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200 10$aPhysiological systems in insects$b[electronic resource] /$fMarc J. Klowden
205   $a2nd ed.
210   $aNew York $cAcademic Press$dc2007
215   $a1 online resource (699 p.)
300   $aDescription based upon print version of record.
311   $a0-12-369493-0 
320   $aIncludes bibliographical references and index.
327   $aFront cover; Physiological Systems in Insects; Copyright page; Table of contents; Preface; CHAPTER 1: Endocrine Systems; TYPES OF HORMONE RELEASE SITES IN INSECTS; EARLY EXPERIMENTS THAT SET THE STAGE FOR OUR CURRENT UNDERSTANDING; TYPE OF HORMONES IN INSECTS; PROTHORACICOTROPIC HORMONE; ECDYSTEROIDS; THE JUVENILE HORMONES; OTHER NEUROPEPTIDES FOUND IN INSECTS; VERTEBRATE-TYPE HORMONES IN INSECTS; REFERENCES; CHAPTER 2: Integumentary Systems; INSECT GROWTH AND DEVELOPMENT; STRATEGIES FOR GROWTH; ORIGINS OF HOLOMETABOLY; INSTARS, STADIA, AND HIDDEN PHASES; STRUCTURE OF THE INTEGUMENT
327   $aMODIFIED FEATURES OF THE INTEGUMENTCHEMISTRY OF THE CUTICLE; THE MOLTING PROCESS; ENDOCRINE CONTROL OF MOLTING; ENDOCRINE CONTROL OF GROWTH; ENDOCRINE CONTROL OF METAMORPHOSIS; METAMORPHOSIS AND THE RADICALLY CHANGING CUTICLE; REFERENCES; CHAPTER 3: Developmental Systems; INSECT EGGS; EMBRYONIC DEVELOPMENT; REFERENCES; CHAPTER 4: Reproductive Systems; FEMALE REPRODUCTIVE SYSTEMS; VITELLOGENESIS; ENDOCRINOLOGY OF FEMALE REPRODUCTION; OVULATION, FERTILIZATION, AND OVIPOSITION; MALE REPRODUCTIVE SYSTEMS; UNCONVENTIONAL METHODS OF INSECT REPRODUCTION; MATING SYSTEMS; REFERENCES
327   $aCHAPTER 5: Behavioral SystemsWAYS OF LOOKING AT BEHAVIOR; GENETIC BASIS OF INSECT BEHAVIOR; PHYSIOLOGY OF LEARNING AND MEMORY; HORMONAL REGULATION OF BEHAVIOR; PHYSIOLOGY OF CIRCADIAN RHYTHMS; INSECT SLEEP AND AROUSAL PATTERNS; PHYSIOLOGY OF SYNCHRONOUS BEHAVIOR; PHYSIOLOGY OF POLYPHENISMS; PHYSIOLOGY OF TEMPORAL POLYETHISMS; PHYSIOLOGY OF BEHAVIORS ACCOMPANYING METAMORPHOSIS; PHYSIOLOGY OF ECLOSION BEHAVIORS; PHYSIOLOGY OF REPRODUCTIVE BEHAVIORS; PHYSIOLOGY OF BEHAVIORAL MODULATION BY PARASITES; REFERENCES; CHAPTER 6: Metabolic Systems; THE INSECT ALIMENTARY TRACT; BASIC GUT STRUCTURE
327   $aMETABOLIC PROCESSES IN INSECTSDIAPAUSE AS A METABOLIC PROCESS; REFERENCES; CHAPTER 7: Circulatory Systems; STRUCTURE OF THE INSECT CIRCULATORY SYSTEM; IMMUNE MECHANISMS IN INSECTS; THE CIRCULATORY SYSTEM AND TEMPERATURE VARIATIONS; REFERENCES; CHAPTER 8: Excretory Systems; MAJOR EXCRETORY PRODUCTS IN INSECTS; MALPIGHIAN TUBULES; MECHANISM OF MALPIGHIAN TUBULE SECRETION; HINDGUT AND RECTUM; CRYPTONEPHRIDIAL SYSTEM; FILTER CHAMBER; HORMONAL CONTROL OF EXCRETION AND OSMOREGULATION; STORAGE EXCRETION; OTHER FUNCTIONS OF THE MALPIGHIAN TUBULES; REFERENCES; CHAPTER 9: Respiratory Systems
327   $aBRINGING OXYGEN TO INSECT CELLSTHE TRACHEAL SYSTEM; MODIFICATIONS THAT INCREASE OXYGEN UPTAKE; NONRESPIRATORY FUNCTIONS OF TRACHEAL SYSTEMS; DISCONTINUOUS GAS EXCHANGE; AQUATIC RESPIRATION; REFERENCES; CHAPTER 10: Locomotor Systems; BASIC STRUCTURE OF INSECT MUSCLES; TYPES OF INSECT MUSCLES; EVOLUTION OF INSECT WINGS; MUSCLES INVOLVED IN WING MOVEMENTS; FLIGHT MUSCLE METABOLISM; TERRESTRIAL LOCOMOTION; REFERENCES; CHAPTER 11: Nervous Systems; BASIC COMPONENTS OF THE NERVOUS SYSTEM; EVOLUTION AND STRUCTURE OF THE NERVOUS SYSTEM; THE VISCERAL NERVOUS SYSTEM; SENSING THE ENVIRONMENT
327   $aVISUAL RECEPTORS
330   $aAs the largest living group on earth, insects can provide us with insight into adaptation, evolution, and survival. The 2nd edition of this standard text for insect physiology courses and entomologists provides the most comprehensive analysis of the systems that make insects important contributors to our environment. Physiological Systems in Insects discusses the role of insect molecular biology, nueroendocrinology, biochemistry, and genetics in our understanding of insects. Organized according to insect physiological functions, this book is fully updated with the latest and foundationa
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200 10$aHow to fold it $ethe mathematics of linkages, origami, and polyhedra /$fJoseph O'Rourke$b[electronic resource]
210  1$aCambridge :$cCambridge University Press,$d2011.
215   $a1 online resource (xii, 177 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
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327   $aMachine generated contents note: Part I. Linkages: 1. Robot arms; 2. Straight-line linkages and the pantograph; 3. Protein folding and pop-up cards; Part II. Origami: 4. Flat vertex folds; 5. Fold and one-cut; 6. The shopping bag theorem; Part III. Polyhedra: 7. Durer's problem: edge unfolding; 8. Unfolding orthogonal polyhedra; 9. Folding polygons to convex polyhedra; 10. Further reading; 11. Glossary; 12. Answers to exercises; 13. Permissions and acknowledgments.
330   $aWhat do proteins and pop-up cards have in common? How is opening a grocery bag different from opening a gift box? How can you cut out the letters for a whole word all at once with one straight scissors cut? How many ways are there to flatten a cube? With the help of 200 colour figures, author Joseph O'Rourke explains these fascinating folding problems starting from high school algebra and geometry and introducing more advanced concepts in tangible contexts as they arise. He shows how variations on these basic problems lead directly to the frontiers of current mathematical research and offers ten accessible unsolved problems for the enterprising reader. Before tackling these, you can test your skills on fifty exercises with complete solutions. The book's website, http://www.howtofoldit.org, has dynamic animations of many of the foldings and downloadable templates for readers to fold or cut out.
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