5 Must Know Facts For Your Next Test

1. Keystone species can be predators, herbivores, or even plants and microbes that maintain ecological balance and enhance biodiversity.
2. In microbial ecosystems, certain bacteria or fungi can act as keystone species by facilitating nutrient cycling and decomposition processes critical for overall ecosystem health.
3. The removal of a keystone species can lead to dramatic shifts in community structure and biodiversity loss, often resulting in a less stable ecosystem.
4. Examples of keystone species include sea otters in coastal ecosystems, which help control sea urchin populations, and mycorrhizal fungi that support plant growth by enhancing nutrient uptake.
5. Understanding keystone species is crucial for conservation efforts, as protecting these organisms can help sustain the overall health of their ecosystems.

Review Questions

• How does the presence of a keystone species influence biodiversity within an ecosystem?
  • Keystone species influence biodiversity by maintaining the structure of the community they inhabit. Their actions often control population sizes of other species, which helps prevent any one species from dominating. This balance promotes a diverse range of organisms within the ecosystem, ensuring that various ecological niches are filled and that energy flow remains stable.
• Discuss how keystone species interact with biogeochemical cycles in their environments.
  • Keystone species interact with biogeochemical cycles by influencing nutrient availability and cycling processes. For instance, certain microbes can decompose organic matter, releasing essential nutrients back into the soil or water. This process supports plant growth and maintains ecosystem productivity. The loss of these keystone microbes can disrupt nutrient cycling and lead to degraded environmental conditions.
• Evaluate the potential consequences of losing a keystone species on both microbial communities and broader ecological systems.
  • Losing a keystone species can have severe consequences on microbial communities and broader ecological systems. The absence of these crucial organisms can lead to imbalances in population dynamics, decreased biodiversity, and disrupted biogeochemical cycles. For example, if a keystone microbe that supports nutrient cycling is lost, it may result in nutrient depletion for plants, ultimately affecting food webs and the resilience of the entire ecosystem to environmental changes.

© 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.