Theories of forgetting
According to
Munn (1967) “Forgetting is the loss, temporary or Permanent, of the ability to
recall or recognize something learnt Earlier.
“According to
Drever (1952) “Forgetting means failure at any time. To recall an experience,
when attempting to do so, or to perform an Action previously learnt .
Schacter’s “Seven Sins of Memory”
•
Memories
are transient (fade with time)
•
We
do not remember what we do not pay attention to
•
Our
memories can be temporarily blocked
•
We
can misattribute the source of memory
•
We
are suggestible in our memories
•
We
can show memory distortion (bias)
•
We
often fail to forget the things we would like not to recall (persistence of
memory)
Decay theories
n
Memories
fade away or decay gradually if unused
n
Time
plays critical role
n
Ability
to retrieve info declines with time after original encoding
Decay Theory = gradual fading
of the physical memory trace (when new memory forms, there is a change in brain
structure or chemistry. If unused,
normal brain metabolic processes erode memory trace.
The term decay
theory was first coined by Edward Thorndike in his book “The Psychology of
Learning” in 1914. This simply states that if a person does not access and use
the memory representation they have formed the memory trace will fade or decay
over time. This theory was based on the early memory work by Hermann Ebbinghaus
in the late 19th century. The decay theory proposed by Thorndike was heavily
criticized by McGeoch and his interference theory.
Trace
Decay Theory of Forgetting
This explanation
of forgetting in short term memory assumes that memories leave a trace in the
brain. A trace is some form of physical and/or chemical change in the nervous
system. Trace decay theory states that forgetting occurs as a result of the
automatic decay or fading of the memory trace. Trace decay theory focuses on
time and the limited duration of short term memory. This theory suggests short
term memory can only hold information for between 15 and 30 seconds unless it
is rehearsed. After this time the information / trace decays and fades away.
Decay theory proposes that memory fades due to the
mere passage of time. Information is therefore less available for later
retrieval as time passes and memory, as well as memory strength, wears away. When
we learn something new, a neurochemical “memory trace” is
created.
However, over time this trace slowly disintegrates. Actively rehearsing
information is believed to be a major
factor counteracting this temporal decline.
It is widely
believed that neurons die off gradually as we age, yet some older memories can
be stronger than most recent memories. Thus, decay theory mostly affects the
short-term memory system, meaning that older memories (in long-term memory) are
often more resistant to shocks or physical attacks on the brain. It is also thought that the passage of
time alone cannot cause forgetting, and that Decay Theory must also take into
account some processes that occur as more time passes.
Trace decay
refers to apparent loss of information already encoded and stored in an
individual's long term memory. It is often a gradual process in which old
memories are unable to be recalled from memory storage.
Decay theory
Decay is the
simplest explanation of forgetting. Decay is what supposedly occur when
the passage of time causes us to forget.
The memory trace (or engram) fades and the memory is no longer available. This
theory is popular because it appears to fit with common-sense views of the way
memory works. One of the most influential attempts to explain forgetting in
terms of decay was by Hebb (1949). However, it is very difficult to prove
experimentally that decay actually occurs. For example, Peterson &
Peterson’s results can be explained in terms of decay of the memory trace over
the retention interval, but they can also be explained by interference by the
distracter task (counting backwards in
threes).
However, one
observation to support decay is that STM can hold fewer words when the words
are long (harpoon or cyclone) than if words are short (bishop & pewter).
Note that we are referring here to how long the word takes to say (try it).
According to Baddeley et al (1975) this effect occurs because as the words are
presented, they are encoded acoustically. This takes longer for the long
sounding words resulting in an increased possibility that the trace will have
decayed for some of the words.
Ebbinghaus also
employed a savings method to test
his memory retention. He first counted the number of times needed to rehearse a
list of nonsense syllables in order to commit it to memory. Then he counted the
number of times it took to relearn the list after a period of time had elapsed.
If it look ten repetitions to learn the list the first time and five the
second, the savings would be 50 percent.
Memory
researchers recognize that when people attempt to memorize information, they
generally retain more information when they space their study sessions than
when they cram them together within a single day (Cepeda et al., 2006). One
reason for this effect, called the massed
vs. spaced practice effect, is that massed, or crammed, practice causes mental
fatigue that interferes with learning and retention. A practical implication of
this effect should be obvious: When studying for exams, don't cram. Rather,
space out your study sessions. You'll learn more and remember more of what you
learn. Also, spaced practice produces the same learning benefits for other
animals, which is useful to keep in mind when trying to train your dog (Aamodt
& Wang, 2008).
Decay theory
helps account for memory kiss due to the passage of time. However, a major
weakness of the theory is that it fails to account for the unevenness with
which memory decays over time. Some memories remain well preserved over time,
whereas others quickly fade. One reason for this unevenness is that more
distinctive or unusual information tends to be remembered better over time.
You're likely to remember your first date belter than your 14th. You're also
more likely to later recall the name of a man you were introduced to at a party
if the man’s name was Oscar than if it had been Bob or John.
Ebbinghaus
studied retention of meaningless syllables. When we examine recall of more
meaningful information, such as poetry or prose, we find a more gradual loss of
memory over time. Then again, little if any forgetting may occur for important
life events and knowledge we acquire about our work or career. Another factor
that helps explain forgetting interference (Wixted, 2005).
Interference
Theory: When Learning More Leads to Remembering Less
Chances are you
have forgotten what you ate for dinner a week ago Wednesday. The reason for
your forget fullness, according to interference theory, is interference from
memories of dinners that preceded and followed that particular dinner. On the
other hand, you are unlikely to forget your wedding day because it is so unlike
any other day in your life (except for those, perhaps, who have taken many
walks down the aisle). Interference theory helps explain why some events may be
easily forgotten while others remain vivid for a lifetime. The greater the
similarity between events, the greater the risk of interference. There are two
general kinds of interference, retroactive interference and proactive
interference.
Interference
occurring after material is learned but before it is recalled is called retroactive
interference. Perhaps you have found that material you learned in your9:0Q a.m.
class, which seemed so clear when you left the classroom, quickly began to fade
once you started soaking in information in the next class. In effect, new
memories retroactively interfere with unstable earlier memories that are still
undergoing the process of memory consolidation (Wixied, 2004).
■ Sleep on it. Want to improve
your recall of newly learned material? Sleep on it. Investigators believe that
sleep enhances learning and memory by helping to convert fragile new memories
into lasting ones. Learning material and then sleeping on it may help you
retain more of what you learn.
■ Rehearse fresh memories. New
long-term memories are fragile. Practicing or rehearsing fresh memories aloud
or silently can strengthen them, making them more resistant lo the effects of
interference. Repeated practice beyond the point necessary to reproduce
material without error is called overlearning.
Apply the principle of overlearning to reviewing the material in this text,
such as by rehearsing your knowledge of the key concepts in each chapter two or
more limes after you can demonstrate your knowledge without any errors.
■ Give
yourself a break. Try not to schedule one class directly after another.
Give your recent memories time lo consolidate in your brain.
■ Avoid
sequential study of similar material. Try not to study material that is
similar in content In back-to-back fashion—for example, avoid scheduling a
French class right after a Spanish one.
Interference may
help explain the serial position effect,
the tendency lo recall the first and last items in a list, such as a shopping
list, better than those in the middle of the list. The unfortunate items in the
middle are often forgotten. In a study in which people were asked to name the
last seven U-S. presidents in order, they were more likely lo make mistakes in
the middle of the list than al either the beginning or the end. Serial position
effects influence both short-term and long-term memory.
Interference is
the likely culprit in serial position effects. Items compete with one another
In memory, and interference is greatest in the middle of a list than at either
end of the list. For example, in i list of seven items, the
fourth item may interfere with the item that it follows and the item that it
precedes. But interference is least for the first and last items in the
list—the first, because no other item precedes it; the last, because no other
item follows it. The tendency to recall items better when they arc learned
first is called the primacy effect.
The tendency to recall items better when they are learned last is called the recency effect. As the delay between a
study period and a test period increases, primacy effects become stronger
whereas recency effects become weaker. This recency-primacy shift means that as time passes after you have
committed a list to memory, it becomes easier to remember the early items but
more difficult lo remember the later-appearing items in the list.
In sum, evidence
shows that both the passage of time and interference contribute to forgetting.
But neither decay theory nor interference theory can determine whether
forgotten material becomes lost to memory or just more difficult to retrieve.
Some forgotten material can be recovered if subjects are given retrieval cues
to jog their memories, such as exposure to stimuli associated with the original
situations in which the memories were formed. This brings us to a third model
of forgetting, retrieval theory.
Tulving’s cue
dependent theory of forgetting state dependent memory and forgetting
The
cue-dependent theory of forgetting (Tulving, 1975)
This theory of forgetting applies to long-term
memory, not the short-term store. It states that forgetting occurs when the
right cues are not available for memory retrieval. Tulving put forward this
theory in 1975, stating that memory is dependent on the right cues being
available, and forgetting occurs when they are absent.
Tulving’s theory
states that there are two events necessary for recall:
a memory trace (information is laid
down and retained in a store as a result of the original perception of an
event)
a retrieval cue (information present in
the individual’s cognitive environment at the time of retrieval that matches
the environment at the time of recall)
For Tulving,
forgetting is about the memory trace being intact, but memory failing because
the cognitive environment has changed. There is no appropriate cue to activate
the trace. The most noticeable experience of this cue-dependent forgetting is
the Tip of the Tongue Phenomenon
(Brown and McNeill, 1966). This refers to knowing a memory exists but being
temporarily unable to recall it.
Cues have been
differentiated into:
context-dependent cues – the situation
or context
state-dependent cues – the person’s
state or mood
Below are some
brief outlines of studies which support the cue-dependency theory…
State
(internal) Dependent Cues
The basic idea behind
state-dependent retrieval is that memory will be best when a person's physical
or psychological state is similar at encoding and retrieval. For example,
if someone tells you a joke on Saturday night after a few drinks, you'll be
more likely to remember it when you're in a similar state - at a later date
after a few more drinks. Stone cold sober on Monday morning, you'll be
more likely to forget the joke.
State Retrieval clues may be based
on state-the physical or psychological state of the person when information is
encoded and retrieved. For example, a person may be alert, tired, happy,
sad, drunk or sober when the information was encoded. They will be more
likely to retrieve the information when they are in a similar state.
Tulving and Pearlstone’s (1966) study involved external cues (e.g.
presenting category names). However, cue-dependent forgetting has also been
shown with internal cues (e.g. mood state). Information about
current mood state is often stored in the memory trace, and there is more
forgetting if the mood state at the time of retrieval is different. The notion
that there should be less forgetting when the mood state at learning and at
retrieval is the same is generally known as mood-state-dependent memory.
A study by Goodwin et al.
(1969) investigated the effect of alcohol on state-dependent
retrieval. They found that when people encoded information when drunk, they
were more likely to recall it in the same state. For example, when they hid
money and alcohol when drunk, they were unlikely to find them when sober.
However, when they were drunk again, they often discovered the hiding place.
Other studies found similar state-dependent effects when participants were
given drugs such as marijuana.
People tend to remember material better
when there is a match between their mood at learning and at retrieval. The
effects are stronger when the participants are in a positive mood than a
negative mood. They are also greater when people try to remember events having
personal relevance.
Retrieval inhibition as a theory of forgetting.
Retrieval
inhibition refers to when some sort of cognitive event or environmental
distractor reduces the probability of performance of a learning event. It may
cause encoding inhibition.
Retrieval-induced
forgetting (or RIF) is a memory phenomenon where remembering causes forgetting
of other information in memory.
Mechanisms Underlying List-Method Directed
Forgetting
Retrieval Inhibition Hypothesis
n
Forget
instructions inhibit List One items
n
Reduces
the activation of unwanted memories
n
However,
they remain available
n
Re-presenting
forgotten items restores their activation levels
n
Explains
why items can be recognized but not recalled
Context Shift Hypothesis
n
Forget
instructions mentally separate List One from List Two items
n
The
mental context (frame of mind) shifts between the lists
n
List
Two context lingers into the final test
n
The
new context is a poor retrieval cue for List One items
n
May
involve inhibition of the unwanted context
Intentional Retrieval Suppression
n
Anderson
et al. (2004)
n
Suppressing
retrieval is related to:
n
Increased
activity in control regions:
n
The
left and right lateral prefrontal cortex and the anterior cingulate cortex
n
These
regions are also involved in motor inhibition
n
Decreased
activity in the episodic memory area:
n
The
hippocampus
n
Suggests
that people can intentionally regulate hippocampal activity to disengage
recollection
n
Others
have also found significant suppression for:
n
Negative
memories
(Depue et al., 2006; 2007)
(Depue et al., 2006; 2007)
n
Faces
paired with unpleasant scenes
n
Replicated
previous neuroimaging results of Anderson et al. (2004)
n
Positive
memories
(Joormann et al., 2005)
(Joormann et al., 2005)
Motivated
Forgetting encompasses
3 kinds of forgetting:
n
Intentional Forgetting:
n
Forgetting
arising from processes initiated by a conscious goal to forget.
n
Conscious
suppression
n
Intentional
contextual shifts (avoidance of retrieval cues)
n
Psychogenic Amnesia:
n
Profound
forgetting that is psychological in origin affecting major periods of one’s
life or otherwise significant events.
n
Other Forgetting:
not accidental but also not consciously intended, such as simply
attempting to think about something else when confronted with an unpleasant
reminder, without necessarily trying to forget it.
Trace-dependent forgetting
According to the theory of
trace-dependent forgetting, the memory trace fades with time and, once
forgetting has occurred, material has been lost from the memory system. If this
theory is correct then eyewitnesses should be interviewed as soon as possible
after the crime. This theory does have some experimental support (Jenkins and
Dallcnbach 1924), but research has also shown that it is not so much time, as
what we do in this time, that is the crucial factor (Davies 1999).
According to Endel Tulving
(1974), trace-dependent forgetting and cue-dependent forgetting are the only
two major causes of forgetting. "Trace-dependent forgetting" occurs
because the memory trace has deteriorated or decayed or required information or
material has been lost from the memory system. Physiological traces in the
brain are not available at the time of recall or retrieval.
"Cue-dependent
forgetting" occurs when the memory trace still exists, but there is no
suitable retrieval cue to trigger off the memory. The information is not
accessible. It is a kind of forgetting in which the required information or
material is in the long-term memory store, but cannot be retrieved without a
suitable retrieval cue. The cues present at the time of learning are not
present at the time of recall or interfering and competing cues are present and
they block the memory. Cue-dependent or retrieval failure is the failure to
recall a memory due to missing stimuli or cues that were present at the time
the memory was encoded. It is one of the five cognitive psychology theories of
forgetting. It states that memory is sometimes temporarily forgotten purely
because it cannot be retrieved, but the proper cue can bring it to mind. The
information still exists, but without these cues, retrieval is unlikely.
Furthermore, a good retrieval cue must be consistent with the original encoding
of the information. If the sound of the word is emphasized during the encoding
process, the cue should also put emphasis on the phonetic quality of the word.
Information is available, however, just not readily available without these
cues.
Motivated
forgetting theory
Motivated
forgetting can be defined as the failure to retrieve unpleasant or threatening
memories. Motivated forgetting can be either conscious, where you simply decide
to think about other things, or unconscious. Conscious motivated forgetting has
been referred to as suppression, while unconscious motivated forgetting has
been referred to as repression.
The Motivated Forgetting theory suggests people
forget because they push unpleasant thoughts and feelings deep into their
unconscious. People may actively work to forget memories, especially those of
traumatic or disturbing events or experiences.
The two basic forms of motivated forgetting are:
|
Suppression:
|
a conscious form of forgetting
|
|
Repression:
|
an unconscious form of
forgetting
|
Physical Injury or Trauma
Anterograde amnesia is the inability to remember
events that occur after an injury or traumatic event. Retrograde amnesia is the
inability to remember events that occurred before an injury or traumatic event.
Organic Causes
Forgetting that occurs through
physiological damage to the brain is referred to as organic causes of
forgetting. These theories encompass the loss of information already retained
in long term memory or the inability to encode new information. This is
typically caused by the gradual slowing down of the central nervous system due
to aging. Examples include Alzheimer's, Amnesia, and Dementia.
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