Genetics ToolNon-Mendelian inheritance

Incomplete Dominance Punnett Square with Examples

Use this incomplete dominance Punnett square to model blended phenotypes, such as red and white snapdragons producing pink offspring. Enter parent genotypes, read the offspring grid, then practice with worksheet questions and answers.

Incomplete Dominance Punnett Square Calculator

Results update as you type. Choose an example or enter your own two allele genotypes.

Incomplete Dominance Examples

Classic textbook example: Antirrhinum majus

Homozygous dominant

Homozygous recessive

RR×rr

2×2 grid  · 4 offspring combinations

r
r
R
RrPink
RrPink
R
RrPink
RrPink

Rr

Pink

4/4  ·  100%

Phenotypic ratio:4(Pink)
Red, pink, and white snapdragon flowers showing an incomplete dominance Punnett square example
Figure 1. Snapdragon flower colour is a classic incomplete dominance example. RR flowers are red, Rr flowers are pink, and rr flowers are white.

What Is Incomplete Dominance?

Incomplete dominance is an inheritance pattern where the heterozygous genotype has a phenotype between the two homozygous phenotypes. Neither allele fully hides the other. The result is not a dominant look and not a recessive look. It is an intermediate trait.

A red snapdragon with genotype RR produces strong red pigment. A white snapdragon with genotype rr produces little or no red pigment. A pink snapdragon with genotype Rr has one functional allele, so pigment production is lower than RR but higher than rr.

GenotypeGenetic stateAllele expressionPhenotype example
RRHomozygous dominantFull pigment or full trait expressionRed snapdragon flower
RrHeterozygousPartial expression from one functional allelePink snapdragon flower
rrHomozygous recessiveLittle or no pigment from this geneWhite snapdragon flower

How to Solve an Incomplete Dominance Punnett Square

  1. 1
    Write the parent genotypes: Use two alleles for one gene. For snapdragons, RR is red, Rr is pink, and rr is white.
  2. 2
    Separate each parent into gametes: A homozygous RR parent makes only R gametes. A heterozygous Rr parent makes R and r gametes.
  3. 3
    Fill the Punnett square: Place one parent across the top and one parent down the side. Combine one allele from each parent in every box.
  4. 4
    Translate genotypes into phenotypes: Count RR, Rr, and rr. In incomplete dominance, Rr gets its own phenotype, so Rr is not grouped with RR.

Incomplete Dominance Examples and Practice Worksheets

Use these practice worksheet questions after the calculator. Try each cross first, then open the answer. The most common exam clue is a 1:2:1 phenotype ratio in the offspring.

Worksheet 1: Red snapdragon crossed with white snapdragon

Question: A red snapdragon has genotype RR. A white snapdragon has genotype rr. What genotypes and phenotypes appear in the offspring?

Answer: All offspring are Rr. The phenotype is 100% pink because the heterozygote shows the intermediate flower colour.

Genotype ratio: 100% Rr. Phenotype ratio: 100% pink.

Worksheet 2: Pink snapdragon crossed with pink snapdragon

Question: Two pink snapdragons are crossed. Both parents are Rr. Predict the offspring.

Answer: The Punnett square gives RR, Rr, Rr, and rr. The offspring are 25% red, 50% pink, and 25% white.

Genotype ratio: 1 RR : 2 Rr : 1 rr. Phenotype ratio: 1 red : 2 pink : 1 white.

Worksheet 3: Pink snapdragon crossed with white snapdragon

Question: A pink snapdragon is crossed with a white snapdragon. The genotypes are Rr and rr. What is the expected result?

Answer: The pink parent makes R and r gametes. The white parent makes only r gametes. The offspring are 50% Rr and 50% rr.

Phenotype ratio: 1 pink : 1 white.

Worksheet 4: Andalusian chicken feather colour

Question: In Andalusian chickens, BB is black, Bb is blue, and bb is white. What happens when two blue chickens are crossed?

Answer: A Bb by Bb cross gives BB, Bb, Bb, and bb. The expected offspring are 25% black, 50% blue, and 25% white.

Phenotype ratio: 1 black : 2 blue : 1 white.

Worksheet 5: Identify the inheritance pattern

Question: A black animal crossed with a white animal produces grey offspring. When two grey offspring are crossed, black, grey, and white appear in a 1:2:1 ratio. What pattern is this?

Answer: This is incomplete dominance. The grey heterozygote is intermediate between the two homozygous phenotypes.

Key clue: the heterozygote has a blended phenotype.

Worked Punnett Square Examples

Red snapdragon by white snapdragon

The cross is RR by rr. The red parent gives R. The white parent gives r. Every offspring is Rr.

Parents: RR x rr
Offspring: 100% Rr
Phenotype: 100% pink

Pink snapdragon by pink snapdragon

The cross is Rr by Rr. Each parent gives R or r. The offspring cells are RR, Rr, Rr, and rr.

Parents: Rr x Rr
Genotypes: 1 RR : 2 Rr : 1 rr
Phenotypes: 1 red : 2 pink : 1 white

Codominance Punnett Square: Quick Guide

Students often compare incomplete dominance with codominance. The grid setup is the same, but the heterozygote meaning changes. Incomplete dominance blends the trait. Codominance shows both traits together. You can model codominance in more detail with the Codominance Calculator or practice ABO outcomes with the Blood Type Calculator.

What is a codominance Punnett square?

It is a normal Punnett square used for a trait where both alleles are visible in the heterozygote. The grid predicts genotypes first. You then label the heterozygote as showing both traits.

How do you make a codominance Punnett square?

Write each parent genotype, split each genotype into gametes, place gametes on the top and side, fill the boxes, then count the outcomes. Use allele symbols that keep both alleles visible, such as IA and IB for ABO blood type.

How do you solve a codominance Punnett square?

Solve the grid the same way as any monohybrid cross. The difference is interpretation. IAIB is not a blend of A and B. It is blood type AB because both antigens are expressed.

What does a codominance Punnett square look like?

It looks like a 2 by 2 grid for one gene. Some boxes may contain a heterozygous genotype such as IAIB, CRCW, or RW. Those boxes represent both traits together.

How do you show codominance in a Punnett square?

Show codominance by naming the heterozygous phenotype as both traits, not as an average. For example, CRW can be red and white hairs together, while Rr in incomplete dominance may be pink.

How does a dihybrid codominance Punnett square work?

A dihybrid codominance Punnett square tracks two genes at once. Each heterozygous parent can make four gamete types, so the grid often has 16 boxes. For larger or mixed patterns, a forked line method is usually easier.

For a two trait problem, compare the grid size with a standard dihybrid cross probability calculator. A dihybrid codominance Punnett square can become large, so students should list gametes carefully before filling the 16 boxes.

Incomplete Dominance vs Complete Dominance vs Codominance

FeatureComplete dominanceIncomplete dominanceCodominance
Heterozygote phenotypeLooks dominantIntermediate blendBoth traits appear
Typical monohybrid phenotype ratio3:11:2:11:2:1
Can Aa be identified by phenotype?Usually noYesYes
Common examplePea flower colourSnapdragon flower colourAB blood type
Best wordingOne allele masks anotherNeither allele fully masks the otherBoth alleles are expressed

Common Mistakes in Incomplete Dominance Problems

Grouping Rr with RR

Do not group the heterozygote with the dominant homozygote. Rr has a separate blended phenotype.

Using a 3:1 ratio

A 3:1 phenotype ratio fits complete dominance. Incomplete dominance usually shows 1:2:1 for Rr by Rr.

Calling the blend codominance

A pink flower is not showing red and white separately. It is an intermediate phenotype, so it is incomplete dominance.

Related Tools

Codominance Calculator

Genetics

Compare incomplete dominance with traits where both alleles appear together.

Open Calculator

Dihybrid Cross Probability

Genetics

Practice two trait crosses and 4 by 4 Punnett square probability.

Open Calculator

Mendelian Ratio Chi Square

Genetics

Test whether observed offspring numbers fit an expected genetic ratio.

Open Calculator

Frequently Asked Questions

What is an incomplete dominance Punnett square?
An incomplete dominance Punnett square is a grid that predicts offspring when the heterozygote has an intermediate phenotype. A red snapdragon crossed with a white snapdragon produces pink heterozygous offspring because neither allele fully masks the other.
What ratio does incomplete dominance produce?
A heterozygote by heterozygote cross usually produces a 1:2:1 genotype ratio and a 1:2:1 phenotype ratio. For example, Rr by Rr gives 25% RR, 50% Rr, and 25% rr.
How do you solve an incomplete dominance Punnett square?
Write the parent genotypes, list one allele from each parent as gametes, fill the grid, count each genotype, then assign each genotype to its phenotype. In incomplete dominance, the heterozygote has its own blended phenotype.
How does incomplete dominance differ from codominance?
Incomplete dominance creates one intermediate phenotype in the heterozygote. Codominance shows both alleles at the same time. Pink snapdragon flowers show incomplete dominance. AB blood type is codominance because A and B antigens are both expressed.
How do you make a codominance Punnett square?
Use allele symbols that show both versions of the trait, place each parent gamete along the top and side of the grid, combine alleles in every box, then label the heterozygote as showing both phenotypes rather than a blend.
What does a codominance Punnett square look like?
A codominance Punnett square looks like a normal Punnett square, but the heterozygous cells are interpreted differently. For ABO blood type, IAIB is type AB, which expresses both A and B antigens.