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PSY 2012 General Psychology Chapter 2: Biopsychology

PSY 2012 General Psychology Chapter 2: Biopsychology. Samuel R. Mathews, Ph.D. Associate Professor The Department of Psychology The University of West Florida. Biological Psychology: Core Concepts.

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PSY 2012 General Psychology Chapter 2: Biopsychology

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  1. PSY 2012 General PsychologyChapter 2: Biopsychology Samuel R. Mathews, Ph.D. Associate Professor The Department of Psychology The University of West Florida

  2. Biological Psychology: Core Concepts • At the species level there are unique characteristics that are explained within biological and psychological sciences from the Evolutionary Perspective • At the individual level unique characteristics are influenced by one’s Genotype (inherited genetic make-up from biological parents) and Phenotype (the way the genotype is expressed)

  3. Evolutionary Perspective • All species have a common origin; • Individual organisms with attributes that allowed them to survive and breed, were more likely to pass on the genetic structure to offspring who themselves had a higher likelihood of surviving;

  4. Biological Psychology: Core Concepts • Evolutionary Perspective— • Based on a scientific approach of prediction, data collection, analysis, interpretation, questioning and further prediction with testing and revision. • Other perspectives based on authority or belief that disallow analysis of empirical data in favor of belief are not the purview of science. They are grounded in philosophical or theological perspectives

  5. Biological Psychology: Core Concepts • At the individual level, Genetic Codes play a role in the unique individual characteristics • Genotype—unique genetic code inherited by the individual from biological parents

  6. Biological Psychology: Core Concepts • Phenotype—expression of the genotype in physical and psychological characteristics • Impacted by biological and environmental forces • Biological forces: disease, toxins, injury • Environmental forces: access to health care, access to stimulation from the environment

  7. How Natural Selection Works Environmental pressure (changes in the environment) Competition (for resources) Selection of fittest phenotype (from among a variety of phenotypes) Reproductive success (genotype corresponding to fittest phenotypes passed to next generation) Frequency of that genotype increases (in next generation)

  8. The Individual: Chromosomes, Genes, and Inherited DNA • Why are some people shorter than others? • Why are some babies unable to digest protein? • Why are some children born with Down’s syndrome? • Why did Sam’s hair fall out?

  9. The Individual: Chromosomes, Genes, and Inherited DNA • Chromosomes— • the structure that carries the genetic material (DNA) • 23 pairs— half contributed by the biological mother and half by the biological father • Chromosomes are made up of genes—with specific DNA codes. • Each gene is responsible for some characteristic of the organism and work in concert with others to yield the whole organism

  10. The Individual: Chromosomes, Genes, and Inherited DNA • One pair of chromosomes determines our biological sex • The biological mother contributes the X • The biological father contributes either another X or a Y chromosome. • XX= female (more female fetuses survive than males) • XY=male

  11. The Individual: Chromosomes, Genes, and Inherited DNA • Relationship between genotype and characteristics and behaviors is complex; • Inheriting a genotype linked to some psychopathology does not mean individuals will experience that pathology (e.g. schizophrenia). • Impact of the pathology is frequently minimized by alterations in the environment (e.g. corrective lenses).

  12. Hot Issues in Genetics • Cloning • Choosing the sex of your child • Diagnosis of genetic fetal abnormalities • Choosing your mate • Social engineering

  13. The Central Nervous System

  14. The Homer Brain

  15. The Human Brain

  16. Brain Structures and Functions • Brain stem (reptilian brain) • First to evolve • Life-sustaining systems: breathing, pulse rate • Similar to brains of reptiles • Cerebellum • Coordination of “automatic” movements (walking, dancing) • Processing other temporal (time related) stimuli (e.g. music)

  17. Brain Structures and Functions Limbic system • Emotion, memories, desires • Functions to help us remember highly emotional experiences • Contains the hypothalamus—control center for many functions • Cerebral cortex • Last to evolve • Linked to higher mental processes • Different areas or “lobes” control different functions

  18. Cerebral Cortex: Higher Mental Functions

  19. Frontal Lobe • “Executive functions”—Planning, controlling, recognize future outcomes from current actions etc., • Broca’s area of the frontal lobe—production of complex language • Motor functions—controls voluntary muscle groups • Matures later—late adolescence into young adulthood • Issues focus on culpability for crimes among early and middle adolescents • Alcohol likely decreases the functioning of this part of the brain related to impulse control (Amen, 1999)

  20. Parietal Lobe • Receives input from senses • Distributes sensory information to other parts of the brain • Spatial information is processed—location of limbs in space, location of sounds, etc., • Supports selective attention to particular sensory information • With parietal lobe damage, attention may be disrupted (Vecera & Flevaris, 2004)

  21. Occipital Lobe • Visual information—color, brightness, motion, etc., • Specialized areas for human face recognition • Infants, at birth, orient to human face in lieu of other stimuli

  22. Temporal Lobe • Left temporal lobe (Werneke’s area) language comprehension, naming, etc. • Auditory sense is processed

  23. Peripheral Nervous System • Somatic Nervous System—links with senses and voluntary muscles • Sensory NervousSystem—brings information FROM the senses to the central nervous system • Motor NervousSystem—carries information from the central nervous system TO the muscles for action

  24. Peripheral Nervous System • Autonomic Nervous System—links internal glands and organs • Sympathetic Division—arouses our systems when the need arises (e.g. startling stimulus, anxiety producing stimulus, sexual arousal) • Parasympathetic Division—inhibits our systems or reduces the arousal (reduces salivation, inhibits digestive juices in our stomachs)

  25. Putting it all together: Puberty • The experience of puberty is one in which we can examine the relationship among species-specific and individual differences, among the CNS and endocrine system, and social factors.

  26. Puberty Process • Hypothalamus (part of the brain that controls much of the endocrine system) Gonadotropin Releasing Hormones (GRH)Pituitary Gland • Pituitary gland GonadotropinGonads (ovaries/testes) • Gonadsstimulate release of sex hormones (estrogens/androgens) that stimulate secondary sex characteristics

  27. Puberty Process: • Process begins approximately 2 years prior to initial secondary sex characteristic changes; • Timing of puberty, particularly for females, is related to timing of maternal puberty but environmental factors also have a major impact; • Hypothalamus secretions typically increase during deep sleep; • Males and females produce both estrogens and androgens but in different proportions;

  28. Puberty Process: Physical Changes • Secondary sex characteristics (Phenotype) • Body/pubic hair (males and females) • Breast enlargement (most obvious in females) • Increase in growth rate (females and males) • Changes in voice (most obvious in males) • For females, increase in fat to muscle cell ratio (increase in fat cells relative to muscle cells)

  29. Puberty Process: Physical Changes • For females: as level of estrogen increases, the hypothalamus produces Gonadotropin Inhibiting Hormones (GIH). This inhibits the production of estrogen by the ovaries; • The periodic cycle of increases and decreases in estrogen controls the ovulation cycle. • Estrogen is stored in fat cells so the increase in fat cells relative to muscle cells allows the critical level of estrogen necessary for ovulation.

  30. Neurological Changes • Myelinization • Fatty tissue surrounding nerve cells in the brain • Increases the efficiency of transmission of signals across the synaptic junctions in the brain • Made up of cholesterol and proteins • Rapid increase of myelinization during and after puberty through adolescence

  31. Neurological Changes • Elaboration of synaptic connections • Neurons form new connections based on experience throughout the lifespan; • Plasticity still a major force—brain responds to stimulation

  32. Neurological Changes • Frontal cortex major area of development across adolescence • Maturation of neurological systems that allow: • Planning • Regulation of emotion • Monitoring • Prediction based on this is that across adolescence, ability to forecast, anticipate long-term outcomes and recognize risk is limited

  33. Health Practices and Puberty Process • Nutrition—balanced diet including appropriate levels of carbohydrates (myelinization) • Sleep—reasonable opportunities for deep sleep (supports initiation and maintenance of puberty process) • Limited alcohol consumption—some evidence that alcohol interferes with hormonal balance of pubescent females

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