5 Must Know Facts For Your Next Test

1. Keystone species can be predators, prey, or even plants that help to regulate populations of other species within an ecosystem.
2. Removing a keystone species can lead to significant shifts in the ecosystem, potentially causing some species to dominate while others may go extinct.
3. Examples of keystone species include sea otters, which help control sea urchin populations, and elephants that modify habitats by uprooting trees.
4. In parasitology, certain parasites can function as keystone species by influencing host population dynamics and ecosystem health.
5. The presence of a keystone species can enhance overall biodiversity by creating niches that other species can exploit.

Review Questions

• How do keystone species influence biodiversity within an ecosystem?
  • Keystone species influence biodiversity by maintaining the balance of various populations within an ecosystem. They can prevent any single species from becoming overly dominant, which allows for a greater variety of organisms to coexist. For instance, when predators maintain the populations of herbivores, it allows plant diversity to thrive since overgrazing is controlled. Thus, the removal of a keystone species can lead to reduced biodiversity as certain species may flourish unchecked while others decline.
• Evaluate the role of keystone species in relation to ecological interactions involving parasites.
  • Keystone species can significantly affect ecological interactions that involve parasites by shaping host populations and influencing community dynamics. For example, if a keystone predator regulates prey populations, this can impact the distribution and abundance of parasites associated with those prey. Changes in these relationships may alter the prevalence of diseases or affect the microbial communities within hosts, showcasing how interconnected ecological roles are within an ecosystem.
• Assess the implications of losing a keystone species on both the ecosystem's health and its associated microbiome.
  • Losing a keystone species can have dire implications for an ecosystem's health and its associated microbiome. The removal may lead to imbalances where certain organisms proliferate at the expense of others, leading to decreased biodiversity and potential collapse of certain food webs. Additionally, such shifts can disrupt interactions between hosts and their microbiomes, affecting nutrient cycling and host health. This cascading effect emphasizes how crucial keystone species are in maintaining not just ecological balance but also the integrity of microbial communities essential for ecosystem functions.

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