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WIKIBOOKS
DISPONIBILI
?????????
ART
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BUSINESS&LAW
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NATURE
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ARTICLES IN THE BOOK

  1. Active recall
  2. Alzheimer's disease
  3. Amnesia
  4. Anamonic
  5. Anterograde amnesia
  6. Atkinson-Shiffrin memory model
  7. Attention versus memory in prefrontal cortex
  8. Baddeley's Model of Working Memory
  9. Barnes maze
  10. Binding problem
  11. Body memory
  12. Cellular memory
  13. Choice-supportive bias
  14. Chunking
  15. Clive Wearing
  16. Commentarii
  17. Confabulation
  18. Cue-dependent forgetting
  19. Decay theory
  20. Declarative memory
  21. Eidetic memory
  22. Electracy
  23. Emotion and memory
  24. Encoding
  25. Engram
  26. Episodic memory
  27. Executive system
  28. Exosomatic memory
  29. Explicit memory
  30. Exposure effect
  31. Eyewitness memory reconstruction
  32. False memory
  33. False Memory Syndrome Foundation
  34. Flashbulb memory
  35. Forgetting
  36. Forgetting curve
  37. Functional fixedness
  38. Hindsight bias
  39. HM
  40. Human memory process
  41. Hyperthymesia
  42. Iconic memory
  43. Interference theory
  44. Involuntary memory
  45. Korsakoff's syndrome
  46. Lacunar amnesia
  47. Limbic system
  48. Linkword
  49. List of memory biases
  50. Long-term memory
  51. Long-term potentiation
  52. Lost in the mall technique
  53. Memory
  54. Memory and aging
  55. MemoryArchive
  56. Memory consolidation
  57. Memory distrust syndrome
  58. Memory inhibition
  59. Memory span
  60. Method of loci
  61. Mind map
  62. Mnemonic
  63. Mnemonic acronym system
  64. Mnemonic dominic system
  65. Mnemonic link system
  66. Mnemonic major system
  67. Mnemonic peg system
  68. Mnemonic room system
  69. Mnemonic verses
  70. Mnemonist
  71. Philip Staufen
  72. Phonological loop
  73. Picture superiority effect
  74. Piphilology
  75. Positivity effect
  76. Procedural memory
  77. Prospective memory
  78. Recollection
  79. Repressed memory
  80. Retrograde amnesia
  81. Retrospective memory
  82. Rosy retrospection
  83. Self-referential encoding
  84. Sensory memory
  85. Seven Meta Patterns
  86. Shass pollak
  87. Short-term memory
  88. Source amnesia
  89. Spaced repetition
  90. SuperMemo
  91. Synthetic memory
  92. Tally sticks
  93. Testing effect
  94. Tetris effect
  95. The Courage to Heal
  96. The Magical Number Seven, Plus or Minus Two
  97. Tip of the tongue
  98. Visual memory
  99. Visual short term memory
  100. Visuospatial sketchpad
  101. VTrain

  102. Working memory

    103.
 

 
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THE THEORY OF MEMORY
This article is from:
http://en.wikipedia.org/wiki/Episodic_memory

All text is available under the terms of the GNU Free Documentation License: http://en.wikipedia.org/wiki/Wikipedia:Text_of_the_GNU_Free_Documentation_License 

Episodic memory

From Wikipedia, the free encyclopedia

 

Episodic memory, a sub-category of declarative memory, is the recollection of events. It includes time, place, and associated emotions (which affect the quality of the memorization). Autobiographical memory is a sub-category of episodic memory. Episodic memory contrasts and interacts with semantic memory, the memory of facts and concepts. Episodic memories can be likened to written stories (Tulving, 1972).

The cognitive neuroscience of episodic memory

The formation of new episodic memories requires the hippocampus. Without a hippocampus, one is able to form new procedural memories (such as playing the piano) but cannot remember the events during which they happened. See the hippocampus and memory.

The prefrontal cortex (and in particular the left hemisphere) is also involved in the formation of new episodic memories (also known as episodic encoding). Patients with damage to the prefrontal cortex can learn new information, but tend to do so in a disordered fashion. For example, they might show normal recognition of an object they had seen in the past, but fail to recollect when or where it had been viewed (Janowsky et al., 1989). Some researchers believe that the prefrontal cortex helps organize information for more efficient storage, drawing upon its role in executive function. Others believe that the prefrontal cortex underlies semantic strategies which enhance encoding, such as thinking about the meaning the study material or rehearsing it in working memory (Gabrieli et al., 1998).

The hippocampus's role in memory storage

Researchers do not agree about how long episodic memories are stored in the hippocampus. Some researchers believe that episodic memories always rely on the hippocampus. Others believe the hippocampus only stores episodic memories for a short time, after which the memories are consolidated to the neocortex. The latter view is strengthened by recent evidence that neurogenesis in the adult hippocampus may ease the removal of old memories and increase the efficiency of forming new memories (Deisseroth et al 2004).

The relationship of episodic memory to semantic memory

Episodic memory is thought of as being a "one-shot" learning mechanism. You only need one exposure to an episode to remember it. Semantic memory, on the other hand, can take into consideration multiple exposures to each referent - the semantic representation is updated on each exposure.

Episodic memory can be thought of as a "map" that ties together items in semantic memory. For example, semantic memory will tell you what your dog looks and sounds like. All episodic memories concerning your dog will reference this single semantic representation of "dog" and, likewise, all new experiences with your dog will modify your single semantic representation of your dog.

Some researchers believe that episodic memories are refined into semantic memories over time. In this process, most of the episodic information about a particular event is generalized and the context of the specific events is lost. One modification of this view is that episodic memories which are recalled often are remembered as a kind of monologue. If you tell and re-tell a story repeatedly, you may feel that you no longer remember the event, but that what you're recalling is a kind of pre-written story.

Others believe that you always remember episodic memories as episodic memories. Of course, episodic memories do inform semantic knowledge and episodic memories are reliant upon semantic knowledge. The point is that some people do not believe that all episodic memories will inevitably distill away into semantic memory.

Gender differences in episodic memory performance

According to Brain activation during episodic memory retrieval: sex differences, women tend to outperform men on episodic memory tasks.

Age differences in episodic memory performance

Activation of specific brain areas (mostly the hippocampus) seems to be different between young and older people upon episodic memory retrieval, as shown by Maguire and Frith 2003. Older people tend to activate both left and right hippocampus, while young people activate only the left one. For more information, see aging and memory.

Emotion and episodic memory

The relationship between emotion and memory is complex, but generally, emotion tends to increase the likelihood that an event will be remembered later and that it will be remembered vividly. Flashbulb memory is one example of this.

Episodic memory damage

  • One neurological feature of autism is the impaired ability to form episodic, but not semantic, memories (Ben Shalom, 1993).
  • The label "Amnesia" is most often given to patients with deficits in episodic memory.
  • Alzheimer's Disease tends to damage the hippocampus before other brain areas. This means that AD patients are often classed as amnesiacs.
  • A rare type of shell-fish poisoning called "Amnesiac Shellfish Poisoning" or ASP quite effectively and irreversibly damages the hippocampus, rendering one amnesiac.
  • Korsakoff's syndrome is brought on by many years' worth of excessive drinking. The syndrome is not the result of the alcohol, per se; rather, it is caused by the malnutrition that occurs when someone gets a large amount of his calories from alcohol.

Episodic memory in animals

In 1997, there was little evidence for episodic memory outside of humans. This is probably due to the difficulty in testing for it in animals. To meet the criteria of episodic memory, as espoused by Tulving (1983), evidence of conscious recollection must be provided. But demonstrating episodic memory in the absence of language, and therefore in non-human animals, is impossible because there are no agreed non-linguistic behavioural indicators of conscious experience (Griffiths et al., 1999).

Clayton & Dickinson (1998) were the first to provide evidence that animals may possess episodic memory. They demonstrated that western scrub-jays (Aphelocoma californica) remember where they cached different food types and discriminately recovered them, depending on the perishability of the item and the amount of time that elapsed since caching. Thus, scrub-jays appear to remember the ‘what-where-and-when’ of specific caching events in the past. Clayton & Dickinson (1998) argued that such performance met the behavioural criteria for episodic memory. However, because the study did not address the phenomenological aspects of episodic memory, the authors referred to this ability as “episodic-like” memory.

According to a study done by the University of Edinburgh in 2006 hummingbirds are the first animal to demonstrate two aspects of episodic memory - the ability to recall where certain flowers were located and how recently they were visited. Scientists tracked how often hummingbirds visited eight artificial flowers filled with a sucrose solution in the birds' feeding grounds. They refilled half the flowers at 10 minute intervals and the other half 20 minutes after they had been emptied. The birds' return to the flowers matched the refill schedules: flowers refilled at 10-minute intervals were visited sooner. "To our knowledge, this is the first demonstration that animals in the wild can remember both the locations of food sources and when they visited them," said Susan Healy, of the University of Edinburgh.

Other studies have now started to demonstrate this episodic-like memory in other animal species, which have brains more similar to humans. For example, Kart-Teke and colleagues have demonstrated rats' preference for items it sees which is dependent on what it saw, where it saw it and when it saw it (Kart-Teke et al, 2006). In addition, studies by Eacott and colleagues (Eacott et al, 2005) have shown rats can recall (remember without any cueing influences) what they saw and where depending on which past situation they are being asked to remember.

References

  • Deisseroth K., Singla S., Toda H., Monje M., Palmer T.D., Malenka R.C. (2004) Excitation-neurogenesis coupling in adult neural stem/progenitor cells. Neuron. 2004 May 27;42(4):535-52.
  • Tulving, E. (1972). Episodic and semantic memory. In E. Tulving & W. Donaldson (Eds.), Organization of memory, (pp. 381-403). New York: Academic Press.
  • Tulving, E. (1983). Elements of Episodic Memory. Oxford: Clarendon Press.
  • Griffiths, D. P., Dickinson, A. & Clayton, N. S. (1999). Declarative and episodic memory: What can animals remember about their past? Trends in Cognitive Science, 3, 74–80.
  • Clayton, N. S. & Dickinson, A. (1998). Episodic-like memory during cache recovery by scrub-jays. Nature, 395, 272-274.
  • Kart-Teke, E., De Souza Silva, M.A., Huston, J.P. & Dere, E.(2006). Wistar rats show episodic-like memory for unique experiences. Neuorbiology of Learnign and Memory, 85, 173-182
  • Eacott, M.J., Easton, A. & Zinkivskay, A. (2005). Recollection in an episodic-like memory task in the rat. Learning & Memory, 12, 221-223
Retrieved from "http://en.wikipedia.org/wiki/Episodic_memory"