5 Must Know Facts For Your Next Test

1. Evolutionary fitness is often measured by the number of offspring an individual produces that survive to reproductive age.
2. Traits that enhance an organism's evolutionary fitness can increase in frequency within a population over generations due to natural selection.
3. Evolutionary fitness does not only consider survival but also how effectively an organism can reproduce and ensure gene transmission.
4. High evolutionary fitness does not necessarily mean an organism is the strongest; it may simply be better suited for its environment.
5. Fitness can vary based on environmental changes, meaning that what makes an organism fit in one scenario might not hold true in another.

Review Questions

• How does evolutionary fitness relate to natural selection within a population?
  • Evolutionary fitness is a key component of natural selection because it determines how well an organism's traits help it survive and reproduce in its environment. Traits that improve an individual's evolutionary fitness increase the likelihood of those traits being passed on to future generations. Therefore, individuals with higher fitness are more likely to contribute to the gene pool, leading to a gradual change in the population as advantageous traits become more common.
• Discuss how genetic drift can influence the concept of evolutionary fitness in small populations.
  • In small populations, genetic drift can lead to significant changes in allele frequencies due to random events rather than natural selection. This randomness can result in some traits becoming more or less common regardless of their impact on evolutionary fitness. As a consequence, beneficial traits might diminish while detrimental traits could proliferate simply by chance, altering the overall fitness landscape of the population over time and potentially affecting its long-term survival.
• Evaluate the impact of environmental changes on the evolutionary fitness of a species and provide examples of how this can lead to adaptive evolution.
  • Environmental changes can drastically affect the evolutionary fitness of a species by altering the selective pressures they face. For instance, if a habitat undergoes climate change, certain traits that were once advantageous may no longer provide survival benefits. This can lead to adaptive evolution as individuals with beneficial mutations for new conditions survive and reproduce more successfully. For example, peppered moths have shown adaptive shifts in coloration based on industrial pollution affecting their habitats, illustrating how rapid environmental changes can drive evolutionary fitness and lead to significant changes in populations.

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