5 Must Know Facts For Your Next Test

1. Immigration introduces new alleles into a population, which can increase genetic diversity and provide more options for adaptation to changing environments.
2. It can counteract the effects of genetic drift, especially in small populations where random changes in allele frequencies can have a significant impact.
3. The presence of immigrants can lead to hybridization with native populations, potentially affecting fitness and survival of local species.
4. Immigration can influence natural selection by introducing traits that may be advantageous or disadvantageous, altering the dynamics of competition within ecosystems.
5. Changes in allele frequencies due to immigration can result in a population being out of Hardy-Weinberg equilibrium, illustrating how real-world populations often deviate from idealized models.

Review Questions

• How does immigration contribute to genetic diversity within populations?
  • Immigration enhances genetic diversity by introducing new alleles into existing populations. This influx of genetic material can increase the overall gene pool, providing more potential variations that may help populations adapt to environmental changes. As a result, populations with higher genetic diversity tend to have better survival rates in the face of challenges such as diseases or habitat shifts.
• Discuss the role of immigration in disrupting Hardy-Weinberg equilibrium within populations.
  • Immigration disrupts Hardy-Weinberg equilibrium by altering allele frequencies through the introduction of new alleles from outside populations. This influx can create disparities between expected genotype ratios under ideal conditions and those observed in reality. When allele frequencies change due to immigration, it becomes clear that factors such as gene flow are essential considerations in understanding evolutionary dynamics.
• Evaluate the long-term evolutionary impacts of immigration on species adaptation and survival.
  • The long-term evolutionary impacts of immigration on species can be profound, as it introduces new genetic variations that may enhance adaptability and resilience. Over time, these introduced alleles may become integrated into the local gene pool, allowing populations to better cope with environmental pressures. Additionally, continuous immigration can lead to ongoing genetic exchange, preventing isolation and maintaining robust evolutionary potential, crucial for survival in a rapidly changing world.

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