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Home Exclusive Cognitive Science

Genetics, not shared environments, drives parent-child similarities
in cognitive ability

by Eric W. Dolan
January 16, 2025
in Cognitive Science
(Photo credit: DALL*E)

(Photo credit: DALL*E)

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How much of your cognitive ability is shaped by your genetic
inheritance compared to the environment you grow up in? A new study
published in Research in Social Stratification and Mobility suggests
that the transmission of cognitive ability from parents to children
is primarily driven by genetics, with little influence from shared
environmental factors like family resources. The findings challenge
traditional assumptions in social mobility research that often
attribute these correlations primarily to socio-economic status.

The intergenerational transmission of cognitive abilities has long
been a subject of interest because of its implications for social
mobility and educational outcomes. Past research has shown that
children often mirror their parents' cognitive abilities, but it has
been unclear whether this is due to shared genetics, shared
environments, or a combination of both.

"We were interested in this topic because cognitive ability is a
crucial factor in social mobility and life outcomes, yet its
transmission between generations is rarely studied using
comprehensive models that combine both twin and family data," said
study author Tobias Wolfram, a behavioral geneticist affiliated with
Bielefeld University.

"The German TwinLife study provided an exciting opportunity to do
this, particularly because it included different age cohorts ranging
from early childhood to young adulthood. This allowed us to examine
how the mechanisms of transmission might change over time, which is
especially interesting given the well-known 'Wilson effect' - the
observation that environmental influences on intelligence are
stronger in childhood while genetic influences become more prominent
with age."

The German TwinLife survey is a large, longitudinal study designed to
explore the interplay between genetic and environmental factors in
shaping various life outcomes, including cognitive abilities,
educational attainment, and social mobility. The survey focuses on
same-sex twin pairs and their biological families, enabling
researchers to separate the effects of genetic inheritance from those
of shared family environments. For example, monozygotic twins, who
share 100% of their genetic material, can be compared with dizygotic
twins, who share about 50% of their genetic material, to estimate the
relative contributions of genetic and environmental factors.

By incorporating multiple family members--including parents and
siblings--across four birth cohorts, the survey spans an extensive
developmental range, from early childhood (ages 5-6) to young
adulthood (ages 21-25). This breadth allows researchers to examine
how genetic and environmental influences evolve over the life course.

Cognitive abilities were measured using standardized tests tailored
to different age groups. For children aged 9 and younger, the
researchers used the Culture Fair Test 1-R, while the Culture Fair
Test 20-R was applied to individuals aged 10 and older. These tests
are widely used for assessing cognitive ability in a way that
minimizes cultural and educational biases.

The data collection spanned multiple waves, capturing changes over
time and enabling a dynamic analysis of developmental processes.
Other data, such as demographic information, socioeconomic status,
and family relationships, were also included, providing a rich
context for interpreting the findings.

In their new study, Wolfram and his colleagues utilized a nuclear
twin family design, an advanced statistical framework that
incorporates data from twins, their parents, and sometimes siblings.
This model goes beyond traditional twin study designs by explicitly
including intergenerational data, enabling researchers to examine how
traits are transmitted across generations. The nuclear twin family
design also addressed potential confounding factors, such as
assortative mating--a phenomenon where individuals with similar
traits, such as intelligence, are more likely to pair and have
children.

The results provided evidence that the intergenerational transmission
of cognitive ability is driven primarily by genetic inheritance
rather than shared environmental factors. Across all age groups
examined, the researchers found minimal evidence that parental
cognitive ability significantly influenced children's cognitive
development through environmental mechanisms. Instead, the observed
similarities in cognitive abilities between parents and children were
largely attributed to shared genetic factors.

The researchers also failed to find evidence for passive
gene-environment correlations. These correlations occur when parents
pass on genetic predispositions to their children while
simultaneously creating environments that align with those
predispositions--for instance, high-ability parents fostering
intellectually enriching environments. Despite being theoretically
expected, the study found no significant evidence for these
correlations. This suggests that the family environment does not
mediate the relationship between parental and offspring cognitive
abilities.

Even in the youngest cohort, where environmental effects are
typically most pronounced, the study found no significant evidence
that parental cognitive ability shaped offspring abilities through
these pathways.

"Perhaps the most surprising finding was how little impact parental
cognitive ability had on children's cognitive development through
environmental pathways, even in young children aged 5-6," Wolfram
told PsyPost. "This was unexpected because we know that environmental
factors in general have a stronger influence on cognitive ability in
early childhood. While we found substantial environmental effects
shared between siblings in young children, these effects weren't
related to parental cognitive ability. This raises interesting
questions about what drives these early environmental effects."

"The key takeaway is that the similarity in cognitive ability between
parents and children appears to be driven primarily by shared genes
rather than shared environment. While we often assume that parents
influence their children's cognitive development through factors like
education style, resources, and parenting, our study finds little
evidence for environmental transmission that occurs through parental
cognitive ability specifically."

However, the researchers emphasized that this does not imply that
parents play no role in their children's development. "This doesn't
mean parents don't matter--our model can only detect environmental
influences that are linked to parents' cognitive ability and that
affect all siblings similarly," Wolfram explained. "There could be
other important parental influences that operate through different
pathways or affect children differently."

For example, parents might influence their children's development
through unique, individualized interactions that are not captured by
models focusing on shared family environments. A parent's
encouragement of a child's specific interests or their response to a
child's emotional needs could shape the child's learning and
development in ways that differ between siblings.

Additionally, non-shared environmental factors, such as differences
in peer groups, extracurricular activities, or even random life
events, can play a significant role in cognitive development. These
influences, while potentially shaped by parental decisions, would not
necessarily correlate directly with parental cognitive ability and
therefore fall outside the scope of this study's analysis.

"While we can distinguish between genetic and environmental
transmission at a broad level, we can't identify specific genes or
particular environmental factors that might be important," Wolfram
noted.

Another limitation relates to the assumptions their statistical model
makes regarding assortative mating. "The model assumes that people
directly choose partners based on their observed cognitive ability,
but in reality, partner selection might happen indirectly through
other related characteristics or through more complex patterns,"
Wolfram explained. "This assumption about assortative mating could
affect our estimates of how cognitive ability is transmitted across
generations as a new preprint by Sunde et al. shows in the case of
educational attainment."

Despite these caveats, the study makes a significant contribution to
social mobility research by emphasizing the dominant role of genetic
pathways in the intergenerational transmission of cognitive ability.
The findings indicate that the influence of the family environment in
this transmission process is limited, highlighting the importance of
accounting for genetic confounding when interpreting parent-offspring
similarities in cognitive ability.

"Our long-term goal is to better understand the complex interplay
between genetic and environmental factors in cognitive development,"
Wolfram told PsyPost. "We hope to extend this research by
incorporating more sophisticated models of assortative mating and by
examining how specific measured environments might moderate genetic
effects."

"While our findings strongly support the importance of genetic
factors in cognitive ability, it's crucial to remember that genes are
not destiny," he added. "Environmental factors still play a role, and
understanding their interaction with genetic predispositions remains
an important area for future research."

The study, "Disentangling genetic and social pathways of the
intergenerational transmission of cognitive ability - A nuclear twin
family study," was authored by Tobias Wolfram, Mirko Ruks, and Frank
M. Spinath.

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