5 Must Know Facts For Your Next Test

1. The pH scale ranges from 0 to 14, where 7 is neutral. Ocean waters typically have a pH around 8.1 but are decreasing due to increased CO2 emissions.
2. Changes in pH levels can have significant effects on marine organisms, particularly those that rely on calcium carbonate for their shells and skeletons, like corals and shellfish.
3. Ocean acidification leads to weaker shells and skeletons in marine life, disrupting food webs and biodiversity.
4. Monitoring pH levels is essential for understanding the impacts of climate change on ocean chemistry and marine ecosystems.
5. Human activities, such as burning fossil fuels and deforestation, contribute to increased CO2 in the atmosphere, which in turn lowers ocean pH levels.

Review Questions

• How do changes in pH levels impact marine life and ecosystems in the ocean?
  • Changes in pH levels can have detrimental effects on marine life, especially organisms that depend on calcium carbonate for their structures. For instance, when ocean waters become more acidic due to lowered pH levels, species like corals and shellfish struggle to maintain their shells and skeletons. This not only threatens these individual species but also disrupts the entire marine ecosystem since these organisms serve as foundational components of food webs.
• Discuss the relationship between increased atmospheric CO2 levels and ocean pH changes.
  • Increased atmospheric CO2 levels lead to higher amounts of carbon dioxide being absorbed by the ocean, resulting in chemical reactions that lower the pH of seawater, causing ocean acidification. This phenomenon alters the balance of ions in the water, making it more acidic over time. Understanding this relationship is critical for addressing the implications of climate change on marine environments and developing strategies for conservation.
• Evaluate the potential long-term consequences of decreased ocean pH levels on global fisheries and food security.
  • Decreased ocean pH levels could have serious long-term consequences for global fisheries and food security. As key species like shellfish and coral reefs decline due to acidification, this could lead to reduced fish stocks that depend on these organisms for habitat and food. Consequently, communities relying on fisheries for livelihoods would face economic challenges. Furthermore, a decline in marine biodiversity could disrupt ecosystem services crucial for sustaining healthy oceans, ultimately impacting food security worldwide.

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