Publications by authors named "R Bianconi"
We present in this technical note the research protocol for phase 4 of the Air Quality Model Evaluation International Initiative (AQMEII4). This research initiative is divided into two activities, collectively having three goals: (i) to define the current state of the science with respect to representations of wet and especially dry deposition in regional models, (ii) to quantify the extent to which different dry deposition parameterizations influence retrospective air pollutant concentration and flux predictions, and (iii) to identify, through the use of a common set of detailed diagnostics, sensitivity simulations, model evaluation, and reduction of input uncertainty, the specific causes for the current range of these predictions. Activity 1 is dedicated to the diagnostic evaluation of wet and dry deposition processes in regional air quality models (described in this paper), and Activity 2 to the evaluation of dry deposition point models against ozone flux measurements at multiple towers with multiyear observations (to be described in future submissions as part of the special issue on AQMEII4).
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- Accurate simulations of aerosol absorption properties are essential for understanding their impact on meteorology and climate, with the mixing state of chemical species being a significant source of uncertainty.
- This study compares aerosol optical property simulations in Europe and North America with one year of AERONET data to find a better representation of mixing states that fits observed data, focusing on black carbon's absorption enhancement.
- Findings indicate that both external and core-shell mixing assumptions lead to biases in single scattering albedo, but using a combination (partial internal mixing) helps reduce these biases while highlighting issues with the spectral dependence of absorption.
This study evaluates simulated vertical ozone profiles produced in the framework of the third phase of the Air Quality Model Evaluation International Initiative (AQMEII3) against ozonesonde observations in North America for the year 2010. Four research groups from the United States (US) and Europe have provided modeled ozone vertical profiles to conduct this analysis. Because some of the modeling systems differ in their meteorological drivers, wind speed and temperature are also included in the analysis.
View Article and Find Full Text PDFThe evaluation and intercomparison of air quality models is key to reducing model errors and uncertainty. The projects AQMEII3 and EURODELTA-Trends, in the framework of the Task Force on Hemispheric Transport of Air Pollutants and the Task Force on Measurements and Modelling, respectively (both task forces under the UNECE Convention on the Long Range Transport of Air Pollution, LTRAP), have brought together various regional air quality models to analyze their performance in terms of air concentrations and wet deposition, as well as to address other specific objectives. This paper jointly examines the results from both project communities by intercomparing and evaluating the deposition estimates of reduced and oxidized nitrogen (N) and sulfur (S) in Europe simulated by 14 air quality model systems for the year 2010.
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- The AQMEII3 initiative assesses the effects of a 20% reduction in anthropogenic emissions on air pollutant levels in 2010, focusing on Europe and North America.
- Different regional air quality modeling groups utilize advanced chemistry and transport models to simulate these changes based on data from the global C-IFS model.
- Results indicate a nearly linear correlation between reduced emissions and decreased concentrations of pollutants like NO, SO, and PM, with notable geographical variations in effects, particularly in emission hotspots.