What This Document Is
This document presents a student’s lab work and analysis related to population genetics principles, specifically the Hardy-Weinberg equilibrium, as part of the BIO 2011L Principles of Biology course at Miami Dade College. It details observations from a simulation, statistical analysis, and comparisons with results from other students. A second experiment explores genetic drift using a bead model simulation.
Why This Document Matters
This document is valuable for students enrolled in BIO 2011L who are studying population genetics. It serves as a practical application of theoretical concepts learned in class, demonstrating how to analyze data, interpret results, and draw conclusions about allele and genotype frequencies within a population. It’s likely used as a graded assignment to assess understanding of these concepts.
Common Limitations or Challenges
This document represents *one* student’s interpretation and results. It doesn’t provide a comprehensive overview of population genetics or a definitive answer key. It focuses on specific simulations and may not cover all nuances of the Hardy-Weinberg model or genetic drift. It’s a record of learning, not a substitute for core course materials.
What This Document Provides
The document includes:
* Observed genotypic frequencies (homozygous dominant, homozygous recessive, heterozygous) from a population simulation.
* An assessment of whether observed results align with expected results based on statistical analysis.
* A comparison of results with those of other students.
* An evaluation of whether the simulation matches predictions for Hardy-Weinberg equilibrium.
* Hypotheses, predictions, and results from a simulation of genetic drift using a bead model.
* Discussion of the impact of a bottleneck effect on allelic frequencies.
* Observations on the patterns of change for p and q alleles.
This preview does *not* include the raw data from the simulations, the specific statistical tests performed, or detailed graphs of the data. It also does not provide a full explanation of the Hardy-Weinberg equations or the underlying principles of genetic drift.