Baby Eye Color Calculator

Baby Eye Color Calculator 2026 | Genetics & Probability Tool
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Baby Eye Color Calculator 2026

Predict your baby’s likely eye color based on parental genetics. Understand dominant and recessive traits with our easy-to-use probability tool.

👶 Baby Genetics
👁️ Eye Colors
🧬 DNA Traits
📊 Probabilities

Parental Genetics

Select the eye colors of both biological parents

👨 Father’s Eye Color

👩 Mother’s Eye Color

🧬 Advanced Traits (Optional)

Recessive genes can hide for generations. Selecting this slightly increases the chance of lighter eyes.

Genetic Prediction

Probabilities for your baby’s eye color

👁️

Select the parents’ eye colors and click Calculate Baby Eye Color to see the genetic probabilities.

Eye Color Genetics Probability Chart

Standard Mendelian genetics probabilities for baby eye color based on parental combinations. Actual results may vary due to polygenic traits.

Parent 1 Parent 2 Most Likely Possible Variations
BrownBrownBrown (75%)Green, Blue
BrownGreenBrown (50%)Green, Blue
BrownBlueBrown (50%)Green, Blue
GreenGreenGreen (74%)Brown (rare), Blue
GreenBlueGreen (50%)Blue
BlueBlueBlue (99%)Green (rare)

Baby Eye Color FAQ

Everything you need to know about genetics, dominant traits, and how your baby’s eye color is determined.

Eye color is determined by the genetics inherited from both parents. It involves multiple genes, but primarily the OCA2 and HERC2 genes on chromosome 15. Brown is generally dominant over green, and green is dominant over blue.

While extremely rare, it is biologically possible due to complex genetic mutations or if the parents carry hidden dominant genes from previous generations. However, in standard Mendelian genetics, two blue-eyed parents will almost always have a blue-eyed baby.

Most babies are born with blue or grey eyes due to a lack of melanin. The final eye color typically stabilizes between 6 to 9 months of age, though subtle changes can continue up to 3 years old as melanin production increases.

Yes, the allele for brown eyes is dominant over the allele for blue eyes. This means a person only needs one copy of the brown gene (from either parent) to have brown eyes, whereas blue eyes require two copies of the recessive blue gene.

Yes, eye color can appear to skip a generation. If a grandparent has blue eyes (recessive) and passes the gene to a parent who has brown eyes (dominant), that parent can then pass the blue gene to their child, resulting in a blue-eyed grandchild.

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