Changes in tropospheric composition and air quality due to stratospheric ozone depletion and climate change

Wilson, Stephen R.; Solomon, Keith R.; Tang, Xiaoyan

doi:10.1039/b700022g

Cited by 31 publications

(24 citation statements)

References 89 publications

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“…Although tropospheric O 3 has increased as a result of air pollution, stratospheric O 3 has been considerably reduced due to the emission of chlorofluorocarbons (and related chemicals) into the atmosphere. These chemicals break down stratospheric O 3 and thus, deplete the O 3 layer, of which the main role is the absorption of high energy UV radiation (Wilson et al 2007).…”

Section: Enhanced Uv Light Effectsmentioning

confidence: 99%

Global Change Effects on Plant Chemical Defenses against Insect Herbivores

Bidart‐Bouzat

Imeh-Nathaniel

2008

JIPB

211

143

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This review focuses on individual effects of major global change factors, such as elevated CO 2 , O 3 , UV light and temperature, on plant secondary chemistry. These secondary metabolites are well-known for their role in plant defense against insect herbivory. Global change effects on secondary chemicals appear to be plant species-specific and dependent on the chemical type. Even though plant chemical responses induced by these factors are highly variable, there seems to be some specificity in the response to different environmental stressors. For example, even though the production of phenolic compounds is enhanced by both elevated CO 2 and UV light levels, the latter appears to primarily increase the concentrations of flavonoids. Likewise, specific phenolic metabolites seem to be induced by O 3 but not by other factors, and an increase in volatile organic compounds has been particularly detected under elevated temperature. More information is needed regarding how global change factors influence inducibility of plant chemical defenses as well as how their indirect and direct effects impact insect performance and behavior, herbivory rates and pathogen attack. This knowledge is crucial to better understand how plants and their associated natural enemies will be affected in future changing environments. Climate change has been defined as "any change in climate over time, whether due to natural variability or as a result of human activity" (Intergovernmental Panel on Climate Change, IPCC 2007). However, this term is usually used in the context of global changes resulting from anthropogenic actions. Regardless of subtle differences in the usage of this term, there is a general consensus that current changes in climatic factors are primarily due to human-driven practices such as burning of fossil fuels and deforestation. These activities release significant amounts carbon into the atmosphere, which have caused a dramatic increase in carbon dioxide (CO 2 ) concentrations during the past 60 years. The IPCC has repeatedly reported that augmented emissions of greenhouse gases into the atmosphere (mainly elevated CO 2 followed by methane and ozone) are the major cause of climatic changes observed today. These changes include global warming, precipitation fluctuations, rising sea levels and other "extreme climatic events". Despite the amount of information that exists on global climate change, little is known regarding how these changes may affect natural ecosystems, particularly interactions among living organisms.Interactions of plants and insects are of major importance in most natural ecosystems since these two groups of organisms are extremely diverse and comprise almost 50% of all identified species on earth (Price 1997). The phytochemical coevolution theory suggests that secondary metabolites are likely the most important mediators of plant-insect interactions (Ehrlich and Raven 1964; Berenbaum 1983 Berenbaum , 1995 Cornell and Hawkins 2003). According to this theory, both plants and insect herbivores gene...

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Section: Enhanced Uv Light Effectsmentioning

confidence: 99%

Global Change Effects on Plant Chemical Defenses against Insect Herbivores

Bidart‐Bouzat

Imeh-Nathaniel

2008

JIPB

211

143

View full text Add to dashboard Cite

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“…The hydroxyl radical, which is considered as the reactive free radicals in the photochemical degradation of organic pollutants in the environment, has been shown to be potentially reduced due to binding with NNPs 268, 269 . Its reduction is responsible for the increase in green house gas emission and ultimately ozone layer depletion, causing severe environmental damage 270 consideration. The ways in which organisms might be exposed to nanoparticles rather than the ways in which effects are measured, are the main consideration for the exposure assessment of nanoparticles 274 .…”

Section: Fate Of Contaminantsmentioning

confidence: 99%

Natural Nanoparticles: Implications for Environment and Human Health

Harris

2014

Critical Reviews in Environmental Science and Technology

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In the last decade, extensive studies have been conducted to understand the chemical and biological processes of nanoparticles and their effects on ecological functions and human health. This review focuses on the nature and properties of natural nanoparticles (NNPs) and their influence on the physical, chemical, and biological processes in plant-soil-water systems.The NNPs are involved directly or indirectly in numerous soil processes such as aggregate formation, nutrient retention, microbial activities, and water purification and pollution mitigation and thus affect soil/environment quality and human health. This paper is intended to provide a brief review of recent progress in related fields.

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“…NNPs being very reactive immediately bind with hydroxyl radicals and ultimately result in the overall reduction of hydroxyl radicals [35,36]. As hydroxyl radicals are strong oxidants and thereby degrading many pollutants, its reduction is responsible for the increase in green house gases, which are ultimately responsible for ozone layer depletion (Figure 4) and cause severe environmental damage [37]. Furthermore it increases the exposure to UV radiation [38], which leads to the increase in incidences of various types of skin cancer in humans.…”

Section: Elements Of the Np Cause-effect Diagrammentioning

confidence: 99%

Nanoparticles in the environment: assessment using the causal diagram approach

et al. 2012

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Nanoparticles (NPs) cause concern for health and safety as their impact on the environment and humans is not known. Relatively few studies have investigated the toxicological and environmental effects of exposure to naturally occurring NPs (NNPs) and man-made or engineered NPs (ENPs) that are known to have a wide variety of effects once taken up into an organism.A review of recent knowledge (between 2000-2010) on NP sources, and their behaviour, exposure and effects on the environment and humans was performed. An integrated approach was used to comprise available scientific information within an interdisciplinary logical framework, to identify knowledge gaps and to describe environment and health linkages for NNPs and ENPs.The causal diagram has been developed as a method to handle the complexity of issues on NP safety, from their exposure to the effects on the environment and health. It gives an overview of available scientific information starting with common sources of NPs and their interactions with various environmental processes that may pose threats to both human health and the environment. Effects of NNPs on dust cloud formation and decrease in sunlight intensity were found to be important environmental changes with direct and indirect implication in various human health problems. NNPs and ENPs exposure and their accumulation in biological matrices such as microbiota, plants and humans may result in various adverse effects. The impact of some NPs on human health by ROS generation was found to be one of the major causes to develop various diseases.A proposed cause-effects diagram for NPs is designed considering both NNPs and ENPs. It represents a valuable information package and user-friendly tool for various stakeholders including students, researchers and policy makers, to better understand and communicate on issues related to NPs.

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Changes in tropospheric composition and air quality due to stratospheric ozone depletion and climate change

Cited by 31 publications

References 89 publications

Global Change Effects on Plant Chemical Defenses against Insect Herbivores

Global Change Effects on Plant Chemical Defenses against Insect Herbivores

Natural Nanoparticles: Implications for Environment and Human Health

Nanoparticles in the environment: assessment using the causal diagram approach

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