Table of Contents

EMBRYOGENESIS
Morphogenesis
Genetic Control of Embryogenesis
Segmentation Genes
Homeotic Genes
Organogenesis
Hatching
Imaginal Discs

DIGESTION
Relationships between Food Habits and Gut Structure and Function
The Major Structural Regions of the Gut
Midgut Cell Types
Microvilli or Brush Border of Midgut Cells
The Glycocalyx
Peritrophic Membranes
Digestive Enzymes
Hormonal Influence on Midgut
Countercurrent Circulation of Midgut and Absorption of Digested Products
The Transepithelial and Oxidation-Reduction Potential of Gut
Gut pH
Digestive System Morphology and Physiology in Major Insect Orders
The Gut as a Potential Target for Population Management of Insects and Control of the Spread of Plant and Animal Disease Organisms

NUTRITION
Importance of Balance in Nutritional Components
Ability of Insects to Self-Select Nutritional Components
Requirements for Specific Nutrients
Techniques and Diets Used in Insect Nutrition Studies
Criteria for Evaluating Nutritional Quality of a Diet
Measures of Food Intake and Utilization
Phagostimulants
Feeding Deterrents

INTEGUMENT
Structure of the Integument
Molting and Formation of New Cuticle
Ecdysis
Sclerotization of Cuticle
Chemical Composition of Cuticle
Mineralization of Insect Cuticles
Capture of Atmospheric Water on Cuticular Surfaces

HORMONES and DEVELOPMENT
Historical Beginnings for the Concept of Hormonal Control of Molting and Metamorphosis
The Interplay of PTTH, Ecdysteroids, and Juvenile Hormone Controls Development
Brain Neurosecretory Cells and Prothoracicotropic Hormone: PTTH
The Prothoracic Glands and Ecdysteroids
The Corpora Allata and Juvenile Hormone
Mode of Action of Ecdysteroids at the Gene Level
A possible Timer Gene in the Molting Process
Ecdysone-Gene Interaction Ideas Stimulated Vertebrate Work

INTERMEDIARY METABOLISM
The Energy Demands for Insect Flight
Metabolic Stores
Hormones Controlling Carbohydrate Metabolism
Pathways of Metabolism Supporting Intense Muscular Activity Such as Flight

NEUROANATOMY
The Central Nervous System (CNS)
The Brain
Ventral Ganglia
Oxygen and Glucose Supply to the Brain and Ganglia
The Neuropil
Hemolymph-Brain (CNS) Barrier
Neurons: The Building Blocks of a Nervous System
Giant Axons in Insect Central System
Nervous System Control of Behavior: Motor Programs
Neurosecretion Products from the CNS

NEUROPHYSIOLOGY
Nerve Cell Responses to Stimuli
The Physiological Basis for Neuronal Responses to Stimuli
Conduction of the Action Potential: The Local Circuit Theory
Physiology and Biochemistry at the Synapse: Excitatory and Inhibitory PostSynaptic Potentials
Acetylcholine Mediated Synapses
Electric Transmission across Synapses
Neuromuscular Junctions

MUSCLES
Basic Muscle Structure and Function
Synchronous and Asynchronous Muscles
Muscle Proteins and Physiology of Contraction
Thoracic Structure, Wing Hinges, and Muscle Groups Involved in Flight
Muscles Involved in Jumping
Sound Production : Tymbal and Stridulatory Muscles
Morphology and Physiology of Non-Skeletal Muscle

SENSORY SYSTEMS
External and Internal Receptors Monitor the Environment
General Functional Classification of Sensory Receptors
Mechanoreceptors
Chemoreceptors
Light and Visual Receptors

CIRCULATORY SYSTEM
Introduction: Embryogenesis of the Circulatory System and Hemocytes
The Dorsal Vessel: Heart and Aorta
Accessory Pulsatile Hearts
Hemocytes
The Hemolymph
The Rate of Circulation
Hemoglobin in a Few Insects

RESPIRATION
Structure of the Tracheal System
Tracheal Supply to Tissues and Organs
Ventilation and Diffusion of Gases within the System
Discontinuous Gas Exchange Cycle
Water Balance during Flight
Gas Exchange in Aquatic Insects
Respiration in Endoparasitic Insects
Respiratory Pigments
Respiration in Eggs and Developing Embryos
Non respiratory Functions of the Tracheal System

EXCRETION
The Malpighian Tubules
Ultrastructure of Malpighian Tubule Cells
Formation of Primary Urine in Malpighian Tubules
A Proton Pump is the Driving Mechanism for Urine Formation
Selective Reabsorption in the Hindgut
The Role of the Excretory System in Maintaining Homeostasis
Cryptonephridial Systems


PHEROMONES
Classes of Semiochemicals
Importance of the Olfactory Sense in Insects
The Active Space Concept
Pheromones Classified According to Behavior Elicited
Pheromone Parsimony
Chemical Characteristics of Pheromones
Insect Receptors and the Detection Process
Information Coding and Processing
Geographical and Populational Differences and Evolution of Pheromone Blends
Hormonal Control of Pheromone Synthesis and Release
Biosynthesis of Pheromones
Practical Applications of Pheromones

REPRODUCTION
Female Reproductive System
Vitellogenins and Yolk Proteins
Sequestering of Vitellogenins and Yolk Proteins by Oocytes
Formation of the Vitelline Membrane
The Chorion
Gas Exchange in Eggs
Male Reproductive System
Sex Determination

Reviews

"Written in a straightforward and highly readable style, Insect Physiology and Biochemistry is the hallmark of an experienced teacher who has dedicated 40 years of his career to teaching insect physiology and biochemistryThe principles, fundamentals, and illustrative examples provided are certainly a major milestone as an update of previous textbooks on insect physiology and biochemistry. The title will be an excellent sourcebook for students in entomology and an invaluable reference for scientists in various disciplines of insect science and its application." - Insect Science and its Application, Vol. 22, No. 2, 2002" a scholarly work generally well written and the author makes his arguments effectively a substantive contribution." - Jon Harrison, Arizona State University" a welcome addition to the literature." -Thomas Miller, University of California, Riverside "Textbooks serve principally to introduce students to the basics of a discipline and awareness of the expanding literature of the subject. The recently published textbook Insect Physiology and Biochemistry by Professor James L. Nation of the University of Florida accommodates very well the need for a contemporary introduction to the subject. Nation has clearly set the goal of demonstrating the basic aspects of insect physiology and biochemistry to undergraduate students largely free of the complexities required by more advanced students. This is achieved in a remarkably readable and well-illustrated volume Nation has a splendid feel for his subject and his direct and lucid presentations clearly derive from his classroom lecturing experience. He concisely essays the quanta of knowledge to address the introductory needs ofstudents, yet provides the references appropriate to lead the serious student well beyond. Reviewers are supposed to find and detail things they do not like about the books they judge, but I am unable to find areas of neglect or errors of fact. "Insect Physiology and Biochemistry provides an excellent introduction of the subjects to the undergraduate for whom it was written and will serve as a primer for the non-specialist eager to employ insects as their research models. The text is clear, well arranged, and a pleasure to read. It presents the broad concepts and focuses on contemporary references rather than exhaustive inclusion of the contributions of the pioneering investigators of insect sciences so well documented in previous texts and monographs. In all, This textbook is an impressive works, emblematic of Nations' ability to present clearly the salient highlights of insect physiology and biochemistry. Its wide adoption as a teaching text is assured." -William S. Bowers, The University of Arizona, Tucson, USA, Journal of Chemical Ecology, Vol. 28, No. 12, December 2002. "The book is well written, straightforward and easy to read. For each topic, the relevant terminology is well defined and examples describing various principles are drawn from different insect taxa and illustrated in clear and concise diagrams or models. These features make reading of the book more interesting and pleasurable. "The book chapters are also organized in a logical fashion that follows the life history and physiological processes in insects. Where descriptions are brief, references for detailed information are provided in the text. I particularly like the author's effort to include, where appropriateunder the various topics, a brief description of the practical applications of the knowledge within the context of insect pest management and control. "The principles, fundamentals and illustrative examples provided are certainly a major milestone as an update of previous textbooks on insect physiology ad biochemistry. It will be an excellent textbook for students in entomology and an invaluable reference book for scientists in various disciplines of insect science and its application." - Baldwyn Torto, Ph.D., Center for Medical, Agricultural, and Veterinary Entomology