Unit 1.1: Interaction of Heredity and Environment

Nature (Heredity)

Heredity refers to genetic traits inherited from biological parents that influence physical characteristics, behavioral tendencies, and mental processes.

Key Influences:

• Physical traits: Eye color, height, facial features
• Personality tendencies: Introversion/extraversion, temperament
• Cognitive abilities: Intelligence predispositions
• Mental health risks: Vulnerability to disorders like depression, schizophrenia

Nurture (Environment)

Environment encompasses all external, non-genetic influences that affect development, including prenatal conditions, family dynamics, education, culture, and life experiences.

Key Influences:

• Parenting styles: Authoritative, authoritarian, permissive approaches
• Educational opportunities: Quality of schooling, access to resources
• Cultural norms: Values, beliefs, social expectations
• Social relationships: Peer groups, friendships, romantic relationships
• Prenatal environment: Maternal nutrition, stress, toxin exposure

⚠️ Important: The AP Exam will NOT test specific genetic terminology like genotype, phenotype, DNA sequences, chromosomes, or detailed gene expression mechanisms. Focus on the interaction between heredity and environment.

Gene-Environment Interaction

The same genetic predisposition can lead to different outcomes depending on environmental factors. Genes create tendencies, while environment determines whether and how those tendencies are expressed.

Example: A person with genetic vulnerability to depression may never develop the disorder if raised in a supportive, low-stress environment, but may develop symptoms when exposed to chronic stress or trauma.

Gene-Environment Correlation

Genetic predispositions can influence the environments individuals seek out or are exposed to, creating a feedback loop.

Example: A child genetically predisposed to be outgoing actively seeks social situations and group activities, which further develops their social skills and extraverted personality.

Epigenetics

Environmental experiences can change how genes are expressed without altering the DNA sequence itself. This demonstrates that the environment can have long-lasting biological effects.

Example: Maternal stress during pregnancy can lead to epigenetic changes that affect the child's stress response system throughout life.

1️⃣ Twin Studies

Twin studies compare traits between identical (monozygotic) and fraternal (dizygotic) twins to estimate genetic influence.

Logic: If identical twins are significantly more similar than fraternal twins on a trait (higher concordance rate), that trait likely has a strong genetic component.

Famous Example: Minnesota Twin Study — examined identical twins raised apart to separate genetic from environmental influences.

2️⃣ Family Studies

Family studies examine how traits run through family trees by comparing close relatives to distant relatives.

Limitation: Cannot perfectly separate nature from nurture because family members share both genes AND environments (same household, culture, socioeconomic status).

Use: Identifies whether traits are familial (run in families) but requires additional methods to determine if the cause is genetic or environmental.

3️⃣ Adoption Studies

Adoption studies separate genetic from environmental influences by comparing adopted children to both their biological and adoptive families.

• Similarity to biological parents suggests genetic/hereditary influence
• Similarity to adoptive parents suggests environmental influence

Strength: Particularly valuable for studying traits like intelligence, personality, and mental illness because they isolate biological inheritance from shared environment.

📖 Key Research Terms

• Heritability: Statistical estimate of how much variation in a trait is due to genetic differences
• Concordance Rate: Percentage of twin pairs sharing a trait (higher in identical twins = genetic influence)
• Shared Environment: Environmental factors experienced by both siblings (e.g., family income, parenting)
• Nonshared Environment: Unique experiences that differ between siblings (e.g., different teachers, friend groups, birth order effects)

Natural Selection

Proposed by Charles Darwin, natural selection suggests that organisms with advantageous traits are more likely to survive, reproduce, and pass those traits to offspring.

Application to Psychology: Behaviors and mental processes that increased our ancestors' chances of survival and reproduction (detecting threats, forming social bonds, caring for offspring) may still influence modern human behavior.

Examples of Evolved Behaviors

⚠️ Critical Context: Misuse of Evolutionary Theory

It is essential to understand the historical misapplication of evolutionary ideas:

• Eugenics: Pseudoscientific movement that misused heredity principles to promote discrimination, forced sterilizations, and human rights abuses by claiming some groups were genetically "superior"
• Social Darwinism: Falsely applied natural selection to justify social inequality, claiming some groups are "more evolved" than others
• Exam Note: Separate valid scientific insights about evolution from these harmful, unethical historical abuses

Phenylketonuria (PKU)

Gene-environment interaction: PKU is a genetic disorder that causes toxic buildup of phenylalanine. However, if detected early and diet is restricted, intellectual disability is prevented — demonstrating how environment can modify genetic outcomes.

Height Development

Nature + Nurture: Genetics set a potential height range, but nutrition, illness, and environmental stress determine where an individual falls within that range.

Depression Risk

Diathesis-stress model: A genetic vulnerability (family history) increases risk, but major environmental stressors (trauma, loss, chronic stress) often trigger the disorder.

Intelligence & Achievement

Twin & adoption studies: Show heritability of intelligence, but socioeconomic status, educational quality, and parenting styles significantly shape IQ and academic outcomes through both shared and nonshared environmental effects.

Multiple Choice Tips

• Be able to distinguish between heredity and environment examples
• Interpret twin, family, and adoption study results
• Understand concordance rates — higher in identical twins = genetic influence
• Recognize examples of gene-environment interaction and correlation
• Apply evolutionary psychology concepts without falling into eugenics misconceptions

Free Response Question (FRQ) Tips

• Use specific terminology: heritability, concordance rate, monozygotic vs dizygotic twins
• Explain the logic of twin/adoption studies clearly (why they separate nature from nurture)
• Provide concrete examples of gene-environment interaction
• Always emphasize that nature and nurture interact rather than compete
• Be prepared to discuss ethical considerations related to genetic research and eugenics

🔑 Essential Concepts

• Gene-environment interaction
• Gene-environment correlation
• Epigenetics
• Natural selection
• Evolutionary perspective
• Twin studies (MZ vs DZ)
• Family studies
• Adoption studies
• Heritability estimates
• Concordance rates
• Shared vs nonshared environment
• Eugenics (ethical warning)

💡 Remember

Nature and nurture do NOT compete — they interact continuously to shape behavior and mental processes. Genes provide predispositions; environment determines expression. Use research methods to understand this relationship, not to declare a "winner."