Genetics · Simulation-lite activity

Breeder's Challenge

Predict inheritance ratios, then breed real (randomly sampled) Florn offspring and discover the gap between prediction and reality — and why it narrows with bigger batches.

What you'll do

This is a breeding lab simulation. For each of five stages you'll get a brief explanation, build a Punnett square prediction, breed a batch of original fictional creatures called Florns, compare your prediction to the actual outcome, and explain what you observed.

Learning objectives

Predict ratios Predict offspring genotypes and phenotype ratios from a cross (NGSS* HS-LS3-3).
Probability Use probability to explain why actual offspring vary from the prediction (NGSS* HS-LS3-3).
Determine genotype Determine an unknown genotype from observed traits and offspring (NGSS* HS-LS3-1).

Meet the Florn

Florns are a fictional diploid organism with two independently assorting Mendelian traits: horns (H, horned, is dominant over h, hornless) and body color (G, green, is dominant over g, purple). No real organism was used as a model; all genetics are original.

HH or Hh, GG or Gg
Horned · Green

HH or Hh, gg
Horned · Purple

hh, GG or Gg
Hornless · Green

hh, gg
Hornless · Purple

Five stages

A — One trait, small batch: Predict then breed 8 Florns. See how they scatter from 3:1.
B — Large batches converge: Keep breeding the same cross and watch the running tally approach 3:1.
C — Test cross: Uncover a hidden genotype using a strategic cross.
D — Dihybrid: Fill a 4×4 Punnett square and predict 9:3:3:1.
E — CER capstone: Build a Claim–Evidence–Reasoning response about why real breeding never lands exactly on prediction.

Teacher note

Results break down by the three learning objectives with a 4–1 mastery scale, and students receive a randomly generated completion code (e.g., GEN-BR-1234). The code is optional evidence of completion, generated in the browser — not secure proof of identity. NGSS* HS-LS3-3, HS-LS3-1. No student data is stored or transmitted.