Paul S. Monks scite author profile

Abstract. Ozone holds a certain fascination in atmospheric science. It is ubiquitous in the atmosphere, central to tropospheric oxidation chemistry, yet harmful to human and ecosystem health as well as being an important greenhouse gas. It is not emitted into the atmosphere but is a byproduct of the very oxidation chemistry it largely initiates. Much effort is focused on the reduction of surface levels of ozone owing to its health and vegetation impacts, but recent efforts to achieve reductions in exposure at a country scale have proved difficult to achieve owing to increases in background ozone at the zonal hemispheric scale. There is also a growing realisation that the role of ozone as a short-lived climate pollutant could be important in integrated air quality climate change mitigation. This review examines current understanding of the processes regulating tropospheric ozone at global to local scales from both measurements and models. It takes the view that knowledge across the scales is important for dealing with air quality and climate change in a synergistic manner. The review shows that there remain a number of clear challenges for ozone such as explaining surface trends, incorporating new chemical understanding, ozone-climate coupling, and a better assessment of impacts. There is a clear and present need to treat ozone across the range of scales, a transboundary issue, but with an emphasis on the hemispheric scales. New observational opportunities are offered both by satellites and small sensors that bridge the scales.

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Proton-Transfer Reaction Mass Spectrometry

Blake

2009

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Atmospheric composition change – global and regional air quality

Monks

Granier

Fuzzi

et al. 2009

Atmospheric Environment

787

414

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1. Scope -is the work directly or implicitly related to atmospheric composition? 2. Novelty -does the work provide a) a general and/or broader relevance (e.g. not a pure local study), b) new results or methods, and c) does it add significantly to the knowledge of atmospheric composition and its impacts?3. Quality -does the work contain high quality a) atmospheric observations, b) process studies, c) modeling exercises or d) data analysis?Will your paper be within the scope of Atmospheric Environment?We try to be flexible with novel scientific articles on issues of atmospheric composition even, if they are not directly related to atmospheric measurements (e.g. wind tunnel studies, dynamometer studies, remote sensing retrieval, etc). However, we are still cautious of purely mathematical derivations, preliminary results or insignificant case and local studies. The authors should make sure that the articles contain substantial contributions to the science of atmospheric composition before sending them for review.

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MAX‐DOAS O₄ measurements: A new technique to derive information on atmospheric aerosols: 2. Modeling studies

et al. 2006

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[1] A new retrieval algorithm for the determination of aerosol properties using MultiAXis Differential Optical Absorption Spectroscopy (MAX-DOAS) measurements based on nonlinear optimal estimation is presented. Using simulated MAX-DOAS measurements of the optical depth of the collision complex of oxygen (O 4 ) as well as the variation of the intensity of diffuse skylight measured at different viewing directions and wavelengths, the capability of this measurement technique to derive the aerosol extinction profile as well as information on the phase function and single scattering albedo is demonstrated. The information content, vertical resolution and retrieval errors under various atmospheric conditions are discussed. Furthermore, it is demonstrated that the assumption of a smooth variation of the aerosol properties between successive measurements can be used to improve the quality of the retrieval by applying a Kalman smoother. The results of these model studies suggest that the achievable precision of MAX-DOAS measurements of the aerosol total optical depth is better than 0.01 and thus comparable with established methods of aerosol detection by Sun photometers (e.g., within the AERONET network) over a wide range of atmospheric conditions. Moreover, MAX-DOAS measurements contain information on the vertical profile of the aerosol extinction, and can be performed with relatively simple, robust and self-calibrating instruments.

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Gas-phase radical chemistry in the troposphere

2005

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Paul S. Monks

Tropospheric ozone and its precursors from the urban to the global scale from air quality to short-lived climate forcer

Proton-Transfer Reaction Mass Spectrometry

Atmospheric composition change – global and regional air quality

MAX‐DOAS O₄ measurements: A new technique to derive information on atmospheric aerosols: 2. Modeling studies

Gas-phase radical chemistry in the troposphere

Contact Info

Product

Resources

About

Paul S. Monks

Tropospheric ozone and its precursors from the urban to the global scale from air quality to short-lived climate forcer

Proton-Transfer Reaction Mass Spectrometry

Atmospheric composition change – global and regional air quality

MAX‐DOAS O4 measurements: A new technique to derive information on atmospheric aerosols: 2. Modeling studies

Gas-phase radical chemistry in the troposphere

Contact Info

Product

Resources

About

MAX‐DOAS O₄ measurements: A new technique to derive information on atmospheric aerosols: 2. Modeling studies