5 Must Know Facts For Your Next Test

1. A population bottleneck can occur when an environmental catastrophe or human-induced change drastically reduces the population size, sometimes to just a few surviving individuals.
2. After a bottleneck event, the surviving population may have significantly reduced genetic variation, which can hinder its ability to adapt to future changes in the environment.
3. Species that experience a bottleneck may show increased vulnerability to diseases and reduced reproductive success due to the lack of genetic diversity.
4. Conservation efforts often focus on increasing population sizes and promoting genetic diversity to mitigate the negative effects of past bottlenecks.
5. Notable examples of species that have undergone severe population bottlenecks include the Northern Elephant Seal and the Cheetah, both of which exhibit low genetic diversity as a result.

Review Questions

• How does a population bottleneck influence genetic diversity within a species?
  • A population bottleneck leads to a sharp decrease in the number of individuals in a species, resulting in a significant loss of genetic diversity. When only a few individuals contribute genes to future generations, certain alleles may be lost completely while others become more common. This reduced genetic pool can limit the species' ability to adapt to environmental changes and increases the risk of extinction.
• Discuss the long-term consequences of genetic drift following a population bottleneck.
  • Following a population bottleneck, genetic drift can have pronounced effects on the small surviving population. With fewer individuals contributing to the gene pool, random fluctuations in allele frequencies can lead to significant changes over generations. This means that beneficial alleles might be lost while harmful ones become fixed, potentially jeopardizing the survival of the species as it becomes less adapted to its environment.
• Evaluate how conservation strategies can address the impacts of historical population bottlenecks on endangered species.
  • Conservation strategies aimed at addressing the impacts of historical population bottlenecks typically focus on increasing genetic diversity and population size. Measures such as captive breeding programs, habitat restoration, and controlled reintroduction can help bolster dwindling populations. Additionally, conservationists may employ techniques like gene banking and assisted gene flow to introduce new genetic material into populations. Such efforts are crucial for enhancing resilience against environmental changes and preventing further decline.

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