1. Chapter 3: The Biological Bases of Behavior The nervous system is the body’s communication network Behavior depends on rapid information travel and processing…the nervous system is the body’s communication network, handling information just as the circulatory system handles blood.

2. Communication in the Nervous System The basic components of the nervous system are living cells called neurons and glia. Hardware –Glia – structural support and insulation –Neurons – cells that receive, integrate, and transmit information –Soma – cell body –Dendrites – which are feeler-like structures specialized to receive information –Axon – a long, thin fiber that transmits signals away from the soma to other neurons, or to muscles or glands

3. Neural Communication: Insulation and Information Transfer Myelin sheath – an insulating material that speeds up transmission (MS) Terminal Button – end of axon; secretes neurotransmitters Neurotransmitters – chemical messengers Synapse – point at which neurons interconnect The chemicals flow across the synapse and stimulate the next cell.

4. Figure 3.1 Structure of the neuron

5. The Neural Impulse: Electrochemical Beginnings Hodgkin & Huxley (1952) - Alan Hodgkin and Andrew Huxley in the 1950’s discovered the mechanics of neural transmission by studying giant squid…which have axons that are about 100 times larger than human axons. –Fluids inside and outside neuron –Electrically charged particles (ions) –Neuron at rest – negative charge on inside compared to outside –-70 millivolts – resting potential

6. The Neural Impulse: The Action Potential Stimulation causes cell membrane to open briefly Positively charged sodium ions flow in The Action Potential: Shift in electrical charge travels along neuron All – or – none law: Either an action potential occurs, or it doesn’t. Once an action potential is initiated, it goes full force

7. Figure 3.2 The neural impulse

8. The Synapse: Chemicals as Signal Couriers Synaptic cleft: Neurons don’t actually touch at a synapse, instead they are separated by a microscopic gap between the terminal button of one neuron and the cell membrane of another neuron Presynaptic neuron: the neuron that is sending the message across the gap –Synaptic vesicles: storage sacs for the neurotransmitter –Neurotransmitters Postsynaptic neuron –The neurotransmitters diffuse across the space where they find open receptor sites on the postsynaptic neuron. These sites recognize and respond to some neurotransmitters, but not to others

9. Figure 3.3 The synapse

10. When a Neurotransmitter Binds: The Postsynaptic Potential Voltage change at receptor site – postsynaptic potential (PSP) –Not all-or-none –Changes the probability of the postsynaptic neuron firing Positive voltage shift – excitatory PSP makes the neuron more likely to fire…decreases the negativity of the inside of the neuron with respect to the outside Negative voltage shift – inhibitory PSP increases the negativity of the inside of the neuron with respect to the outside, making it less likely to fire.

11. Figure 3.4 Overview of synaptic transmission

12. Signals: From Postsynaptic Potentials to Neural Networks One neuron, signals from thousands of other neurons Requires integration of signals –PSPs: Each neuron must integrate the many signals arriving at the same time before it “decides” to fire –EPSPs: pos. volt charge enough can cause the cell’s voltage to reach the threshold at which the action potential will begin –IPSPs: neg. volt shift that decrease action pot. –EPSPs and IPSPs may balance out, as well, and the neuron would remain at rest the state of the neuron is a weighted balance

13. Signals: From Postsynaptic Potentials to Neural Networks Neural networks –Thought occurs through the firing of millions of neurons in unison. –Our perceptions, thoughts, and actions depend on patterns of neural activity in interconnected neurons that fire together or sequentially – –neural networks: Interconnected neurons that fire together or sequentially

14. Signals: From Postsynaptic Potentials to Neural Networks Synaptic connections –Synaptic pruning: the elimination of old or unused synapses plays a larger role than the creation of new synapses in the sculpting of neural networks the number of synapses in the human visual cortex begins to decline after the age of 1 year.

15. Figure 3.5 Synaptic pruning

16. 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 –most aspects of behavior are probably regulated by many

17. Types of Neurotransmitters Acetylcholine: only NT b/w motor neurons and voluntary muscles (every move you make depends on ACh) –Nicotine is an agonist Monoamines –Dopamine voluntary movements and pleasure emotions (Parkinson’s, Schiz.) –Norepinephrine: modulates mood and arousal (cocaine and amphet.) –Serotonin: reg. Of sleep and wakefulness,eating and aggression (depression/ OCD)

18. Types of Neurotransmitters Gaba: strictly inhibitory PSPs –Regulation of anxiety and plays a key role in seizures and modulation of sleep Endorphins: resemble opiate drugs and effects, contribute to pain relief and some perhaps pleasurable emotions

19. Table 3.1 Common Neurotransmitters and Some of their Functions

20. Organization of the Nervous System Central nervous system (CNS) –The central nervous system consists of the brain and spinal cord Afferent = nerve fibers toward the CNS Efferent = nerve fibers away from the CNS

21. Figure 3.7 The central and peripheral nervous systems

22. Organization of the Nervous System Peripheral nervous system: the peripheral nervous system consists of nerves that lie outside the brain and spinal cord. –Somatic nervous system: voluntary portion –Autonomic nervous system (ANS)Autonomic nervous system (ANS) governs involuntary, visceral functions Sympathetic: mobilizes the body’s resources for emergencies and creates the fight-or-flight responseSympathetic: mobilizes the body’s resources for emergencies and creates the fight-or-flight response Parasympathetic: activates processes that conserve bodily resources…slowing heart rate, reducing blood pressure, etcParasympathetic: activates processes that conserve bodily resources…slowing heart rate, reducing blood pressure, etc

23. Figure 3.6 Organization of the human nervous system

24. Figure 3.8 The autonomic nervous system (ANS)

25. Studying the Brain: Research Methods Electroencephalography (EEG): monitoring electrical activity of the brainElectroencephalography (EEG Damage studies/lesioning: observing consequences of damage to certain areasDamage studies/lesioning Electrical stimulation (ESB): stimulating a portion of the brain and observing effectsElectrical stimulation

26. Studying the Brain: Research Methods Transcranial magnetic stimulation (TMS): enhance or suppress activity in a particular region of the brainTranscranial magnetic stimulation Brain imaging – –computerized tomography: computer enhanced X- raycomputerized tomography –positron emission tomography: radioactively tagged chemicals serve as markers of blood flow or metabolic activity in the brain that are monitored by X-raypositron emission tomography –magnetic resonance imaging: uses magnetic fields, radio waves, and computer enhancement to image brain structuremagnetic resonance imaging

27. Brain Regions and Functions Hindbrain – vital functions – –Medulla: attaches to the spinal cord; controls: circulation, breathing, muscle tone, and regulating reflexes –Pons: means “bridge”, connects brainstem and cerebellum; sleep and arousal –Cerebellum: means “little brain” coordination of movement and equilibriumCerebellum

28. Brain Regions and Functions Midbrain: lies between the hindbrain and the forebrain – integrates sensory functions (sight,smell,etc.) –dopaminergic projections: performance in voluntary movements –reticular activating system: bundle of nerve fibers running through the brain stem; sleep and arousal as well as breathing and pain perception (hind and midbrain) –Parkinson’s disease is due to degeneration of the substantia nigra, a structure in the midbrainParkinson’s disease is due to degeneration of the substantia nigra, a structure in the midbrain

29. Brain Regions and Functions Forebrain – emotion, complex thought –Thalamus: the way station for all incoming sensory information before it is passed on to appropriate higher brain regionsThalamus –Hypothalamus: regulator of basic biological needs such as hunger, thirst, sex drive, and temperature regulationHypothalamusregulator of basic biological needs such as hunger, thirst, sex drive, and temperature regulation – limbic system: emotion, motivation, memory, and other aspects of behaviorlimbic system

30. Brain Regions and Functions Forebrain (cont.) –Cerebrum: largest and most complex portion of the human brain, responsible for complex mental activities such as learning, remembering, thinking, and consciousness –cerebral cortex: convoluted outer layer of the cerebrum

31. The Cerebrum: Two Hemispheres, Four Lobes Cerebral Hemispheres – two specialized halves connected by the –corpus collosum: thick band of fibers (axons) that transmits information between the hemispheres –Left hemisphere – verbal processing: language, speech, reading, writing –Right hemisphere – nonverbal processing: spatial, musical, visual recognition

32. The Cerebrum: Two Hemispheres, Four Lobes Four Lobes: –Occipital – vision –Parietal – somatosensory (senses) –Temporal - auditory –Frontal – movement, executive control systems

33. Figure 3.16 Structures and areas in the human brain

34. Right Brain/Left Brain Broca’s Area: left frontal lobe; plays an important role in the production of speechBroca’s Area Wernicke’s Area: left temporal lobe; comprehension of speechWernicke’s Area

35. Split-Brain Research Severing of the corpus callosum (the part that shares information b/w the 2 hemispheres)

36. Hemispheric Specialization Right Hemisphere: better at visual-spatial tasks, music, perception of emotions, neg. emotions exhibited Left Hemisphere: better at verbal stimuli (lang., speech, reading, and writing), positive emotions exhibited

37. Figure 3.18 The cerebral hemispheres and the corpus callosum

38. Figure 3.19 The cerebral cortex in humans

39. Figure 3.20 The primary motor cortex

40. Figure 3.21 Language processing in the brain

41. The Endocrine System: Glands and Hormones Hormones – chemical messengers in the bloodstream –Pulsatile release by endocrine glands –Negative feedback system: The levels of many hormones increase to a certain level, then signals are sent to the hypothalamus or other endocrine glands to stop secretion of that hormone Endocrine glands –Pituitary – “master gland,” growth hormone –Thyroid – metabolic rate –Adrenal – salt and carbohydrate metabolism –Pancreas – sugar metabolism –Gonads – sex hormones

42. 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: sometimes a member of a pair has a louder voice, always expressing itself and masking the other, different, member of the pair Recessive: gene is one that is masked when the paired genes are different

43. Genes and Behavior: The Field of Behavioral Genetics Homozygous: a person has two genes in a specific pair that are the same Heterozygous: a person has two genes in a specific pair that are different Genotype/Phenotype: Genotype refers to a person’s genetic makeup (lifelong), while phenotype refers to the ways in which a person’s genotype is manifested in observable characteristics (variable) Polygenic Inheritance: most human traits are not so simple with regard to genetic transmission…they are polygenic, or influenced by more than one pair of genes.

44. Figure 3.25 Genetic material

45. Research Methods in Behavioral Genetics Family studies – Family studies simply assess hereditary influence by examining blood relatives to see how much they resemble one another on a specific trait Twin studies – compare resemblance of identical (monozygotic) and fraternal (dizygotic) twins on a trait (monozygotic are more correlated in terms of intelligence and personality, but nor perfectly alike- environment plays a part)

46. Research Methods in Behavioral Genetics Adoption studies – examine resemblance between adopted children and their biological and adoptive parents –They have found very similar correlations between both adoptive (.20) and natural parents (.22)

47. Section Summary “Genes confer dispositions, not destinies.”

48. Figure 3.27 Genetic relatedness

49. Figure 3.28 Family studies of risk for schizophrenic disorders

50. Figure 3.30 Twin studies of intelligence and personality

51. Modern Approaches to the Nature vs. Nurture Debate Molecular Genetics = the study of the biochemical bases of genetic inheritance –Genetic mapping – locating specific genes and their chemical sequence of specific genes on specific chromosomes –The Human Genome Project: produced a working draft of all 3 billion letters of DNA in the human genome (a genetic atlas)The Human Genome Project

52. Modern Approaches to the Nature vs. Nurture Debate Behavioral Genetics –The interactionist model Genetic research has yielded no easy answers about nature vs. nurture Instead, it has led to the interactionist model- people with certain genes are more likely to exhibit certain behaviors when environmental influences are present –Richard Rose (1995) – “Genes confer dispositions (we inherit dispositions), not destinies.”

53. Evolutionary Psychology: Behavior in Terms of Adaptive Significance The field of evolutionary psychology is a major new field in psychology focusing on analyzing human behavior in terms of adaptive significance

54. Evolutionary Psychology: Behavior in Terms of Adaptive Significance Based on Darwin’s ideas of: –Natural selection Successful transmission of genetic evolution depends on providing either a reproductive advantage (firefly’s light) or a survival advantage (turtle shell) Change is very gradual

55. Evolutionary Psychology: Behavior in Terms of Adaptive Significance Inclusive fitness –Used to explain self-sacrifice –An organism may succeed in helping natural selection by sacrificing itself to save others that share the same genes

56. Evolutionary Psychology: Behavior in Terms of Adaptive Significance Adaptations (inherited characteristics) – behavioral as well as physical; more difficult to study behaviors b/c they are infrequent and relatively quick in length of display –Fight-or-flight response: helpful in primitive times, but now it is related to a number of stress-related diseases –Taste preferences: humans show a taste preference for fatty foods…this was adaptive in a hunter/gatherer society, when dietary fat was scarce

57. Evolutionary Psychology: Behavior in Terms of Adaptive Significance Adaptations (cont.) –Parental investment and mating (Trivers- 1972) When parental investment is high for females and low for males, polygyny results –each male seeks to mate with multiple females and each female seeks only one male. Polyandry: female seeks to mate with multiple males and each male with only one female – this emerges when parental investment is high for males and low for females. Monogamy emerges when male and female parental investment is roughly equal.

58. Shut-Up you!