Life-Span Developmental Psychology Lecture 3 PDF

Summary

This document is a lecture on lifespan developmental psychology, focusing on the various aspects that shape a person's development from infancy to adulthood. The lecture discusses topics including body growth and health, genetics, environment, and the principles of growth. It provides a comprehensive overview of the critical periods during development, highlighting the influence of both nature and nurture factors on human development.

Full Transcript

Life-span Developmental Psychology

Lecture 3
 Why does this lecture matter to me?

Fifteen-year-old Zack is catching up in physical growth with his female
classmates. His mother complains about his need for new, larger
shoes every month, despite his clothes still fitting in size (albeit not in
style). Seeing himself as unsuitable for physical competitions and
more academically inclined, Zack believes it is more beneficial for him
to focus on studying. He is increasingly puzzled by the recent
recommendation from the education bureau to play badminton to
address sexual urges, even as he becomes more aware of these
bodily changes.

A lot has been happening in Zack's family. His grandmother just
passed away at the remarkable age of 90, prompting him to reflect on
his family's tendency towards longevity. At the same time, his 86-year-
old grandpa has been diagnosed with macular degeneration and
hearing loss. He is also having a problem with the domestic helper,
particularly on how bland the meals she cook. On the bright side,
amidst these changes, Zack now has a new little cousin to welcome,
sparking his search for the perfect gift for the newborn.
There is a strong genetic influence in height—> given that u have the potential

Body growth and health
Genetics
– Inherited disease (e.g., celiac disease, endocrine disorders that affect
growth hormone production)
Environment
– Diet, SES, parks in the neighborhood, social values, policy

What could have caused these
racial and temporal differences in
height?
Declines in levels of sex hormones are associated with menopause

estrogen : development of the breasts, pubic hair, and female sex organs and
for the control of menstrual cycles throughout a woman’s reproductive years

the endocrine glands secrete the hormones directly to the bloodstream

Mother with thyroid deficiency during pregnant may affect the intellectual
development of child
 Principles of Growth

Cephalocaudal principle
– From head to toe
Head —> trunk—>leg

Proximodistal principle
chest and internal organs are formed before arms, hands etc. during prenatal period
– From core to periphery
– Now quite the same for teenagers
like Zack

Orthogenetic principle
– From simple, general to complex,
differentiated
Development starts globally and undifferentiated and move toward
increasing differentiation and hierarchical integration
e.g a single cell(during conception) —> differentiate into
specialised cells
 Toddlers experience a vocabulary spurt following a period of rapid myelination of those parts of the brain involved in language
development

The Infant’s Brain
myelination development also affects attention span
Much development taken after birth

myelination within the prefrontal lobes during adolescence.
Neurons are useless unless they are connected

Neurons are ineffective if their connections are a mess
removal of unnecessary synapses
Synaptogenesis and synaptic pruning

An enriched environment tells the brain what it needs and what it doesn’t
(e.g., pruning and language acquisition)
grey matter : involved in information process

Great Plasticity in the Child’s Brain

Disadvantage – everything is so not
ready
Highly vulnerable to damage if it is exposed to drugs or diseases/
deprived of sensory and motor experiences

Advantage – you can adapt and learn;
environmental input is important
Can recover successfully from injuries

Structural neglect in institutional care
(van Ijzendoorn et al., 2011)
– Minimum physical resources
– Unstable staffing patterns
– Inadequate caregiver-child interactions
The critical/sensitive period for brain development : the time when it proceeds most rapidly—> during the late prenatal
period and early infancy
7
A life-span developmental model of health:
lifelong process as it’s influenced by personal choices over life
span
determined by both genetic and environmental influences
multidimensional (physical, mental, social)
involve both gains and losses
social historical context (socioeconomic status)

congenital malformations : defects that are present at birth —>Down
syndrome/ cleft palates
health during infancy starts well before birth with prenatal care

accident, nutrition and physical activity levels (which are influenced by
socio-economic status)influence children’s health and wellness

Obesity may also affects the brain function through metabolic syndrome (MeTS and lead to
cognitive deficit (permanent or temporary))
heridity
poor eating habits
inactivity
parental behaviours

teens do not get enough sleep : decreased motivation
teens who sleep less a night or stay up later on the weekends —> report higher levels of
depression, irritability and lack of tolerance for frustration
 The Infant’s Rapid Growth

By age 2, most infants attain half of their eventual adult height
– But the growth is saltatory (Lampl & Thompson, 2007)

Bones – to be ossified
– Wrist bones, fontanelles

Muscles – gaining strength

Behavior – from reflexes to autonomous actions
 Survival reflexes (hv adaptive values): breathing/ eye-blink reflexes

These reflexes prepare infants to react to the world and
developing autonomous behavior
Many of these reflexes are expected to disappear in the first
two years.
REM sleep important for learning and memory processes—> learn and rob new information

these are called primitive reflexes

Grasping reflex Babinski Reflex
9
 asymmetry and specialisation of functions of the two hemispheres of the cerebral cortex

Lateralization of Brain Functions
If one hemisphere is damaged, it may be possible for the other hemisphere to take over the functions lost

Lateralization evident at birth – e.g., hand preference

Lateralization of brain functions in childhood
– Language acquisition and proficiency

Hemispheric lateralization is relative, and the child’s brain is
still very plastic Control the right side of the body Control the left side of the body

– Girl who survived a hemispherectomy

understanding spatial
information and processing
visual-motor information
+emotional content
10 of
information
 Cross-cultural comparison of motor skills
Chow, Henderson & Barnet (2001)

Comparing motor skills of preschoolers
(4 – 6 years) from HK and US

HK preschoolers outperformed the US
counterparts in fine motor skills with
the dominant hand

▪ No such difference for the non-dominant hand

11
 Health and Wellness
An ecological analysis of factors on health
and wellness

Genetic make-up (recall epigenetic effect of
high-fat diet)

Nutrition
– Food affordability
– Parents’ education level
– School’s involvement

Physical activity (brain food)
– Screen time
CDC’s recommendation – more than 60
– Physical education at school
minutes of moderate or vigorous physical
– Safe parks in the neighborhood activities (MVPA) every day for children
– Temperaments (active vs. sedentary) ages 6 through 17
Physical activity enhances cognitive and psychological functioning
 What about Hong Kong (2018)?
http://www.activehealthykidshongkong.com.hk/en/report_card/2018/Ov
erall_Physical_Activity.asp
puberty—the processes of biological change that result in an individual’s attaining sexual maturity and becoming capable of producing a child.

Grey matter maturation during adolescence
the volume of grey matter increases, peaks, and then decreases throughout the teen years
– An inverted U curve
– Unconnected/ unused neurons are pruned and replaced by
myelinated axons (white matter – linearly increasing)
– More efficient information processing

Family situations can also affect the timing of puberty, girl
experience earlier puberty when their family is disrupted by
separation of divorce

Hypersensitive reward system (limbic system) and a lagging-
behind regulatory system (prefrontal cortex)
– Risk-taking behaivor
1. part of the brain that involved in regulating self-control has not yet
matured
2. Ushers in a period of increased responsiveness to rewards
physical and sexual maturation : processes set In motion by the genes and executed by ormones

Growth in Adolescence
it’s triggered by an increase in the level of growth hormones
Growth spurt
– Gender difference
– Muscle-fat ratio difference
– Reverse of the proximal-distal trend
height

bc industrialised societies have better nutrition and
advances in medical care ,higher rates of obesity ad
exposure to a wide array of chemicals that alter the
hormone production
Sexual maturation
– Adrenarche, menarche, semenarche
(see slide #4) These are hormones
– Development of primary and
secondary sexual characteristics
– The secular trend
The historical trend in industrialised societies
toward earlier maturation and greater body size
 Psychological implications of
body changes in puberty
Girls – early development can be stressful: self-consciousness,
low activity level, distorted body image

Boys – early development is welcome (physical advantages
over smaller kids)

Early versus late development

– Early-maturing boys report better adjustment

– Early-maturing girls experience more adjustment problems (e.g.,
anxiety and mood disorders)
late-maturing boys and early-maturing girls are especially likely to find the adolescent period disruptive
 Cultural experience shape your brain function and brain structure

The Adult

The adult brain is still developing
– Fewer neurons
– (Slower) neurogenesis
– Lower plasticity
– Harder recovery from brain traumas

Elderly adults may end up with 5–30%
fewer neurons than early adulthood
noraml aging is associated with gradual and relatively mild
degeneration with the nerves system — some loss of neurons (greater
in areas of brain that control sensory and motor activities)
Use it or lose it - Protective roles of
physical and mental exercises
The againg brain may compensate for losses by increased activity in the
prefrontal cortex—> older adults may be able to maintain useful
cognitive functioning for a longer period of time
 Reproductive system
menopause had no effect on the women’s levels of anxiety, anger, perceived stress, or job
dissatisfaction.

The effect of menopause is colored by the meaning it has for the woman, as influenced by her
society’s prevailing views of menopause and by her own personal characteristics.

From sexual activity to inactivity
– Decline in sex hormones (slide #4)

can be predicted by a hormone called anti-Mullerian hormone
– Menopause for women
No longer capable to conceive a child
Ending of menstrual cycles
Hot flashes Sudden experience of warmth and sweating and follow by cold shiver
Hormone replacement therapy and possible side effects
by taking oestrogen and progestin compensate for hormones loss at menopause but it shattered in 2002 bc it increase
the chances of developing breast cancer and experiencing heart attacks and strokes

– Andropause for men
decreasing levels of testerone
Lower libido, erection problems
fatigue and lack of energy, memory problems
erectile dysfunction : caused by medical conditions such as diabetes and not by lower
hormone production
 premenstural syndrome (PMS)
bloating, moodiness, breast tenderness and headache during or the days before the
menstrual flow
premenstrual dysphoric disorder : physical symptoms that associated with the
menstrual cycle —> disabling —> disrupting work and relationships

programmed theories of aging : aging follows a predictable genetic timetable ; damage or error
theories of aging

maximum life span : a ceiling on the number of years taht anyone lives
Hayflick limit : cells from human embryos could divide only a certain number of times -->
telomeres : stretches of DNA that form the tips of chromosomes and that shorten with every
cell division--> make cells unable to replicate and causes them to malfunction and die (caused
by chronic stress such as that involved in caring for an ill child or a parent with dementia)

how to live longer ？ reserachers have established
that the enzyme telomerase can be used to prevent the telomeres
from shortening and thus keep cells replicating and working lon-
ger; telomerase treatments could backfire, however, if they also
make cancerous cells multiply more rapidly

an individual’s genetic makeup, combined with environmental factors, influences how rapidly
he ages and how long he lives compared with other humans.

damage or error theories : an accumulation of random damage to cells and organs over the
years--> death --> biological aging is about random damage

leading error theory : free radicals : toxic and chemically unstable by-products of metabolism --
> reactive with and damaging to other molecules in the body --> cells the function improperly
or cease to function --> organism eventually dies

Antioxidants : vitamin E and C --> prevent age-related diseases

nature and nurture conspiring
aging and dying are as much a part of nature's plan

**neither of these broad theories of aging has proved to be the explanation
**biological and environmental factors interact ti bring about aging and dying --> to produve
development

successful aging
being free of diseases that limit physical and metal skills (free of disease)
healthuer group of older man hardly differed frim the younger men
aging in the absense of disease had little effect on physiccal and psychological functioning
level of education affected longevity and health (qith a college degree lived longer )
physically and mentally active lived longer and healthier
those who uses complex vocabulary lived longer too
both physical and mental activity along with a positive attitude, can help slow the effectsof
aging on both body and brain
our health and well being are influenced by an interaction of environmental and genetic factors
Osteoarthritis : common joint problem that results from gradual deterioration of the
cartilage thtat cushions the bones from rubbing against one another

Health and Wellness

Common chronic impairments in >70 yo
individuals
– Sensory loss
– Arthritis 43% of elderly men; 54% of elderly
women
– Hypertension
– Degenerative disease
a disease in which a serious loss of minerals levaes ythe bones
fragile and easily fractured
Osteoporosis
– Older women more vulnerable
– Exercising (use it or lose it) can make a huge
difference to middle-aged adults
reserve capacity of many organ systems

why do we age or die : programmed theories of aging propose that aging follows a
predictable genetic timetable : damage or error theories of aging
sensation : process by which sensory receptor neurons detect information and transmit it to the brain
perception (the interpretation of sensory input) : recognising what you see and understanding what is said to you

Sensation Perception Action
Neural development sets the foundation for these functions, which are
interconnected to each other

Three approaches
– Constructivists – we learn to perceive
– Nativists – we are born to perceive
– Ecological approach
The environment presents affordances to us
= what it has to offer us and how it might be used by us
Perception depends on what the environment afford, and how we can
react to it
perception drives action --> perception provides us with valuable information about what objects in
the environment afford

scenario : when a round object is coming toward us
--> the object affords : the prospect of getting hit in the face if we do not take some action
Think – What different affordances does a
wall have on a 6-month-old, 12-month-
old, a gecko, and a ghost
constructivists : perceptions of the world are constructed over time through learning , and we
come equipped at birth with functioning sensory systems. But understaning the input coming
through our senses requrires interacting with environment and figure out what those
sensations mean

nativists : perception is not created by interpreting external input, innate capabilities and
maturational programs are the. driving forces in perceptual development. They do not need
experience to learn how to interpret different retinal images cat by the same object at different
distances. The brain automatically undersatnds the meaning of different retinal images created
as we move about our world--> it does not require interpretation

Gibson's ecological theory : proposes that information important for perception is readily and
directly avaliable in the environment : in the to-be-perceived objects

contructivists : information needed to interpret
ecological approach : the information needed to interpret is avaliable in the current situation
Testing the senses of infants
at birth, newborns' visual acuity, or the ability to perceive detail is 40 times worse than an adult's but improves across
the first month of life --> bc of limitations in visual accomodation : the ability of the lens of the eye to change shape to
bring objects at different distances into focus. (it takes 6months to 1 year to see well as adults)

Preferential looking
Habitation/ dishabituation
habituation technique : the same stimulus is rrepeatedly presented until the infant grows bored
with what has become familiar and disengages Researchers can measure how long (e.g., how
many trials) until an infant becomes bored. They can also measure how distinct a second, new
stimulus needs to be in order to recapture the infant’s attention.

Operant conditioning 4 months old can be able to distinguish diff shades of the same color
infants are able to see what they need to see, a conclusion consistent with Gibson's ecological
approach
Ecological validity of visual patterns1 month
to 1-month-
old : focus on the outer contours
old and a 6-month-old infants + gaze stuck on the same object
2 months old : explore the interiors of
infants are able to orgnaise and impose order ton visual scenes figures thoroughly + able to shift focus
3 months old : form perception : recognise
the patternthat constitue an object

Infant toys are all very colorful, yet the
patterns tend to have high contrast, large
shapes, and rather simple patterns.

common motion : all parts of an object moves in the same
direction --> define wholeness

23
 Infants have an innate preference for top-heavy
stimuli, or face-like stimuli (why?)

One-month-olds and two-month-olds show a big
difference of visual attention, with the latter seemingly
Top-heavy more interested in interior features of a shape (e.g.,
stimulus facial details)
infants tend to :
pay attention to patterns that have large light-dark
transition or contour
interested in displays taht are dynamic
attracted to patterns that are moderately complex/
clear pattern
Bottom-heavy
stimulus
young infants prefer to look at whatever they can see well (eyes are small and neuron receptors
are immature )

infants prefer to look at schematic drawings of faces >patterned stimuli/ more visual tracking
have information in their upper visual field are more attracted

Undifferentiated
stimulus

infants making sense of the world in motion
 Depth Perception
size constancy (4months old) : they regconize that an object is of the same size despite changes in its
distance from the eyes

Depth perception
– Kinetic cues (3 months)
– Binocular cues and size constancy (4 months)
– Monocular cues (5 to 7 months)
infants recognise the size of an object even when the onject is presented at
different distances and produce different images on the retina

Visual cliff
– Consistent avoidance of the cliff for crawlers
(~6.5 months), but not necessarily fear
– Responses can be regulated by social
references provided by caregivers

slower heart rate is a sign of interest --> on the deep side
2 months old perceived a difference between the deep and shallow sides of the visual cliff but they have not25
yet
learned to fear drop-offs
 Infants’ Physics – Are infants born with physical knowledge?
yes , 4-month-olds watching a moving object disappear behind the
left side of a screen seem to expect to see the object reappear from
the right side of the screen (Bremner et al., 2005). And 4-month-
olds are also surprised when a wide object disappears into a narrow
container

Constructivism vs. Nativism

Intuitive theories – infants seem to
distinguish between possible and
impossible events early on
they come equipped with organised systems of knowledge

Babies as young as 4 months seem
to be startled by the inconsistent/
impossible event

https://www.youtube.com/watch?v=hwgo2O5Vk_g
 audition plays a powerful role in initiating infants into a social world

Hearing
better than seeing
Hearing is well developed
since birth, with signs of
prenatal learning of
auditory information

Sound localization
improves in infancy
(perception serves action -
ecological view)

infants prefer thei mother's voice>father's voice even exposed in prenatal period
Even fetuses can recognize their mother’s
voice (Kilsilevsky et al., 2003)
prenatal exposure to music has a lasting effect on brain activity--> auditory experiences --> can shape the neural
architecture of the brain
midline Morrongiello, 1988

Location of Sound (degrees from the
midline)

Younger infants may localize the
sound at chance level (~50%)

Cut-off – correct responses
greater or smaller than 50% Older infants can localize sound 28
at a smaller angel
 Speech Perception

At birth, infants respond indiscriminately to
all phonemes

– This sensitivity drops as infants are exposed
predominantly to their native language

– Use it or lose it (synaptic pruning)

Clear preference for mother’s voice – mere
exposure effect
4-6months after birth , when exposure to certain tastes or flavour seems to influence later acceptance of these
flavours--> need long time exposure (3 months or more--> show acceptance)

Chemical senses

Ganchrow, Steiner, &
Daher, 1983
– Newborns who had never
been fed reacted differently
to sweet, sour, and bitter
flavors

Taste preference is shaped
by early feeding experience
(e.g., breastfeeding
mothers’ diet)
show adventuresome when mother exposed to different foods
there are also taste genes --> genetic predisposition--> account for disparity in children and adult's perceprtion of
biterness
our perception of flavour is highly dependent on how our brains assign meaning to the signals received from our
sensory apparatus
sense of smell --> olfaction
prefer the scent of their own aminiotic fluid / mother's breast milk --> calm
help babies and parents to get to know each other

the somaesthetic senses :
sense of toch, tenperature, and pain + kinesthetic sense of knowing where your body is in
relation to other body parts and to the envioronments
newborns are sensitve to warmth and cold

all major senses begin working before birth and are clearly functioning at birth
 So, infants are quite competent since birth

What about nurture factors

– Visual deprivation

– Critical period in kittens (it’s now or
never)
1 week of vision deprivation could lead to visual loss

– Sensitive period in human children
Vision
Audition
Speech perception https://computervisionblog.wordpress.com
/2013/06/01/cats-and-vision-is-vision-
acquired-or-innate/
Corrective surgeries for visual and auditory deficits are better
done early so that children can catch up with the sensitive period
From infants to child :
1. the coupling of perception and action leading to purposeful movement
2. integration of multiple sources of sensory information

The Child
Locomotion : movement from one place to another, is a vital aspect of development
integrate perception with action

Gross motor skills – Big muscles (e.g., arms) Whole body limb movements

Fine motor skills – Fine muscles, eye-hand coordination (e.g.,
pick up beads)

Cephalocaudal trend

Proximodistal trend

Advancing from ulnar grasp to pincer grasp is a
demonstration of the proximodistal trend of development
 rhythmic stereotypes : they moved their bodies in repetitive ways (rocking, swaying, bouncing, mouthing objects )
Repetitive movements
observed in infants shortly before a new motor
skill emerges.

How do motor skills development in children?
integration of action with thought as children have to think about how to organise their movements to optimise
e.g. crawling : they need to avoid dangers --> gather feedback from motor activity
Dynamic systems theory
nature (maturation of the central nervous system) and nurture (sensory and motor
experience) are both essential and largely inseparable.
– Motor development as a self-organizing
process of neural maturation, physical
growth, muscle strength, and motor skills
Modify their motor behaviours in adaptive ways , they learn it in order to achieve their outcomes

– Rhythmic stereotypies – infants seem to
be micro-adjusting and experimenting
different ways of maneuvering the
environment
They have mastered crawling and are
quite fast at it, whereas walking on two
legs is hard work and can slow them
down So if they have important

efficient – It is not a linear process
things to do, they might find it more

to use their reliable crawling skills than
to
labor at walking.

toddlers walk not because their genetic code programs them to do so but because they learn that walking works well given their biomechanical
properties and the characteristics of the environments they must navigate.
the emergence of mototr skills is complex and is closely connected to perceptual-cognitive developments
Dynamic Systems in Action
Newborns show the stepping reflex, as if
they are prepared to walk since birth
But this reflex disappears around two
months old – is it because of some neural
regression?
Physical change –
– Heavier lower body makes it harder to move the
legs
– Muscle strength and neural development are
catching up to control the legs
The reflex is elicited as the infant’s lower
body is submerged in water, counteracting Would toddlers be able to compensate for the changes in

the increased weight their body and their environment? Yes—they adjusted their motor
skills to adapt to rapid “growth” of their bodies and to changes in
their environment

early visual deprivation likely affects the brain in a way that
Toddlers also seemed to recognize when the walkway
was too steep for safe travel—they either avoided it or
prevents infants from developing face processing abilities even when normal
scooted down on their bottoms or on the
visual input is restored
As it turns out, these tumbles help walkers learn which
surfaces are safe and which ones may be problematic ir
hands and knees.

Children naturally adjust their gait and body positions
with different weight vests put on them as they
explore different terrains
vision and touch, as well as vision and hearing, seem to be
interrelated early in life.
the integration of senses helps babies perceive and respond appropriately to the objects
and people they encounter

cross-modal perception : recognise through one sense an object familiar through another
--> e.g. feeling objects hidden in a bag and identifying what they are by touch alone
--> improve through childhood and adolescence

Attention : the focusing on perception and cognition on something in particular
infants may prefer some sensory stimuli to others
orienting system : reacts to events in the environment --> infants
focusing system:deliberately seeks out and maintains attention to events --> older child

as they grow older :
1. attention span become longer (Children aged 2–3 worked for an average of 18 minutes
and were easily distracted, whereas children aged 5–6 often persisted for 1 hour or
more. Further improvements in sustained attention occur from ages 5 to 10 as those
parts of the brain involved with attention become further myelinated)
2. become more selective in what they attend to (selective attention : delibrately
concentrating on one thing while ignoring something else )
--> preschooler : adult-like orienting system but immature focusing system of attention
--> children work better without distractions
3. better able to plan and carry out systematic strategies for using their senses to achieve
goals
-->able to plan and carry out systematic perceptual searches
Adolescent : smell
gender plays a role in the sense of smell during adolescent and adulthood
women sensitivity of odors > men —> hormonal differences (diff levels on detection and
interpretation of chemicals that comprise odors)
women and men both uses door as a component of mate selection
babies and their mothers can recognise one another through smell

cultural variation (affect our sensory receptors—> in how we learn to perceive or interpret
sensory signals )
differ little in sensory capacities : ability to discriminate degrees of brightness or loudness
people of the nonindustralised rainforest could detect lower concentrations olfactory system
due to pollution and chemicals in the industralisad group
biggest difference : people’s perceptions and interpretations of sensory input
apparently develop that capacity more rapidly if our culture provides us with relevant
experiences
e.g. culture influences naming of odors (in Jahai) —> more variety of word choice
 The Adolescent – what else can get better?
able to switch attention from one task to another
more efficient at ignoring irrelevant information
divide their attention more systematically between two tasks
Better attention
– Orienting system -> Focusing system
– Longer attention spans (from minutes to hours; but we have TikTok
now)
– More selective attention
Getting better, but still susceptible to distractions
– More systematic attention

Split attention and multitasking is usually ineffective
hearing : tinnitus耳嗚
taste
‧ slight decline in preference for sweets and an increased sensitivity to and linking of sour tastes
‧ preference for sour tastes/ tolerance for sour tastes is associated with willingness to try new foods and
expand food horizons
‧ teenagers are more open to experimenting with foods that may have odd textures --> less tendency to reject
new foods
 Are the houses identical or different?
sense of taste : also determined by chemosensory irritation --. the reaction of your skin(in your month and nose) to certain
chemical compounds of foods
e.g. tingle from a carbonated beverage + burn from hot peppers
taste is also influenced by cognition: you taste what you expect to taste
e.g. we may think brighter coloured juices are thought to be tastier than pale ones

Longer attention span, more selective
attention, more systematic attention
 The Adult
become noticeable in the 40s
Sensory and perceptual capacities decline
low level of stimulations can be detected, stimulation below
– A rise in sensory threshold the threshold cannot be detected--> sensitivity to very low
levels of stimulation is lost
have difficulty processing or interpreting sensory
– Decline in perceptual skills information
e.g. visual search, splitting attention
Perceptual performance is better in familiar than in novel
situations

vision :
changes in the pupil : difficulty with reaidng in dim lighting conditions --> need time to adapt to bright lights and
back again to drak road (difficulty with night driving )
thickening and increasing rigidity of the lens of the eye : difficult to focus on close objects
presbyopia = aging of the eye
women experience greater declines in visual acuity than men
age-related macular degeneration (AMD) :
vision may become blurry and begins to fade from the centre of the visual field
the leading cause: may be genetic contribution/ cigarette smoking
no cure currently --> but working on stimulationg cells
some older adults will experience serious visual problems but others will retain good vision and healthy eyes until
well into old age
perception : using the senses intelligently and allocating attention efficiently

Raised sensory threshold
Cooking with grandma
– Henry, it’s bland
– Grandma, it’s too salty!

It’s 10 degrees outside, dress warm!
I don’t feel cold
Age-Related Changes in Vision

https://www.myeyedr.com/eye-health/vision-simulator

Implications
Self image
Accidents and injuries
 Attention and visual search
perception : using the senses intelligently and allocating attention efficiently
continuous conentrationtask : older adults began to use a more cautious stretegy to increase
their accuracy

when selectively attending to certain stimuli while ignotring others --> elderly falls short of the
performance of young adults
older adults were slower and less accurate on the more challenging search task
elderly people appear to have difficulty inhabiting responses
older adults have theri greatest difficulties in processing visual information when the
stimulation is novel and when it's complex

speech perception :
the ability to hear is one requisite for understanding spee ch , and also depends on cognitive
processes such as attention and memory
older adults typically have more difficulty understanding conversation than younger adults do
older adults may recall less information from a conversation that takes placce in a crowded,
noisy environment
cognitive declines also seem to contribute to declines in speech perception among older
adluts
after the age of 50, lower frequency sounds also become increasingly difficult to hear
the loss os more noticeable among men than women
men show detecable hearing losses earlier in life
to compensate the difficulties : reading lips and pelying on contextual cues

aging of the chemical senses :
there is a general decline in sensitivity to taste (older men > older women )
in one study : older adults were less able tahn young adults to reliably recognise a food on the
basis of smell and taste
older adults tend to prodice kess salivs thsn younger adults --> which saliva facilitates
distribution of the chemical molecules
older adults do not have difficulty distinguishing degrees if sweetness
sensitivity to odors increases from childhood to early adulthood
and decline during adulthood --> with age increasing
these sensory and perceptual abilities aare highly variable across the entire life span
Taste and smell receptors are replaced throughout the life span and influenced by such
environmenatl factors (replace in response to injury such as exposure to pollutants)

changes in the somasthetic senses :
older adults are often less able than younger adults to detect weak sensory stimulation -->
threhold increases
older people are less sensitive to changes in temperature than younger adults are (unaware of
cool and too hot --> increase risk of death in heat waves or cold spells )
older people seem to be no less sensitive to stronger pain

THE ADULT IN PERSPECTIVE
general declines in neural functioning that affect both perception and cognition
these changes do not need to detract from their quality of life
hearing impairment is approximately three times as prevalent as visual impairment among older adults
presbycusis = problems of the aging ear
causes : personal experiences --? societal consequences
Hearing
Due to degeneration of cochlear hair cells, surrounding
structures, and the neurons leading from them to the brain
– Result is loss of sensitivity to high-frequency or high-pitched sounds
(The hearing test)
– After age 50, lower-frequency sounds also become difficult to hear

Difficulties in speech perception
– Auditory and cognitive declines
– How to speak to elderlies?
Clear voice, familiar language, remind the context, talk f2f
Infants can flail their arms around before they can move their hands and
fingers with any precision. This illustrates the _____ direction of growth.

a. cephalodistal
b. proximodistal
c. cephalocaudal
d. proximocaudal
Which of the following would likely be the most effective approach for a 72-
year-old man to protect and enhance his cognitive performance?

a. join a weekly mall walkers group
b. get a good amount of REM sleep
c. eat more berries and vegetables
d. read news about current events
An adult who has a leg amputated must relearn how to walk with a different
distribution of body weight and an attached prosthetic. This process mirrors
which of the following?

a. locomotor accommodation theory
b. dynamic systems theory
c. bioecological perception theory
d. evoked potential theory
Six-month-old Kara watches as two dolls are placed behind a screen.
When the screen is removed, Kara sees either two dolls (possible) or
one doll (impossible). Which of the following reactions is the infant
likely to show?

a. Kara will look longer at the impossible outcome than the possible
outcome.
b. Kara will not look at either outcome because they will have
habituated to the original stimulus.
c. Kara will look longer at the possible outcome because it is familiar to
her.
d. Kara will not notice any difference between the possible and
impossible outcomes, as evidenced by no difference in looking times
at the two outcomes.