiological knowledge to understand how animals evolve in response to natural selection and genetic drift.
The \"At Work\" chapters cover the following topics:
Diving by marine mammals: This chapter explains how marine mammals can dive to great depths and stay underwater for long periods of time without suffering from decompression sickness or hypoxia.
The mechanisms of navigation: This chapter explores how animals can orient themselves and find their way in different environments using various cues, such as landmarks, sun, stars, magnetic fields, etc.
Muscle plasticity in use and disuse: This chapter examines how muscles can change their structure and function in response to different levels of activity or inactivity.
Animal coloration: This chapter discusses how animals produce and perceive colors, and how they use coloration for various purposes, such as camouflage, communication, thermoregulation, etc.
Biological clocks in microorganisms: This chapter reveals how microorganisms can also have circadian rhythms and how they regulate their metabolic activities according to the light-dark cycle.
Why Fisiologiaanimalhill is a Valuable Book
Fisiologiaanimalhill is a valuable book for anyone who wants to understand the functions of living animals because it:
Provides a comprehensive and updated overview of animal physiology with a strong emphasis on integration of physiological knowledge,
ecology, and evolutionary biology.
Uses animal examples to engage student interest and demonstrate the value of the material that will be learned.
Includes many novel, visually-effective features to help students learn, such as full-color illustrations, graphs, tables, boxes, and summaries.
Applies the physiological knowledge to curiosity-provoking and important topics in the \"At Work\" chapters.
Offers online resources for instructors and students, such as test banks, lecture slides, animations, videos, etc.
If you are looking for a book that can help you learn animal physiology in a comprehensive, integrated, and engaging way, you may want to consider Fisiologiaanimalhill as your choice.
How to Use Fisiologiaanimalhill
Fisiologiaanimalhill is designed to be used as a textbook for undergraduate courses in animal physiology or comparative physiology. It can also be used as a reference book for graduate students and researchers who want to refresh their knowledge or learn new topics in animal physiology.
The book is organized into six parts, each covering a major theme of animal physiology: Introduction, Physiological Processes, Physiological Systems, Integration of Physiological Systems, Physiological Ecology, and Physiological Evolution. Each part consists of several chapters that cover specific topics within the theme. Each chapter starts with an animal example that illustrates the relevance and importance of the topic. The chapter then explains the concepts and principles of the topic in a clear and concise way, using examples from different animal groups to show the diversity and commonality of physiological mechanisms. The chapter also includes several features that help students learn and apply the material, such as:
Learning objectives: These are statements that summarize the main goals and outcomes of the chapter.
Key terms: These are words or phrases that are important for understanding the topic. They are highlighted in bold in the text and defined in the glossary at the end of the book.
Figures: These are illustrations that show the structure and function of physiological systems or processes. They are accompanied by captions that explain their main points and relevance.
Graphs: These are plots that show the relationship between variables or data. They are accompanied by captions that explain their main points and significance.
Tables: These are lists that show the comparison or classification of physiological features or data. They are accompanied by captions that explain their main points and purpose.
Boxes: These are insets that provide additional information or examples that complement or extend the main text. They are categorized into four types: Focus on Methods, Focus on Adaptation, Focus on Integration, and Focus on Evolution.
Summaries: These are paragraphs that recapitulate the main points and conclusions of the chapter.
Questions: These are exercises that test the students' comprehension and application of the material. They are categorized into four types: Review Questions, Critical Thinking Questions, Quantitative Questions, and Synthesis Questions.
The book also offers online resources for instructors and students, such as:
Test banks: These are sets of multiple-choice questions that can be used to create quizzes or exams.
Lecture slides: These are PowerPoint presentations that summarize the main points and figures of each chapter.
Animations: These are interactive videos that demonstrate the dynamic aspects of physiological processes or systems.
Videos: These are short clips that show real-life examples of animal physiology in action.
To access these online resources, you need to register at Fisiologiaanimalhill's website and follow the instructions there.
Fisiologiaanimalhill is a comprehensive and updated guide to animal physiology that integrates physiological knowledge, ecology, and evolutionary biology. It uses animal examples to engage student interest and demonstrate the value of the material. It includes many novel, visually-effective features to help students learn and apply the material. It also offers online resources for instructors and students to enhance their learning experience. If you want to understand
the functions of living animals
Fisiologiaanimalhill is a comprehensive and updated guide to animal physiology that integrates physiological knowledge, ecology, and evolutionary biology. It uses animal examples to engage student interest and demonstrate the value of the material. It includes many novel, visually-effective features to help students learn and apply the material. It also offers online resources for instructors and students to enhance their learning experience. If you want to understand the functions of living animals, you may want to consider Fisiologiaanimalhill as your choice. d282676c82