5 Must Know Facts For Your Next Test

1. Phytoplankton account for about 50% of global oxygen production through photosynthesis, making them vital for maintaining Earth's atmosphere.
2. There are two main groups of phytoplankton: diatoms and dinoflagellates, each with unique characteristics and ecological roles.
3. Phytoplankton populations can fluctuate rapidly due to changes in light availability, temperature, and nutrient levels, leading to blooms or declines.
4. Some species of phytoplankton can produce toxins that affect marine life and human health, highlighting their importance in monitoring water quality.
5. Phytoplankton serve as the foundational food source for many marine organisms, from tiny zooplankton to large fish and whales.

Review Questions

• How do phytoplankton contribute to the overall productivity of aquatic ecosystems?
  • Phytoplankton contribute significantly to aquatic ecosystems by acting as primary producers. Through photosynthesis, they convert sunlight and nutrients into organic matter, forming the base of the food web. This process not only supports zooplankton and various fish species but also plays a crucial role in regulating oxygen levels in water bodies.
• Discuss the impact of nutrient pollution on phytoplankton populations and the subsequent effects on aquatic ecosystems.
  • Nutrient pollution can lead to eutrophication, causing rapid phytoplankton growth or blooms. While this may initially increase productivity, excessive blooms can result in hypoxia when they decompose, depleting oxygen levels in the water. This creates dead zones where most marine life cannot survive, disrupting the balance of the entire ecosystem.
• Evaluate the role of phytoplankton in global climate regulation and their potential responses to changing environmental conditions.
  • Phytoplankton play a crucial role in global climate regulation by absorbing carbon dioxide during photosynthesis and producing oxygen. As climate change affects ocean temperatures and nutrient availability, phytoplankton populations may shift geographically or experience changes in bloom dynamics. These shifts can have cascading effects on marine food webs and carbon cycling, influencing broader climate patterns and ecosystem health.

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