5 Must Know Facts For Your Next Test

1. The stratospheric ozone layer is crucial for life on Earth as it absorbs about 97-99% of the sun's harmful UV radiation.
2. Ozone depletion primarily occurs due to human-made chemicals like CFCs, which can linger in the atmosphere for decades before being broken down.
3. The Montreal Protocol, established in 1987, was a landmark international treaty aimed at phasing out the production and consumption of ozone-depleting substances.
4. Increased UV radiation resulting from stratospheric ozone depletion can lead to higher rates of skin cancer and cataracts in humans, as well as negative effects on wildlife and ecosystems.
5. Monitoring stratospheric ozone levels is essential for assessing air quality and protecting public health, as well as understanding broader climate change dynamics.

Review Questions

• How does stratospheric ozone contribute to maintaining atmospheric chemistry and air quality?
  • Stratospheric ozone is vital for maintaining atmospheric chemistry as it absorbs harmful UV radiation, which can lead to chemical reactions that produce secondary pollutants. By filtering out these UV rays, the ozone layer helps prevent chemical imbalances in the atmosphere that could degrade air quality. This protective function also helps reduce the formation of ground-level ozone, a significant air pollutant that affects human health and environmental integrity.
• Evaluate the impact of CFCs on stratospheric ozone levels and discuss how international agreements have addressed this issue.
  • CFCs have a detrimental impact on stratospheric ozone levels because they release chlorine atoms when exposed to UV radiation, leading to significant ozone depletion. The Montreal Protocol was established as an effective international agreement that successfully phased out the production of many ozone-depleting substances, including CFCs. This coordinated global effort has resulted in a gradual recovery of the ozone layer, showcasing the importance of international cooperation in addressing environmental challenges.
• Assess the long-term implications of continued stratospheric ozone depletion on global ecosystems and human health.
  • Continued stratospheric ozone depletion poses serious long-term implications for global ecosystems and human health. Increased levels of UV radiation can disrupt aquatic food chains by affecting phytoplankton growth, which is crucial for marine ecosystems. Additionally, heightened UV exposure can lead to increased rates of skin cancer and cataracts in humans, as well as adversely affecting crop yields and livestock productivity. These changes not only threaten biodiversity but also have significant socioeconomic consequences for communities reliant on agriculture and natural resources.

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