5 Must Know Facts For Your Next Test

1. Phytoplankton are responsible for about 50% of the Earth's oxygen production through photosynthesis.
2. They form the base of the aquatic food web, supporting larger organisms such as fish and whales.
3. Phytoplankton populations can rapidly increase under favorable conditions, leading to algal blooms that can disrupt ecosystems.
4. Different species of phytoplankton have varying nutrient requirements, affecting their distribution and abundance in aquatic environments.
5. Climate change impacts phytoplankton growth by altering water temperature, salinity, and nutrient availability, which can affect marine biodiversity.

Review Questions

• How do phytoplankton contribute to the marine food web and overall ecosystem health?
  • Phytoplankton are essential for the marine food web as they serve as primary producers, converting sunlight into energy through photosynthesis. This process not only produces oxygen but also creates organic materials that are consumed by zooplankton and other higher trophic levels. Their presence and health are crucial for supporting diverse aquatic life and maintaining the balance within aquatic ecosystems.
• Analyze the effects of eutrophication on phytoplankton populations and aquatic ecosystems.
  • Eutrophication leads to an excess of nutrients in water bodies, which can cause uncontrolled phytoplankton growth or algal blooms. While this initial growth may seem beneficial, it often results in negative consequences such as oxygen depletion when the phytoplankton die and decompose. This process can create dead zones where aquatic life cannot survive, demonstrating how an imbalance in nutrient levels can severely impact ecosystem health.
• Evaluate the implications of climate change on phytoplankton dynamics and global biogeochemical cycles.
  • Climate change is significantly impacting phytoplankton dynamics by altering temperature patterns, salinity levels, and nutrient distributions in oceans and freshwater systems. These changes can lead to shifts in species composition and productivity, affecting food webs and carbon cycling. Given that phytoplankton play a vital role in sequestering carbon dioxide from the atmosphere through photosynthesis, any alterations in their populations can have far-reaching effects on global biogeochemical cycles and climate regulation.

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