Muutke küpsiste eelistusi

Muscles of Chordates: Development, Homologies, and Evolution [Pehme köide]

4.00/5 (1 hinnangut Goodreads-ist)
(Johns Hopkins University, Washington, District of Columbia, USA), , (Howard University, Washington, District of Columbia, USA), (Howard University College of Medicine, Washingto), (Howard University, Washington, District of Columbia, USA)
  • Formaat: Paperback / softback, 650 pages, kõrgus x laius: 280x210 mm, kaal: 1848 g, 73 Tables, black and white; 88 Illustrations, color; 118 Illustrations, black and white
  • Ilmumisaeg: 18-Apr-2018
  • Kirjastus: CRC Press
  • ISBN-10: 1138571164
  • ISBN-13: 9781138571167
Teised raamatud teemal:
Muscles of Chordates: Development, Homologies, and EvolutionSuurem pilt
  • Formaat: Paperback / softback, 650 pages, kõrgus x laius: 280x210 mm, kaal: 1848 g, 73 Tables, black and white; 88 Illustrations, color; 118 Illustrations, black and white
  • Ilmumisaeg: 18-Apr-2018
  • Kirjastus: CRC Press
  • ISBN-10: 1138571164
  • ISBN-13: 9781138571167
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781138571167.html
Märksõnad:
Chordates comprise lampreys, hagfishes, jawed fishes, and tetrapods, plus a variety of more unfamiliar and crucially important non-vertebrate animal lineages, such as lancelets and sea squirts. This will be the first book to synthesize, summarize, and provide high-quality illustrations to show what is known of the configuration, development, homology, and evolution of the muscles of all major extant chordate groups. Muscles as different as those used to open the siphons of sea squirts and for human facial communication will be compared, and their evolutionary links will be explained. Another unique feature of the book is that it covers, illustrates, and provides detailed evolutionary tables for each and every muscle of the head, neck and of all paired and median appendages of extant vertebrates.

Key Selling Features:





Has more than 200 high-quality anatomical illustrations, including evolutionary trees that summarize the origin and evolution of all major muscle groups of chordates Includes data on the muscles of the head and neck and on the pectoral, pelvic, anal, dorsal, and caudal appendages of all extant vertebrate taxa Examines experimental observations from evolutionary developmental biology studies of chordate muscle development, allowing to evolutionarily link the muscles of vertebrates with those of other chordates Discusses broader developmental and evolutionary issues and their implications for macroevolution, such as the links between phylogeny and ontogeny, homology and serial homology, normal and abnormal development, the evolution, variations, and birth defects of humans, and medicine.
Preface ix
About the Authors xi
Acknowledgments xiii
Chapter 1 Introduction
1(4)
Chapter 2 Methodology
5(8)
Biological Material
5(2)
Nomenclature
7(4)
Phylogeny and Homology
11(2)
Chapter 3 Non-Vertebrate Chordates and the Origin of the Muscles of Vertebrates
13(14)
Ciona intestinalis and Branchiostoma floridae as Examples of Urochordates and Cephalochordates
14(3)
Evolution and Homology of Chordate Muscles Based on Developmental and Anatomical Studies
17(5)
Recent Findings on the "New Head Hypothesis" and the Origin of Vertebrates
22(2)
Development and Evolution of Chordate Muscles and the Origin of Head Muscles of Vertebrates
24(1)
General Remarks
25(2)
Chapter 4 General Discussion on the Early Evolution of the Vertebrate Cephalic Muscles
27(22)
General Remarks
45(4)
Chapter 5 Cephalic Muscles of Cyclostomes and Chondrichthyans
49(36)
Myxine glutinosa: Atlantic Hagfish
61(2)
Petromyzon marinus: Sea Lamprey
63(2)
Hydrolagus colliei: Spotted Ratfish
65(2)
Squalus acanthias: Spiny Dogfish
67(1)
Leucoraja erinacea: Little Skate
68(2)
Evolution of Cephalic Muscles in Phylogenetically Basal Vertebrates
70(6)
Metamorphosis, Life History, Development, Muscles, and Chordate Early Evolution
76(6)
General Remarks
82(3)
Chapter 6 Cephalic Muscles of Actinopterygians and Basal Sarcopterygians
85(28)
Mandibular Muscles
85(11)
Hyoid Muscles
96(10)
Branchial Muscles
106(3)
Hypobranchial Muscles
109(2)
General Remarks
111(2)
Chapter 7 Development of Cephalic Muscles in Chondrichthyans and Bony Fishes
113(8)
General Remarks
116(5)
Chapter 8 Head and Neck Muscle Evolution from Sarcopterygian Fishes to Tetrapods, with a Special Focus on Mammals
121(108)
Origin and Evolution of the Mammalian Mandibular Muscles
122(89)
Hyoid Muscles
211(6)
Branchial, Pharyngeal, and Laryngeal Muscles
217(6)
Hypobranchial Muscles
223(1)
Emblematic Example of the Remarkable Diversity and Evolvability of the Mammalian Head: The Evolution of Primate Facial Expression Muscles, with Notes on the Notion of a Scala Naturae
223(4)
General Remarks
227(2)
Chapter 9 Head and Neck Muscles of Amphibians
229(14)
Mandibular Muscles
229(5)
Hyoid Muscles
234(2)
Branchial Muscles
236(3)
Hypobranchial Muscles
239(1)
General Remarks
240(3)
Chapter 10 Head and Neck Muscles of Reptiles
243(24)
Mandibular Muscles
243(10)
Hyoid Muscles
253(2)
Branchial Muscles
255(4)
Hypobranchial Muscles
259(5)
General Remarks
264(3)
Chapter 11 Development of Cephalic Muscles in Tetrapods
267(12)
Development of Mandibular Muscles
267(3)
Development of Hyoid Muscles
270(3)
Development of Branchial Muscles
273(1)
Development of Hypobranchial Muscles
273(1)
Development of Cephalic Muscles in the Axolotl in a Broader Comparative Text
274(3)
General Remarks
277(2)
Chapter 12 Pectoral and Pelvic Girdle and Fin Muscles of Chondrichthyans and Pectoral-Pelvic Nonserial Homology
279(14)
Muscles of Paired Appendages of Squalus acanthias
282(1)
Muscles of Paired Appendages of Leucoraja erinacea
283(3)
Muscles of Paired Appendages of Hydrolagus colliei
286(1)
Plesiomorphic Configuration for Chondrichthyans and Evolution of the Cucullaris
287(2)
Forelimb--Hindlimb Serial Homology Dogma
289(1)
General Remarks
290(3)
Chapter 13 Pectoral and Pelvic Muscles of Actinopterygian Fishes
293(12)
Muscles of the Pectoral and Pelvic Appendages of Actinopterygians
293(11)
General Remarks
304(1)
Chapter 14 Muscles of Median Fins and Origin of Pectoral vs. Pelvic and Paired vs. Median Fins
305(16)
Dorsal and Anal Fins
305(5)
Caudal Fins
310(2)
Evolution of Muscles of Median Fins
312(2)
Similarities and Differences between the Musculature of Paired Fins
314(4)
Similarities and Differences between the Musculature of the Median Fins
318(1)
Can the Muscles of the Median Fins Correspond to Those of the Paired Fins?
318(1)
Is the Zebrafish an Appropriate Model for the Appendicular Musculature of Teleosts?
319(1)
General Remarks
320(1)
Chapter 15 Development of Muscles of Paired and Median Fins in Fishes
321(16)
Development of the Paired and Median Muscles of the Zebrafish
321(7)
Developmental and Evolutionary Uniqueness of the Caudal Fin
328(5)
General Remarks
333(4)
Chapter 16 Pectoral and Pelvic Appendicular Muscle Evolution from Sarcopterygian Fishes to Tetrapods
337(20)
Muscle Anatomy and Reduction of the Pectoral Fin of Neoceratodus
346(7)
Previous Anatomical Studies of Latimeria and Neoceratodus
353(1)
Evolution and Homology of Appendicular Muscles in Sarcopterygians
353(2)
General Remarks
355(2)
Chapter 17 Forelimb Muscles of Tetrapods, Including Mammals
357(68)
Pectoral Muscles Derived from the Postcranial Axial Musculature
357(52)
Appendicular Muscles of the Pectoral Girdle and Arm
409(4)
Appendicular Muscles of the Forearm and Hand
413(4)
Marsupials and the Evolution of Mammalian Forelimb Musculature
417(5)
General Remarks
422(3)
Chapter 18 Forelimb Muscles of Limbed Amphibians and Reptiles
425(62)
Pectoral Muscles Derived from the Postcranial Axial Musculature
425(46)
Appendicular Muscles of the Pectoral Girdle and Arm
471(2)
Appendicular Muscles of the Forearm and Hand
473(6)
Chameleon Limb Muscles, Macroevolution, and Pathology
479(6)
General Remarks
485(2)
Chapter 19 Hindlimb Muscles of Tetrapods and More Insights on Pectoral--Pelvic Nonserial Homology
487(108)
Evolution and Homologies of Hindlimb Muscles, with Special Attention to Mammals
505(85)
Comparison between the Tetrapod Hindlimb and Forelimb Muscles
590(3)
General Remarks
593(2)
Chapter 20 Development of Limb Muscles in Tetrapods
595(16)
Development of Pectoral and Arm Muscles
595(2)
Development of Ventral/Flexor Forearm Muscles
597(1)
Development of Dorsal/Extensor Forearm Muscles
598(1)
Development of Hand Muscles
599(1)
Development of Pelvic and Thigh Muscles
600(2)
Development of Ventral/Flexor Leg Muscles
602(1)
Development of Dorsal/Extensor Leg Muscles
602(2)
Development of Foot Muscles
604(1)
Morphogenesis and Myological Patterns
605(3)
Fore--Hindlimb Enigma and the Ancestral Bauplan of Tetrapods
608(2)
General Remarks
610(1)
References 611(24)
Index 635
Rui Diogo is an Associate Professor at Howard University College of Medicine and a member of the Resource Faculty at the Center for the Advanced Study of Hominid Paleobiology at George Washington University. One of the youngest researchers to be nominated as Fellow of the American Association of Anatomists, he won several prestigious awards, being the only researcher to be selected for the first/second place for best article of the year in the top anatomical journal two times in just three years (2013/2015). Author or co-author of more than 100 papers in top journals, such as Nature, and of numerous book chapters, he is the co-editor of three books and the sole or first author of eleven books covering subjects as diverse as fish evolution, chordate development, and human medicine and pathology, including a book adopted at medical schools worldwide, "Learning and understanding human anatomy and pathology: an evolutionary and developmental guide for medical students.



Julia Molnar is a Research Associate in the College of Medicine at Howard University in the Department of Anatomy.



Janine Ziermann is an Assistant Professor in the Department of Anatomy at Howard University's College of Medicine.