Other versions by this Author
Brain evolution is a complex weave of species similarities and differences, bound by diverse rules or principles. This book is a detailed examination of these principles, using data from a wide array of vertebrates but minimizing technical details and terminology. It is written for advanced undergraduates, graduate students, and more senior scientists who already know something about "the brain," but want a deeper understanding of how diverse brains evolved.
The book opens with a brief history of evolutionary neuroscience, then introduces the various groups of vertebrates and their major brain regions. The core of the text explores: what aspects of brain organization are conserved across the vertebrates; how brains and bodies changed in size as vertebrates evolved; how individual brain regions tend to increase or decrease in size; how regions can become structurally more (or less) complex; and how neuronal circuitry evolves. A central theme emerges from these chapters--that evolutionary changes in brain size tend to correlate with many other aspects of brain structure and function, including the proportional size of individual brain regions, their complexity, and their neuronal connections. To explain these correlations, the book delves into rules of brain development and asks how changes in brain structure impact function and behavior. The two penultimate chapters demonstrate the application of these rules, focusing on how mammal brains diverged from other brains and how Homo sapiens evolved a very large and "special" brain.
Principles Of Brain Evolution
by Striedter, Georg F.Format: Hardcover
Pub. Date: 2004-10-20
Publisher(s): Sinauer Associates is an imprint of Oxford University Press
List Price: $195.18
Buy New
Usually Ships in 5-7 Business Days
$194.98
Buy Used
Usually Ships in 24-48 Hours
$146.39
Rent Textbook
Select for Price
eTextbook
We're Sorry
Not Available
How Marketplace Works:
- This item is offered by an independent seller and not shipped from our warehouse
- Item details like edition and cover design may differ from our description; see seller's comments before ordering.
- Sellers much confirm and ship within two business days; otherwise, the order will be cancelled and refunded.
- Marketplace purchases cannot be returned to eCampus.com. Contact the seller directly for inquiries; if no response within two days, contact customer service.
- Additional shipping costs apply to Marketplace purchases. Review shipping costs at checkout.
Summary
Author Biography
Georg Striedter is Associate Professor in the Department of Neurobiology and Behavior at the University of California, Irvine. He received his undergraduate training at Cornell University and obtained a Ph.D. from the University of California, San Diego in 1990. Most of his early research focused on the evolution of various functionally interesting pathways in fish brains. He then went on to study avian brains as a postdoctoral researcher at the California Institute of Technology. Specifically, he studied how and why parrot brains are specialized for imitating sounds. Dr. Striedter continued this work as a faculty member at UC Irvine and broadened it to include questions about how avian brains differ from those of other vertebrates in terms of structure, function and development. In 1998, he received the C. J. Herrick Award for his contributions to comparative neuroanatomy.
Table of Contents
| Evolutionary Neuroscience: This Book's Scope and Ambition | p. 1 |
| The Book's Scope and Major Themes | p. 7 |
| Philosophical Preamble | p. 14 |
| A History of Comparative Neurobiology | p. 19 |
| The Birth of Comparative Neuroanatomy | p. 20 |
| Darwin's Time: The Owen-Huxley Debate | p. 23 |
| The Era of Comparative Cytoarchitectonics | p. 29 |
| Comparative Hodology and Histochemistry | p. 33 |
| The Rise of Neurocladistics | p. 37 |
| The Rejuvenation of Comparative Neuroembryology | p. 45 |
| Conclusions | p. 49 |
| Conservation in Vertebrate Brains | p. 51 |
| A "Who's Who" of Vertebrates | p. 53 |
| Comparing Adult Brains | p. 63 |
| Adult brain regions | p. 65 |
| Adult cell types | p. 70 |
| Neuron-typical molecules | p. 73 |
| Comparing Embryonic Brains | p. 77 |
| The neuromeric model | p. 81 |
| Criticisms of the neuromeric model | p. 84 |
| Mapping Embryos onto Adults | p. 88 |
| Conclusions | p. 90 |
| Evolutionary Changes in Overall Brain Size | p. 93 |
| Changes in Relative Brain Size | p. 98 |
| Mechanisms of brain-body scaling | p. 111 |
| Functional Correlates of Relative Brain Size | p. 116 |
| Changes in Absolute Brain Size | p. 126 |
| Constraints and Compromises | p. 131 |
| Conclusions | p. 133 |
| Evolutionary Changes in Brain Region Size | p. 137 |
| Concerted versus Mosaic Evolution | p. 140 |
| Concerted evolution | p. 141 |
| Mosaic evolution | p. 149 |
| Toward a synthesis | p. 157 |
| Functional Correlates of Brain Region Size | p. 159 |
| The principle of proper mass | p. 159 |
| Absolute size and functional capacity | p. 162 |
| Proportional size and influence | p. 163 |
| Relative size and adaptation | p. 168 |
| Synthesis: The avian hippocampus | p. 171 |
| Conclusions | p. 175 |
| Evolutionary Changes in Brain Region Structure | p. 177 |
| Homology and Novelty | p. 181 |
| Phylogenetic Conversion: Lamination | p. 185 |
| Phylogenetic Proliferation: Segregation | p. 197 |
| Phylogenetic Proliferation: Addition | p. 202 |
| Conclusions | p. 214 |
| Evolution of Neuronal Connectivity | p. 217 |
| Epigenetic Population Matching and Cascades | p. 220 |
| The Parcellation Hypothesis | p. 228 |
| Connectional Invasion and its Consequences | p. 236 |
| General Principles of Network Design | p. 245 |
| Synthesis and Conclusions | p. 251 |
| What's Special about Mammal Brains? | p. 255 |
| Early Mammals and their Brains | p. 259 |
| The Phylogenetic History of Neocortex | p. 268 |
| Beyond the Neocortex | p. 287 |
| Conclusions | p. 294 |
| What's Special about Human Brains? | p. 297 |
| Primate Behavior and Overall Brain Size | p. 299 |
| Evolutionary Changes in Primate Brain Organization | p. 305 |
| Hominin Behavior and Overall Brain Size | p. 310 |
| Evolutionary Changes in Hominin Brain Organization | p. 322 |
| Conclusions | p. 342 |
| Reflections and Prospect | p. 345 |
| Explanatory Strategies in Evolutionary Neuroscience | p. 346 |
| Steps Toward Synthesis | p. 352 |
| Absolute and Relative Brain Size | p. 355 |
| Conclusions | p. 360 |
| Bibliography | p. 363 |
| Index | p. 403 |
| Table of Contents provided by Rittenhouse. All Rights Reserved. |
An electronic version of this book is available through VitalSource.
This book is viewable on PC, Mac, iPhone, iPad, iPod Touch, and most smartphones.
By purchasing, you will be able to view this book online, as well as download it, for the chosen number of days.
Digital License
You are licensing a digital product for a set duration. Durations are set forth in the product description, with "Lifetime" typically meaning five (5) years of online access and permanent download to a supported device. All licenses are non-transferable.
More details can be found here.
A downloadable version of this book is available through the eCampus Reader or compatible Adobe readers.
Applications are available on iOS, Android, PC, Mac, and Windows Mobile platforms.
Please view the compatibility matrix prior to purchase.