5 Must Know Facts For Your Next Test

1. Gene flow can counteract the effects of genetic drift by introducing new genetic material into a population, thus increasing genetic diversity.
2. It plays a crucial role in maintaining the health of populations, as gene flow can provide new alleles that may enhance adaptability to changing environments.
3. Human activities, such as agriculture and urbanization, can both promote and hinder gene flow between populations of plants and animals.
4. Gene flow can also lead to hybridization between different species, which can result in new species forming or the reinforcement of species boundaries.
5. The extent of gene flow is influenced by factors such as geographical barriers, mating behaviors, and the mobility of organisms.

Review Questions

• How does gene flow contribute to genetic diversity within populations?
  • Gene flow contributes to genetic diversity by allowing the exchange of alleles between different populations. When individuals migrate from one population to another and breed, they introduce new genetic material into the receiving population. This process increases the overall genetic variability, making populations more adaptable to environmental changes and reducing the likelihood of inbreeding depression.
• Discuss the implications of reduced gene flow on the process of speciation.
  • Reduced gene flow can lead to increased differentiation between populations, as limited exchange of genetic material allows for local adaptations and the accumulation of unique traits. Over time, this isolation can result in speciation, where populations evolve into distinct species. Barriers such as geographical separation or behavioral differences can enhance this effect by preventing interbreeding and promoting divergence.
• Evaluate how human activities have affected gene flow in various species and the potential consequences on evolutionary processes.
  • Human activities such as habitat destruction, urbanization, and climate change have significantly impacted gene flow among various species. For instance, fragmentation of habitats can create isolated populations that experience reduced gene flow, leading to inbreeding and decreased adaptability. Additionally, agricultural practices may introduce non-native species into ecosystems, altering natural gene flow dynamics. These changes can disrupt evolutionary processes, potentially resulting in loss of biodiversity and increased vulnerability of species to extinction.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.