PSYc20007 Basics of Memory: Causes of Forgetting PDF

Summary

This document presents a lecture outline and notes on the basics of memory and causes of forgetting. It discusses theories, experiments, and principles related to memory, such as the law of recency, spacing effects, and interference. The document also covers the work of Hermann Ebbinghaus, including his contributions to memory research.

Full Transcript

PSYC20007
Basics of Memory:
Causes of Forgetting
Adam Osth
 Outline for the coming
weeks
Lecture 1: Basics of memory/forgetting
– What leads to better memory? What causes us
to forget things?
Lecture 2: False memory
– Why do we remember things incorrectly?
Lecture 3: Language
– How do we study language in the lab? How is
memory for language different than memory
for other things?
Lecture 4: Judgment and decision making
– How do we make decisions? How are they
influenced by what we remember?
 In the beginning!
Hermann Ebbinghaus
– First experimental
psychologist of memory
– Had subjects study list
of nonsense trigrams:
consonant-vowel-
consonant
E.g., ”teg”, “raz”, “fip”
 In the beginning!
– Many findings from Ebbinghaus’s
experiments
Spacing effects: repetitions more
effective if you space them out over
time rather than mass them
consecutively
– Presenting A-B-C-A-B-C-A-B-C is more
effective for learning than A-A-A-B-B-B-C-
C-C
– Practicing piano one hour each day is
better than seven hours on one day
List length effects: Worse memory
when you study longer lists versus
shorter lists
Forgetting curve: the shape of how
memory declines over time
The Forgetting Curve
 Ebbinghaus’s contributions
Ebbinghaus established the experimental
tradition of memory
– Presenting randomized lists of “non-meaningful”
stimuli to participants under controlled conditions
– Control for exposure duration, retention interval,
etc.
Can more precisely understand what leads to
better/worse memory
– Various reasons why something is not remembered!
Lack of attention to the stimulus when learning, inability
to locate the memory at retrieval, etc.
Many phenomena he discovered have
replicated and are still of focus today
The Laws of Memory
 What is a law?
Invariance or regularity in data
They do exist in psychology!
– The law of practice
Performance improves as a logarithmic function of
practice
– The Yerkes-Dodson law
Performance is an inverted-U shaped function of arousal
Theories and laws are not the same thing!
– A law states a regularity in data or the natural
world
– A theory provides an explanatory framework for
phenomena (and sometimes laws) in the natural
world
 The Laws of Memory
Kahana, Diamond, and Aka (2023)
recently collected a number of laws
on what affects memory
Law of Recency
– Recent information is almost always
better remembered than older
information
– The recency function is non-linear: older
information decays at a slower rate than
newer information
 Law of Recency
Recency Non-linear
advantages forgetting:
observed at short older information
time scales- decays at a
better slower rate
performance with
shorter delays
 Law of Recency
Recency advantages observed at long
time scales too!
 The Laws of
Memory
The Law of Primacy
– Better memory for items
that were start of a
sequence
– Most commonly observed in
lists, but can also be
observed during event
changes
Murdock and Carey (1972):
changes in modality (from
auditory to visual) induce
primacy effects at the change
 The Law of Repetition
Memories improve with repetition
…but some repetitions help more
than others!
– Memory improves the most with spaced
repetition
Massed repetition is when repetitions occur
consecutively (e.g., A-A-A-B-B-B-C-C-C)
Spacing the repetitions out over items
almost always results in better memory
(e.g., A-B-C-A-B-C-A-B-C)
 The Law of Repetition

The x-axis refers
to the number of
items between the
repetition

Data from
Glenberg (1976)
 The Law of Repetition
An implication of the spacing effect
– Better to practice piano one hour a day then
seven hours on one day
– Better to study a bit each day then cram
before the test
…then why do I do well on the test when I
cram?
– Peterson paradox: spaced repetitions perform
WORSE than massed repetitions for a short
delay
– …but perform better after a long delay!
 The Law of Repetition
Slightly better performance for
massed items with a very short Massive
delay advantage
for spaced
condition in
the longer
delay
condition

Spaced
repetition s
promote
better long
Data from Peterson et al. term
(1972) learning!
 The Law of Repetition
Testing improves memory
above and beyond re-
learning
– E.g., if you study and test
on a set of items, you see
better memory than if you
studied the same material
twice
– Similar to spacing effects,
these effects are the
strongest after a delay Data from
Sometimes there is a benefit Roediger and
to repeated study at very Karpicke (2006)
short delays
 The science of how
repetitions benefit
memory has been found
to replicate with
classroom materials
(Roediger & Karpicke,
2006)
– The benefits of spacing and
testing have been used as
recommendations to both
educators and students to
improve memory
Does a *negative* occurrence of any
of these phenomena refute the law?
Even in physics, no law is
consistently observed in each and
every case
– Newton’s laws (classical mechanics)
break down at the quantum level
– Some laws are not observed because of
some other influence
The fact that planes or leaves float in the air
doesn’t violate the law of gravity
Forgetting
 How can forgetting occur?
Forgetting can be due to either encoding
failure or retrieval failure
– Encoding failure: you never learned what you
need to remember in the first place
E.g., someone tells you you need to pick up groceries
while you’re texting someone else
– Retrieval failure: you initially learned the
material, but you were unable to retrieve it at a
later time
E.g., you might have trouble remembering an old
password or an old phone number, but you definitely
learned it initially
 But why does forgetting
occur?
Four possible theories of retrieval
failure:
– Decay theory
– Interference theory
– Consolidation theory
– Inhibition theory
 Decay Theory
Stored memories fade over
time
– Brown-Peterson paradigm:
Subjects learn trigram, count
backwards by seven for a
period of time
Counting backwards by 7 was to
prevent participants from
rehearsing the material
– Rehearsal can keep memories active
and overcome the influence of
decay
Almost no memory after ~20
seconds
 Interference Theory
Started with John McGeoch (1932) – claimed
that decay theory is conceptually flawed
– Iron rusts over time, yet it is not time itself that
degrades it
– With memory, forgetting occurs because over
time there is more interfering mental
activity
Specifically, forgetting occurs because there
is competition between things we are
attempting to remember
– There is greater competition as we learn more!
 Interference Theory
Why is there competition?
– When we learn, we associate things
together
E.g., associating a name to a face!
– When presented with one of those things in
isolation (the cue), we can recall the
associate
When we see someone’s face, we can remember
their name
When presented with someone’s name, we can
remember their face
– The more associations there are, the harder
it is to remember things!
 SHAME

X-MEN FIRST
CLASS

Michael PROMETHEU
Fassbender
S
When we learn, we
form associations
between what we are
experiencing – these
can vary in strength
 Memory prompt:
What movies was
Michael Fassbender
in?

We are most likely to
remember the movie
that has the strongest
Michael
Fassbender association
(e.g., X-Men First Class)
 ADAPTATION

MARVIN’S ROOM

LITTLE WOMEN

MANHATTAN

THE FANTASTIC MR
Meryl Streep FOX

MAMMA MIA

THE RIVER WILD
 When there are many
more associations, it
becomes harder to
remember a particular
associate!

e.g., a list length effect
Meryl Streep
 Interference and lockdown!
Interference theory can
even explain why
lockdowns impair
memory
– We are associating what
we learn to the same
cues! E.g., our house, our
surroundings
– This makes it harder to
remember particular
things
– https://
theconversation.com
/how-the-groundhog-day-
grind-of-lockdown-scrambl
es-your-memory-and-sens
 What is interference?
More associations to a cue, the harder
it is to retrieve the correct memory
– Inability to retrieve new associates can be
because of interference from older ones
This is proactive interference
– Inability to retrieve old associates can be
because of interference from newer ones
This is retroactive interference
– Ideas about interference were directly
lifted from animal learning (e.g., classical
and operant conditioning)
 Interference in Lab Studies
AB-CD paradigm
– Two lists of items with no overlapping
associations
– During the memory test, subjects
presented with a cue (e.g., “dog” or
“hope”) and asked to retrieve the
associate
List 1 List 2
dog – king car - bottle
plant – butter hope - sock
box - rug fire - fence
 Interference in Lab Studies
AB-AC paradigm
– Second list shares the same cues as the
first
– Worse performance on List 2 items
compared to the AB-CD condition (this is
proactive interference)
List 2 cues can produce either List 2 targets
List 1 1 targets
or List List 2
dog – king dog - bottle
plant – butter plant - sock
box - rug box - fence
 Interference in Lab Studies
Decay theory has difficulty explaining
why performance in AB-CD lists is
better than AB-AC lists
Interference theory:
– Performance on AB-AC lists is worse due
to response competition
– When the A cue is presented, both B and
C compete to be retrieved in AB-AC lists
– No competition is present in AB-CD lists
What about decay from short-term
memory?
Re-analysis of all Brown-Peterson
results by Underwood (1957)
– Huge variation in how much material
was forgotten over time
– Big predictor of forgetting: Number of
previous experimental trials
More trials = poorer performance
Underwood’s interpretation: Subjects suffer
from proactive interference from previous
trials
What about decay from short-term
memory?
Almost no forgetting over 20 seconds
in the first trial (Keppel & Underwood,
1962)
– Memory quickly gets worse after that
 So what’s happening in these
experiments?
– Previously learned stimuli cause
interference at retrieval
Learning more consonants makes it harder
to retrieve what you just learned
– So what if the stimulus type is switched?
Interference theory predicts performance
should improve
Release from Proactive Interference:
Wickens, Born, and Allen (1963)
Switching the
stimulus type
causes big
improvement in
performance
– Digits to letters, or
letters to digits
– New category hasn’t
Change in stimulus
been learned, so it type on the fourth
should suffer less trial in the
experimental
interference condition
Release from Proactive Interference:
Wickens, Born, and Allen (1963)
Many manipulations cause release from
PI
– Changing modality (auditory to visual),
changing semantic category (e.g., fruits to
occupations), changing part of speech,
etc.
No obvious decay explanation of these
results!
Even short-term memory is believed to
be affected by interference
Consolidation Theory
 Consolidation Theory
Learned memories are in one of two
states:
– Perseveration period: Memories are
vulnerable
– Consolidation phase: Memories that
survive the perseverated phase are
permanently stored and won’t be
forgotten
If consolidation does not occur, the memory
will be forgotten
 Three predictions
1. Protecting memories during
perseveration should enhance
consolidation and prevent forgetting
– This is true: Mental inactivity following
learning leads to better memory
This is often tested by varying the length of
time between two lists of items
List 1 List 2

Time
List 1 List 2

List 1 List 2

Time
List 1 List 2

Better
List 1 List 2 memory
Greater for List 1
time due to
between studying
the two
lists List 2 at a
later time
Time
– Going to sleep after learning leads to
better memory than being awake (Jenkins
& Dallenbach, 1924)
Mental activity while awake prevents
consolidation
 2. Interrupted perseveration should
prevent consolidation and prevent
memory from being stored
– In other words: Interruption after
consolidation occurs won’t impair
memory, but interruption before
consolidation should
– This is confirmed by studies on
retrograde amnesia
 Retrograde Amnesia
Loss of past memories after some
trauma
– Hippocampal amnesics such as H. M.: loss of
~3-5 years of most recent memories
– Consolidation view: These memories were
lost because they were not consolidated
Lab studies: Induced retrograde amnesia
shows similar effects
– Electroconvulsive shock (ECS)
– Removal of the hippocampus
– Longer the delay between
learning and ECS, the
better the memory (Duncan,
1949)
Control rats received no ECS
When ECS given one hour
after learning, rats perform as
well as controls
– Same applies to removal of
the hippocampus
Longer delay between
learning and lesion, the
better the memory
 3. If consolidation is prevented, the
memory is not stored and
remembering should be impossible
– If you re-test memories forgotten after
ECS, they should not be remembered
– ECS study (Quartermaine, McEwen, &
Azmitia, 1972) - Varied delay of testing
after ECS was administered
When tested soon after ECS, no memory of
learned responses
When tested 72 hours after, rats exhibited
memory
This does not fit with the predictions of
consolidation theory
– Forgotten memories should stay forgotten
 More on forgetting…
Some memories never seem to get
forgotten
– Bahrick and colleagues:
Foreign language courses: Virtually no
forgetting from 3 to 50 years
80-90% recognition of HS
classmates 50 years later
 Which theory is right?
There are a lot of hybrid theories
– Consolidation + interference:
Consolidation process protects older
memories from interference
Consolidation involves exporting memories
from the hippocampus to the cerebral cortex
 The shape of the forgetting
function
Mathematical form of
forgetting contributes to
the debate
– Forgetting is non-linear with
respect to time
Linear forgetting would
imply the same amount of
information is lost with each
unit in time
Instead…
– A lot of forgetting happens
quickly
– Less forgetting happens as
time continues
 The shape of the forgetting
function
– Specific functions:
Exponential function:
– Implies that loss is a
fixed proportion for each
unit of time
– Example: if 50% of items
are forgotten in the first
hour, we will expect 50%
of the remaining items to
be forgotten on the next
hour
– Most decay functions in
nature are exponential:
radioactive decay, leak
from a bucket, etc
The shape of the forgetting
function
Power function:
– Forgetting described by
the amount of time
raised to a power
– Power functions imply
that the proportional loss
decreases with respect
to time
– In other words, if 50% of
items are forgotten on
the first hour, we might
expect 40% of the
remaining items to be
lost on the next hour,
30% on the hour after
that, etc
 The shape of the forgetting
function
The data overwhelmingly
support a power function
(Rubin & Wenzel, 1996)
Question: what causes
forgetting to slow with
time?
– Wixted (2004) has argued
that forgetting is driven by
interference, but as time
progresses, memories are
more likely to be
consolidated, which slows
forgetting
But do all of these findings require
a consolidation explanation?
Better memory when there is a rest
between two lists argued to support
consolidation theory
Ecker, Tay, and Lewandowsky (2015):
– There is similarly better memory for a
given list when there is greater rest
BEFORE a list
– Not consistent with a consolidation
explanation – consolidation can only
occur after learning!
 Better memory for
longer post-study
rest

Data from Ecker et al.
(2015)
 Better
memory for
longer pre-
study rest

Data from Ecker et al.
(2015)
 So what explains these
results?
Ecker et al. (2015) argue these results
support a modified interference theory
based on temporal context
– Interference between items depends on
how close they were studied in time
– More interference from items that were
studied closer in time to each other
– Pre-study and post-study rest produce
greater separation between lists, and this
leads to less interference between them
List 1 List 2
When lists
of items
are
separated
List 1 List 2 in time,
Greater
time
they are
between less likely
the two to
lists
interfere
Time with each
other
Inhibition theory emerges
 Inhibition Theory
Inhibition theory emerged in the
1990’s, when most researchers
subscribed to interference theory
It began with the discovery of
retrieval-induced forgetting
(Anderson, Bjork, & Bjork, 1994)
– Remembering can cause forgetting!
 The RIF Paradigm
Three phase design:
– Study phase: learning pairs of categories and exemplars
– Retrieval practice: test some of the studied exemplars
from some of the categories
– Test phase on all of the initial category-exemplar
pairings
Rp+ items: practiced items from practiced categories
Rp- items: non-practiced items from practiced categories
Nrp items: non-practiced items from non-practiced
categories
– These basically function as a control condition

– We expect Rp+ items to do best – they were practiced!
– RIF is evident if Rp- items perform worse than Nrp items
 STUDY PHASE
Category Exemplars
cue

fruit – orange
fruit – apple
fruit – banana
fruit - pomegranate
vehicle – motorcycle
vehicle - train
vehicle - truck
vehicle - rickshaw
 RETRIEVAL PRACTICE

Some, but Not all
not all, categories
fruit – o___e are
exemplars
fruit – b_n__a practiced!
from some
categories “Vehicle” is
are not
practiced practiced
here
 TEST PHASE

fruit – ___nge
fruit – _pp__
fruit – ___ana
fruit – p_______ate
vehicle – m______le
vehicle – t___n
vehicle – tru__
vehicle - ______aw
 TEST PHASE

Rp+ items: fruit – ___nge
these were fruit – _pp__
practiced fruit – ___ana
earlier! fruit – p_______ate
vehicle – m______le
vehicle – t___n
vehicle – tru__
vehicle - ______aw
 TEST PHASE

Rp- items:
these come fruit – ___nge
from a fruit – _pp__
practiced
fruit – ___ana
category
(fruit) but the fruit – p_______ate
items vehicle – m______le
(“apple” and vehicle – t___n
“pomegranat vehicle – tru__
e”) were not vehicle - ______aw
practiced
earlier
 TEST PHASE

fruit – ___nge
Nrp items: fruit – _pp__
neither the fruit – ___ana
exemplars or fruit – p_______ate
the
vehicle – m______le
categories
were
vehicle – t___n
practiced vehicle – tru__
vehicle - ______aw
Benefits of retrieval practice – Rp+
items perform better than Nrp
(control) items which were not
practiced
RIF effect: impairment of
recall due to retrieval practice
 Inhibition Theory
Anderson, Bjork, and Bjork (1994)
argued that RIF provides evidence
that forgetting is due to inhibition
– When attempting to remember an item,
other items from the same category are
inhibited or suppressed
E.g., when cued with FRUIT and ORANGE is
retrieved, other exemplars (BANANA and
POMEGRANATE) are inhibited and it’s more
difficult to retrieve them
 Wait a minute…
Can’t these results be explained by
interference?
– Practicing some category members
strengthens the association between
them
– This makes it harder to recall other
exemplars from the category
– Maybe other category members aren’t
actually weakened by retrieval?
 ORANGE

BANANA

POMEGRANATE
FRUIT
GRAPES

BLUEBERRIES

APPLE
Stronger association
makes it such that ORANGE
“ORANGE” will be
recalled at the expense
of other fruits when BANANA
FRUIT is used as a cue

POMEGRANATE
FRUIT
GRAPES

BLUEBERRIES

APPLE
 Interference Dependence of
Inhibition Theory
Anderson et al. (1994) tested
between the predictions of
interference theory and inhibition
theory
– Unique prediction of inhibition theory:
interference dependence of RIF
Strong competitors during retrieval practice
are suppressed and should exhibit large RIF
effects
Weak competitors do not need to be
suppressed!
 Orange comes to ORANGE
mind because of
the strong
association, but it
mismatches the BANANA
”B” cue…

POMEGRANATE
FRUIT
B_____ GRAPES

BLUEBERRIES

APPLE
 Orange is ORANGE
suppressed –
this makes it
easier to recall BANANA
BANANA

POMEGRANATE
FRUIT
B_____ GRAPES BLUEBERRIE
S is unlikely
to come to
mind, so it
BLUEBERRIES
doesn’t need
to be
suppressed
APPLE
 Interference Dependence of
Inhibition Theory
Anderson et al. (1994): categories had
WEAK and STRONG associations to the cues
– Key prediction of inhibition theory: STRONG Rp-
exemplars should show the strongest RIF
effects
These should come to mind during retrieval
practice, and require suppression
– WEAK Rp- exemplars should show almost no
RIF effects
They do not intrude during retrieval practice – they
don’t need to be suppressed!
Zero on
the y-
axis RIF
means present
*no for
differenc
negative
e
between values:
NRP and RP-
RP- items items
(no RIF) are
worse
than
Only Strong RP- items suffer NRP
from retrieval induced items
 Cue Independence of Inhibition
Theory
In interference theory, forgetting is cue-
dependent
– More associations to a cue, the harder it is
to remember something!
Inhibition theory: cue-independence
assumption of RIF
– When an item is suppressed, it’s harder to
remember regardless of the cue
– Critical prediction: retrieval-induced
forgetting should also be evident with novel
cues
 Cue Independence of Inhibition
Theory
Anderson and Spellman (1995): tested the
cue independence assumption
– Retrieval practice with categories and cues
(e.g., FRUIT-APPLE)
– Two test conditions:
Standard test conditions with the categories before
(FRUIT-APPLE)
Novel cue condition: retrieve APPLE with RED as a
cue
– Confirmation of the cue independence
assumption:
Worse recall for RED-APPLE after retrieval practice!
 Retrieval Dependence
Assumption
In inhibition theory, items are suppressed
due to the competition that emerges at
retrieval
If there is no retrieval competition, there
should be no RIF (retrieval dependence
assumption)
– Tested by Anderson, Bjork, and Bjork (2000)
Restudying does not cause RIF
Exemplars cuing their own category does not cause
RIF
– F____ - APPLE
– Apple can cue FRUIT without competition from other
categories in the experiment
 Is inhibition theory correct?
It’s still controversial! Raaijmakers and Jakab
(2012) offered a critical review
– Interference dependence assumption
Has not generally replicated (Williams & Zacks, 2001)
Did not generalize to other kinds of strengthening
operations, such as repetition (Jakab & Raaijmakers,
2009)
– Strong RP- items were repeated, weak RP- items non-repeated
– RIF was observed for both strong and weak items, consistent
with interference theory
– Similar replication failures for cue independence
and retrieval dependence
 Current State of the Field
What causes forgetting is still not
completely resolved!
– General consensus that interference takes
place
– Lack of consensus on the precise role that
other factors take
Various researchers believe that decay,
inhibition, or consolidation operate in
conjunction with interference
Decay still places a role in theories of short-term
memory
 Current State of the Field
Why hasn’t this been resolved?
– Difficult question to answer!
– Limited data: experiments only provide a
short snapshot into the mechanisms of
memory
~45 minutes of data from a limited sample of
participants
– Limited brain recording techniques
Mechanisms of memory formation cannot be
directly observed in humans without invasive
surgery
Current State of the Field
– Computational modeling of memory is
still in its infancy
One could conceivably build a model with
various mechanisms (interference, decay,
inhibition, and consolidation) and measure
their respective influences
Computational models can also address
these influences across a range of different
memory tasks, rather than just a single task
 Learning Outcomes
Understand the laws of memory
Understand the decay theory of forgetting and the
evidence to support it
Understand the mechanisms of interference theory
– Understand the conditions under which interference
theory predicts that memory should be better or worse,
and how these differ from decay theory
Understand the mechanisms of consolidation theory
and the data that were used to support its
predictions
Understand the different forgetting functions and
their implications for psychological theories of
forgetting
 Learning Outcomes
Understand inhibition theory and the
details of the paradigm used to test
it (RIF)
– Understand how RIF is measured in the
paradigm
– Understand the various RIF predictions
that were used to support inhibition
theory over interference theory
 Next week:
False memory and its
implications!