Environmental Management AS CIE
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1-1-continents-and-oceans as1 主题
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1-2-country-classification-by-income-level as1 主题
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1-3-sustainability as1 主题
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1-4-the-water-cycle as1 主题
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1-5-the-structure-and-composition-of-the-atmosphere as2 主题
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1-6-ecosystems as5 主题
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2-1-the-scientific-method as2 主题
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2-2-environmental-research-in-the-context-of-climate-change as2 主题
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2-3-collection-of-environmental-data as1 主题
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2-4-data-collection-techniques-and-data-analysis as2 主题
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2-5-the-use-of-technology-in-data-collection-and-analysis as1 主题
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3-1-human-population-dynamics-and-structure as2 主题
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3-2-impacts-of-human-population-change as1 主题
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3-3-managing-human-population-change as1 主题
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4-1-ecosystems as4 主题
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4-2-managing-the-conservation-of-biodiversity as4 主题
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4-3-impacts-of-human-activity-on-ecosystems as2 主题
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5-1-food-security as2 主题
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5-2-energy-resources as3 主题
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5-3-waste-management as2 主题
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6-1-global-water-distribution as3 主题
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7-1-acid-deposition as1 主题
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7-2-photochemical-smog as1 主题
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7-3-managing-air-pollution as1 主题
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7-4-ozone-depletion as2 主题
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8-1-climate-change as2 主题
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8-2-the-impacts-of-climate-change as1 主题
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8-3-managing-climate-change as1 主题
7-2-1-photochemical-smog as
Exam code:8291
Photochemical Smog
Trophospheric Ozone
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Air pollution is a significant environmental issue, and one of the pollutants of concern is tropospheric ozone
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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:
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This process occurs near the Earth’s surface, primarily in the lower part of the atmosphere known as the troposphere
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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
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Tropospheric ozone is highly reactive and has several negative impacts
What is Photochemical Smog?
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Smog is a type of air pollution characterised by a complex mixture of primary and secondary pollutants:
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Tropospheric ozone is a major component of smog
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Deforestation and burning of biomass release large amounts of particulate matter, volatile organic compounds and other pollutants into the atmosphere
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These emissions can contribute to the formation of smog by increasing the concentration of primary pollutants and providing additional reactive substances for secondary pollutant formation
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To some extent, forested areas can act as natural sinks for air pollutants, so their removal can exacerbate smog formation in surrounding regions
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Impacts of Photochemical Smog
Why is Tropospheric Ozone Harmful?
Plant Damage
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High levels of ozone can damage plant tissues, impair photosynthesis, reduce crop yields and cause visible symptoms such as leaf damage
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It affects a wide range of crops, including staple crops like wheat, rice and soybeans
Respiratory Issues
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Tropospheric ozone irritates the respiratory system, causing coughing, throat irritation, and contributes to asthma and other respiratory conditions
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Prolonged exposure to high ozone levels can lead to chronic respiratory illnesses and reduced lung function
Eye Irritation
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Exposure to tropospheric ozone can irritate the eyes, leading to redness, tearing and discomfort
Material Degradation
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Tropospheric ozone can damage materials such as rubber, fabrics and certain plastics
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It accelerates the degradation and ageing of rubber components in vehicles, tires and industrial equipment
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Ozone exposure can cause cracking, brittleness and discolouration of materials
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The impacts of tropospheric ozone extend beyond local areas, as it can be transported over long distances by wind
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This makes it a global environmental issue with the potential for widespread damage to vegetation, human health and materials
Responses