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The Long Evolution of Brains and Minds

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

16.07.2015

Abbildungen

XVII, 55 illus., 23 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Verlag

Springer Netherland

Seitenzahl

320

Maße (L/B/H)

23,5/15,5/1,9 cm

Gewicht

520 g

Auflage

Softcover reprint of the original 1st ed. 2013

Sprache

Englisch

ISBN

978-94-007-9606-5

Beschreibung

Rezension

From the reviews:

“The author examines in detail the structural/functional differences in the ring nervous systems of Cnidaria, diffuse nerve nets of bilateria, and the complex invertebrate brain of cephalopods (especially octopus), among others. … This book is highly recommended for anyone with research agendas in comparative neuroscience, evolutionary neuroscience, cognitive science in general, and philosophy of mind.” (Paul Tibbetts, The Quarterly Review of Biology, Vol. 88, December, 2013)

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

16.07.2015

Abbildungen

XVII, 55 illus., 23 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Verlag

Springer Netherland

Seitenzahl

320

Maße (L/B/H)

23,5/15,5/1,9 cm

Gewicht

520 g

Auflage

Softcover reprint of the original 1st ed. 2013

Sprache

Englisch

ISBN

978-94-007-9606-5

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: GPSR Kontakt

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  • Produktbild: The Long Evolution of Brains and Minds
  • Produktbild: The Long Evolution of Brains and Minds
  • Introduction: Are mind and brain a unity?

    1. Mind and Intelligence

    1.1  Types of learning

    1.2 Types of memory

    1.3 Intelligence and behavioral flexibility

    1.4 Consciousness

    1.5 Mind-brain theories

    1.6 What does all that tell us?

    2. What is evolution?

    2.1 Historical concepts of evolution

    2.2 Neodarwinism and its problems

    2.3 Concepts of evolution beyond natural selection

    2.4 The reconstruction of phylogeny and evolution

    2.5 What does all that tell us?

    3. The mind begins with life

    3.1 What is life?

    3.2 Order, self-production and self-maintenance

    3.3 Life, energy acquisition and metabolism

    3.4 The origin of first life

    3.5 The further development of simple life

    3.6 What does all that tell us?

    4. The language of neurons

    4.1 The structure of a nerve cell

    4.2 Principles of membrane excitability

    4.3 Ion channels and neural transmission

    4.3.1 The function of ion channels

    4.3.2 The origin of the action potential

    4.3.3 Neurotransmitters and other neuroactive substances

    4.4 Principles of neuronal information processing

    4.5 What does all that tell us?

    5. Bacteria, archaea, protozoa: successful life without a nervous system

    5.1 Bacteria and Archaea

    5.2 Protozoa

    5.3 Why did multicellular organisms evolve?

    5.4 What does all that tell us?

    6. The “invertebrates” and their nervous systems

    6.1 Non-bilaterians

    6.1.1 Sponges

    6.1.2 „Coelenterates“

    6.2 Bilaterians

    6.2.1 Acoelomorpha

    6.2.2 Protostomia

    6.2.2.1 Lophotrochozoa

    6.2.2.2 Ecdysozoa

    6.3 What does all that tell us?

    7. Invertebrate cognition and intelligence

    7.1 Learning, cognitive abilities and intelligence in insects

    7.2 Learning, cognitive abilities and intelligence in cephalopods

    7.3 What does all that tell us?

    8. The Deuterostomia

    8.1 The origin of deuterostomes and their nervous systems

    8.2 Echinoderms

    8.3 Hemichordates

    8.4 Chordates – Craniates - Vertebrates

    8.4.1 Myxinoids

    8.4.2 Vertebrates

    8.4.2.1  Petromyzontids

    8.4.2.2 Chondrichthyans

    8.4.2.3  Osteichthyans

    8.4.2.4  Amphibians

    8.4.2.5  “Reptiles”

    8.4.2.6  Birds

    8.4.2.7  Mammals

    8.5 What does all that tell us?

    9. The brains of vertebrates

    9.1 The basic organization of the vertebrate brain

    9.2 Medulla spinalis and oblongata

    9.3 Cerebellum

    9.4 Mesencephalon

    9.5 Diencephalon

    9.6 Telencephalon

    9.6.1 Functional anatomy of the isocortex9.6.2 Are the mammalian cortex and the mesonidopallium of birds homologous?

    9.7 What does all that tell us?

    10. Sensory systems – the coupling between brain and environment.

    10.1 The general function of sense organs

    10.2 Olfaction

    10.3 The mechanical senses and electroreception

    10.3.1 The sense of touch, vibration and medium currents

    10.3.2 The mechanoreceptive and electroreceptive lateral line system of fish and amphibians

    10.3.2.1 Mechanoreceptive lateral line system

    10.3.2.2 The electroreceptive system.

    10.3.3 The auditory system

    10.4 The visual system

    10.4.1    The compound eye of insects

    10.4.2    The vertebrate eye and retina

    10.4.3    Parallel processing in the visual system of vertebrates

    10.5      What does all that tell us?

    11. How intelligent are vertebrates?

    11.1 Cognition in teleost fishes

    11.2 Learning and cognitive abilities in amphibians

    11.3 Cognitive abilities and intelligence in mammals and birds

    11.3.1 Tool use and tool fabrication

    11.3.2 Quantity representation

    11.3.3 Object permanence

    11.3.4 Reasoning and working memory

    11.3.5 Social intelligence

    11.3.5.1 “Machiavellian” intelligence

    11.3.5.2 Gaze following

    11.3.5.3 Imitation

    12. Do animals have consciousness?

    12.1 Mirror self-recognition

    12.2 Metacognition

    12.3 Theory of mind: understanding the others

    12.4 Conscious attention

    12.5 How intelligent are dolphins and elephants?

    12.6 What does all that tell us?

    13. Comparing vertebrate brains

    13.1 Brain size and body size.

    13.2 The significance of relative brain size and of “encephalization”

    13.3 The fate of the cortex as the “seat” of intelligence and mind

    13.3.1 Information processing properties of the cortex

    13.3.2 Modularity of the cortex

    13.3.3 Specialties of the cytoarchitecture of the mammalian cortex

    13.4 Bird brains and mesonidopallium.

    13.5 What does all that tell us?

    14. Are humans unique?

    14.1 How did Homo sapiens evolve?

    14.2 Leaving the jungle and its consequences

    14.3 Enlargement of the brain and its consequences

    14.4 Language and the brain

    14.4.1 Animal language

    14.4.2 The evolution of human language

    14.4.3 The tempo of the evolution of human language.

    14. 5 Do humans exhibit a special social behavior?

    14.6 What does all that tell us?

    15. Determinants of the evolution of brains and minds

    15.1 Patterns of the evolution of nervous systems and brains

    15.2 The evolution of cognitive-mental functions

    15.3 How do differences in intelligence relate to differences in brain structures and functions?

    15.4 Which are the ultimate factors for evolution of brains and minds?

    15.4.1 Ecological intelligence

    15.4.2 Social intelligence

    15.4.3 General intelligence

    15.5 Basic mechanisms of evolution of brains and cognitive functions

    15.6 What does all that tell us?

    16. Brains and minds

    16.1 The problems of dualism

    16.2 Problems of strong emergentism

    16.3 Problems of reductionism

    16.4 The anatomy and physiology of mind

    16.5 Brains and minds in birds, Octopus and the honeybee

    16.6 Is mind multiply realized and artificially realizable?

    16.7 What is the true nature of mind?

     Literature