Syllabus Edition
First teaching 2015
Last exams 2025
Trophospheric Ozone (DP IB Environmental Systems & Societies (ESS))
Revision Note
Written by: Alistair Marjot
Reviewed by: Bridgette Barrett
Trophospheric Ozone
Air pollution is a significant environmental issue, and one of the pollutants of concern is tropospheric ozone
Tropospheric ozone, also referred to as ground-level ozone, is formed through a series of chemical reactions involving nitrogen oxides and volatile organic compounds in the presence of sunlight
This process occurs near the Earth's surface, primarily in the lower part of the atmosphere known as the troposphere
Nitrogen oxides, mainly released from human activities such as industrial processes, vehicle emissions, and combustion of fossil fuels, react with sunlight and oxygen to produce ozone
Tropospheric ozone is highly reactive and has several negative impacts
Why is tropospheric ozone harmful?
Plant damage
High levels of ozone can damage plant tissues, impair photosynthesis, reduce crop yields, and cause visible symptoms such as leaf damage
It affects a wide range of crops, including staple crops like wheat, rice, and soybeans
Health effects of tropospheric ozone
Tropospheric ozone irritates the respiratory system, causing coughing, throat irritation, and contributes to asthma and other respiratory conditions
Prolonged exposure to high ozone levels can lead to chronic respiratory illnesses and reduced lung function
Eye irritation
Exposure to tropospheric ozone can irritate the eyes, leading to redness, tearing, and discomfort
Material degradation
Tropospheric ozone can damage materials such as rubber, fabrics, and certain plastics
It accelerates the degradation and ageing of rubber components in vehicles, tires, and industrial equipment
Ozone exposure can cause cracking, brittleness, and discolouration of materials
Don't get confused between "good" stratospheric ozone, which provides organisms with protection from harmful ultraviolet radiation, and "bad" tropospheric ozone, which can negatively impact life on Earth at high concentrations
The impacts of tropospheric ozone extend beyond local areas, as it can be transported over long distances by wind
This makes it a global environmental issue with the potential for widespread damage to vegetation, human health, and materials
Reducing the emissions of nitrogen oxides and volatile organic compounds, which are precursors to tropospheric ozone formation, is crucial to mitigating its harmful effects
Implementing air quality regulations, promoting cleaner technologies (e.g. renewable electricity generation), and adopting sustainable practices can help in controlling tropospheric ozone levels and protecting human health, crops, forests, and materials from its damaging impacts
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