A 3-inch plant was crossed with a 15-inch plant, and all F₁ plants were 9 inches. The F₂ plants exhibited a 'normal distribution,' with heights of 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15 inches.

What will be the outcome if the F₁ plants are testcrossed with plants that are homozygous for all nonadditive alleles?

Quantitative traits are characteristics that are influenced by multiple genes and exhibit a continuous range of phenotypes, such as height. In this case, the plant heights show a normal distribution, indicating that multiple alleles contribute to the trait, resulting in a variety of heights in the F₂ generation.

A testcross is a genetic cross between an individual with an unknown genotype and a homozygous recessive individual. This method helps determine the genotype of the unknown individual by analyzing the phenotypes of the offspring. In this scenario, crossing the F₁ plants with homozygous nonadditive alleles will reveal the genetic contributions of the F₁ plants.

Additive alleles contribute to the phenotype in a cumulative manner, while nonadditive alleles do not follow this pattern and can mask the effects of other alleles. In the context of the question, crossing F₁ plants with homozygous nonadditive alleles will help clarify how these alleles influence the resulting plant heights and the overall distribution of traits in the offspring.