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Chapter 4 Section 3
Establishing Causation
AP Statistics
Hamilton
HW: 4.41 – 4.48
Causation
• So does sleeping make whiskers grow?
Establishing Causation
• When studying the relationship between two
variables, we often hope to show that changes in
the explanatory variable cause changes in the
response variable.
• A strong association between two variables is not
enough to draw conclusions about cause and effect.
– What ties between two variables (and others lurking in
the background) can explain an observed association?
– What constitutes good evidence for causation?
• We begin our consideration of these questions with
a set of examples.
Six Interesting Relationships
• These are six examples of observed associations
between x and y.
1. x = mother’s BMI
y = daughter’s BMI
2. x = amount of saccharin in a rat’s diet
y = count of tumors in the rat’s bladder
3. x = a high school senior’s SAT score
y = the student’s first-year college GPA
4. x = monthly flow of money into stock mutual funds
y = monthly rate of return for the stock market
5. x = whether a person regularly attends religious services
y = how long the person lives
6. x = the number of years of education a worker has
y = the worker’s income
Explaining Association: Causation
• Causation is a direct cause-and-effect link between
the variables.
• In the figures on the slides in this presentation:
– A dashed line represents an observed association
between the variables x and y.
– A solid blue line represents a causal relationship.
Causation
• This is causation.
• You can see that changes
in x cause changes in y.
BMI in Mothers and Daughters
• A study of Mexican-American girls aged 9 to 12 years
recorded BMI, a measure of weight relative to height,
for both the girls and their mothers. The study also
measured hours of TV, minutes of physical activity, and
intake of several kinds of food.
• The strongest correlation was between the BMI of
daughters and their mothers.
• Body type is in part determined by heredity. Daughters
inherit half their genes from their mothers. As a result,
there is a direct causal link between BMI of mothers
and daughters. The mothers’ BMI only explain 25.6%
(r2) of the variation among the daughter’s BMI. Other
factors, such as diet and exercise, also influence BMI.
• Note: Even when direct causation is present, it is rarely
a complete explanation of an association between two
variables.
Saccharin in Rats
• The best evidence for causation actually comes from
experiments that actually change x while holding all
other factors fixed. If y changes, we have good reason
to think that x caused the change in y.
• Experiments have shown conclusively that large
amounts of saccharin in the diet cause bladder tumors
in rats. Should we avoid saccharin as a replacement for
sugar in food?
• Rats are not people. Although we cannot experiment
with people, studies of people who consume different
amounts of saccharin show little association between
saccharin and bladder tumors.
• Note: Even well-established causal relations may not
generalize to other settings.
Explaining Association: Common Response
• Beware the lurking variable is good advice when
thinking about an association between two
variables.
• In common response, the observed association
between two variables x and y is explained by a
lurking variable z.
• In this instance, both x and y change in response to
changes in z.
• This common response creates an association even
though there may be no direct causal link between
x and y.
Common Response
• This is a common response.
• We can see from the
diagram that changes in
both x and y are caused by
a third lurking variable z.
• Can you think of an
example?
• Families that eat together
have children that are more
well-balanced. Is there
some other variable
influencing both of these?
SAT and GPA
• Students who are smart and who have learned a lot
tend to have both high SAT scores and high college
grades. The positive correlation is explained by this
common response to students’ ability and
knowledge.
Mutual Funds and the Stock Market
• There is a strong positive correlation between how
much money individuals add to mutual funds each
month and how well the stock market does the same
month. Is the new money driving the market up? The
correlation may be explained in part by common
response to underlying investor sentiment: when
optimism reigns, individuals send money to funds and
large institutions also invest more. The institutions
would drive up prices even if individuals did nothing.
• It is also worth noting that what causation there is may
actually operate in the other direction. When the
market is doing well, individuals rush to add money to
their mutual funds.
Explaining Causation: Confounding
• We noted in the association of BMI of daughters and
mothers that inheritance explained part of the
causation.
• It is possible that mothers who are overweight also set
an example of little exercise, poor eating habits, and
lots of TV. As a result, their daughters pick up these
habits to some extent, so the influence of heredity is
mixed up with influences from the girls’ environment.
• It is this mixing of influences that we call confounding.
Explaining Causation: Confounding
• Confounding often prevents us from drawing
conclusions about causation.
• In confounding, both the explanatory variable x and
the lurking variable z may influence the response
variable y.
• Because x is confounded with z, we cannot
distinguish the influence of x from the influence of
z.
• We cannot say how strong the direct effect of x is
on y. In fact, it can be hard to say if x influences y at
all.
Confounding
• This is confounding.
• Confounding occurs when
the effect of x on y is
unclear because of the
effect of a lurking variable
z.
• Can you think of an
example?
• Hamilton’s students all do
well on state testing? Is
there an association or is it
confounded?
Religion and Life Span
• Many studies have found that people who are
active in their religion live longer than nonreligious
people. But people who attend church or mosque
or synagogue also take better care of themselves
than nonattenders. They are less likely to smoke,
more likely to exercise, and less likely to be
overweight. The effects of these good habits are
confounded with the direct effects of attending
religious services.
Education and Income
• It is likely that more education is cause of higher
income – many highly paid professions require
advanced education. However, confounding is also
present. People who have high ability and come
from prosperous homes are more likely to get many
years of education than people who are less able or
poorer. Of course, people who start out able and
rich are more likely to have high earnings even
without much education. We can’t say how much
of the higher income of well-educated people is
actually caused by their education.
Warnings
• Many observed associations are at least partly
explained by lurking variables. Both common
response and confounding involve the influence of
a lurking variable (or variables) z on the response
variable y. The distinction between these two types
of relationships is less important than the common
element – the influence of lurking variables.
• The most important lesson of these examples is one
we have already emphasized: even a very strong
association between two variables is not by itself
good evidence that there is a cause-and-effect link
between the variables.
Establishing Causation
• How can a direct causal link between x and y be
established?
• The best method of establishing causation is to
conduct a carefully designed experiment in which
the effects of possible lurking variables are
controlled. (This is why we use randomness.)
• Many of the sharpest disputes in which statistics
plays a role involve questions of causation that
cannot be settled by experiment.
• Some of these questions are listed on the next slide.
Establishing Causation
– Does gun control reduce violent crime?
– Does living near power lines cause cancer?
– Has increased free trade helped to increase the gap between
the incomes of more educated and less educated American
workers?
• All of these questions have become public issues. All
concern associations among variables.
• All also have this in common: they try to pinpoint cause
and effect in a setting involving complex relations
among many variables. Common response and
confounding, along with the number of potential
lurking variables, make observed associations
misleading. In these settings, experiments are not
possible for ethical or practical reasons. So we must
rely on observational studies, which have limitations.
Power Lines and Leukemia
• Do power lines increase the risk of leukemia?
• Laboratory studies have shown that really strong
magnetic fields can disturb living cells. What about
the effect of weaker magnetic fields we experience
if we live near power lines?
• It isn’t ethical to do experiments that expose
children to magnetic fields. It is also hard to
compare children who live in more and less exposed
areas because of how rare leukemia is and how
different each location is besides the magnetic
fields.
• As a result, we must rely on studies that compare
children with leukemia with children who don’t.
Power Lines and Leukemia
• A careful study in which the researchers compared
638 children with leukemia and 620 children
without leukemia, found that there was no
evidence of more than a chance connection
between magnetic fields and childhood leukemia.
• “No evidence” that magnetic fields are connected
with childhood leukemia doesn’t prove that there is
no risk. It says only that a careful study should not
find any risk that stands out from the play of chance
that distributes leukemia cases across the
landscape.
Smoking and Lung Cancer
• Despite the difficulty, it is sometimes possible to build a
case for causation in the absence of experiments. The
evidence that smoking causes lung cancer is about as
strong as nonexperimental evidence can be.
• Doctors had long observed that must lung cancer
patients were smokers. Comparison of smokers and
similar nonsmokers showed a very strong association
between smoking and death from lung cancer.
• Could the association be due to common response?
Might there be a genetic factor that predisposes people
to both nicotine addiction and to lung cancer? If so,
smoking and lung cancer would be positively associated
even if smoking had no direct effect on the lungs.
Smoking and Lung Cancer
• Or perhaps confounding is to blame. It might be
that smokers live unhealthy lives in other ways
(diet, alcohol, lack of exercise) and that some other
habit confounded with smoking is a cause of lung
cancer.
• How were these objections overcome?
Criteria for Establishing Causation without an Experiment
1. The association is strong. – The association
between smoking and lung cancer is very strong.
2. The association is consistent. – Many studies of
different kinds of people in many countries link
smoking to lung cancer. That reduces the chance
of a lurking variable specific to one group or one
study explaining the association.
3. Larger values of the explanatory variable are
associated with stronger responses. – People who
smoke more cigarettes per day or who smoke over
a longer period get lung cancer more often.
People who stop smoking reduce their risk.
Criteria for Establishing Causation without an Experiment
4. The alleged cause precedes the effect in time. – Lung
cancer develops after years of smoking. The number
of men dying of lung cancer rose as smoking became
more common, with a lag of about 30 years. Lung
cancer kills more men than any other form of cancer.
Lung cancer was rare among women until women
began to smoke. Lung cancer is women rose along
with smoking, again with a lag of about 30 years, and
has now passed breast cancer as the leading cause of
cancer death among women.
5. The alleged cause is plausible. – Experiments with
animals show that tars from cigarette smoke do cause
cancer.
Criteria for Establishing Causation without an Experiment
• Medical authorities do not hesitate to say that
smoking causes lung cancer.
• The U.S. Surgeon General states that cigarette
smoking is “the largest avoidable cause of death
and disability in the U.S.”
• The evidence for causation is overwhelming – but it
is not as strong as the evidence provided by a welldesigned experiment.
• Conducting an experiment in which some subjects
were forced to smoke and others were not allowed
to would be unethical. In cases like this,
observational studies are our best source of reliable
information.
To conclude…