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Chapter 3: The Biological Bases of Behavior

Chapter 3: The Biological Bases of Behavior. Communication in the Nervous System. Hardware: Glia – structural support and insulation Neurons – communication Soma – cell body Dendrites – receive Axon – transmit away. Neuron and Neural Impulse. Mac OS X. Windows.

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Chapter 3: The Biological Bases of Behavior

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  1. Chapter 3: The Biological Bases of Behavior

  2. Communication in the Nervous System • Hardware: • Glia – structural support and insulation • Neurons – communication • Soma – cell body • Dendrites – receive • Axon – transmit away

  3. Neuron and Neural Impulse Mac OS X Windows

  4. Figure 3.1 Structure of the neuron

  5. Neural Communication:Insulation and Information Transfer • Myelin sheath – speeds up transmission • Terminal Button – end of axon; secretes neurotransmitters • Neurotransmitters – chemical messengers • Synapse – point at which neurons interconnect

  6. The Neural Impulse:Electrochemical Beginnings • Hodgkin & Huxley (1952) - giant squid • Fluids inside and outside neuron • Electrically charged particles (ions) • Neuron at rest – negative charge on inside compared to outside • -70 millivolts – resting potential

  7. The Neural Impulse: The Action Potential • Stimulation causes cell membrane to open briefly • Positively charged sodium ions flow in • Shift in electrical charge travels along neuron • The Action Potential • All – or – none law

  8. The Synapse: Chemicals as Signal Couriers • Synaptic cleft: space between nuerons

  9. Figure 3.3 The synapse

  10. When a Neurotransmitter Binds:The Postsynaptic Potential • Positive voltage shift – excitatory PSP: • Negative voltage shift – inhibitory PSP

  11. Figure 3.4 Overview of synaptic transmission

  12. Signals: From Postsynaptic Potentialsto Neural Networks • One neuron, signals from thousands of other neurons • Requires integration of signals • PSPs add up, balance out • Balance between IPSPs and EPSPs • Neural networks • Patterns of neural activity • Interconnected neurons that fire together or sequentially

  13. Signals: From Postsynaptic Potentialsto Neural Networks • Synaptic connections • Elimination and creation: we have more synapses than we need and we eliminate those we don’t need. • Synaptic pruning: gradual elimination of less active synapses

  14. Figure 3.5 Synaptic pruning

  15. Neurotransmitters • Specific neurotransmitters work at specific synapses • Lock and key mechanism • Agonist – mimics neurotransmitter action • Antagonist – opposes action of a neurotransmitter • 15 – 20 neurotransmitters known at present • Interactions between neurotransmitter circuits

  16. Table 3.1 Common Neurotransmitters and Some of their Functions

  17. Organization of the Nervous System • Central nervous system (CNS): the brain and spinal cord • Peripheral nervous system: all other nerves • Somatic nervous system • Autonomic nervous system (ANS) • Sympathetic: fight or flight • Parasympathetic: conserves energy resources

  18. Figure 3.6 Organization of the human nervous system

  19. Figure 3.7 The central and peripheral nervous systems

  20. Figure 3.8 The autonomic nervous system (ANS)

  21. Studying the Brain: Research Methods • Electroencephalography (EEG) • Damage studies/lesioning • Electrical stimulation (ESB) • Transcranial magnetic stimulation (TMS) • Brain imaging – • computerized tomography • positron emission tomography • magnetic resonance imaging

  22. Brain Regions and Functions • Hindbrain – vital functions – medulla, pons, and cerebellum • Midbrain – sensory functions – dopaminergic projections, reticular activating system • Forebrain – emotion, complex thought – thalamus, hypothalamus, limbic system, cerebrum, cerebral cortex

  23. The Cerebrum:Two Hemispheres, Four Lobes • Cerebral Hemispheres – two specialized halves connected by the corpus collosum • Left hemisphere – verbal processing: language, speech, reading, writing • Right hemisphere – nonverbal processing: spatial, musical, visual recognition

  24. The Cerebrum:Two Hemispheres, Four Lobes • Four Lobes: • Occipital – vision • Parietal - somatosensory • Temporal - auditory • Frontal – movement, executive control systems

  25. Right Brain/Left Brain Mac OS X Windows

  26. Figure 3.16 Structures and areas in the human brain

  27. Figure 3.18 The cerebral hemispheres and the corpus callosum

  28. Figure 3.19 The cerebral cortex in humans

  29. Figure 3.20 The primary motor cortex

  30. Figure 3.21 Language processing in the brain

  31. Genes and Behavior:The Field of Behavioral Genetics • Behavioral genetics = the study of the influence of genetic factors on behavioral traits • Chromosomes – strands of DNA carrying genetic information • Human cells contain 46 chromosomes in pairs (sex-cells – 23 single) • Each chromosome – thousands of genes, also in pairs • Dominant, recessive • Homozygous, heterozygous • Genotype/Phenotype and PolygenicInheritance

  32. Figure 3.25 Genetic material

  33. Research Methods in Behavioral Genetics • Family studies – does it run in the family? • Twin studies – compare resemblance of identical (monozygotic) and fraternal (dizygotic) twins on a trait • Adoption studies – examine resemblance between adopted children and their biological and adoptive parents

  34. Figure 3.27 Genetic relatedness

  35. Figure 3.28 Family studies of risk for schizophrenic disorders

  36. Figure 3.30 Twin studies of intelligence and personality

  37. Modern Approaches to theNature vs. Nurture Debate • Molecular Genetics = the study of the biochemical bases of genetic inheritance • Genetic mapping – locating specific genes - The Human Genome Project • Behavioral Genetics • The interactionist model • Richard Rose (1995) – “We inherit dispositions, not destinies.”

  38. Evolutionary Psychology:Behavior in Terms of Adaptive Significance • Based on Darwin’s ideas of natural selection • Reproductive success key • Adaptations – behavioral as well as physical • Fight-or-flight response • Taste preferences • Parental investment and mating

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