Your search keyword '"Petersen, Anna Katinka"' showing total 6 results

1. Ensemble forecasts of air quality in eastern China – Part 2: Evaluation of the MarcoPolo–Panda prediction system, version 1.

Author

Petersen, Anna Katinka, Brasseur, Guy P., Bouarar, Idir, Flemming, Johannes, Gauss, Michael, Jiang, Fei, Kouznetsov, Rostislav, Kranenburg, Richard, Mijling, Bas, Peuch, Vincent-Henri, Pommier, Matthieu, Segers, Arjo, Sofiev, Mikhail, Timmermans, Renske, van der A, Ronald, Walters, Stacy, Xie, Ying, Xu, Jianming, and Zhou, Guangqiang

Subjects

*AIR quality, *OZONE generators, *PARTICULATE matter, *AIR pollution, *FORECASTING, WESTERN countries

Abstract

An operational multimodel forecasting system for air quality has been developed to provide air quality services for urban areas of China. The initial forecasting system included seven state-of-the-art computational models developed and executed in Europe and China (CHIMERE, IFS, EMEP MSC-W, WRF-Chem-MPIM, WRF-Chem-SMS, LOTOS-EUROS, and SILAMtest). Several other models joined the prediction system recently, but are not considered in the present analysis. In addition to the individual models, a simple multimodel ensemble was constructed by deriving statistical quantities such as the median and the mean of the predicted concentrations. The prediction system provides daily forecasts and observational data of surface ozone, nitrogen dioxides, and particulate matter for the 37 largest urban agglomerations in China (population higher than 3 million in 2010). These individual forecasts as well as the multimodel ensemble predictions for the next 72 h are displayed as hourly outputs on a publicly accessible web site (http://www.marcopolo-panda.eu , last access: 27 March 2019). In this paper, the performance of the prediction system (individual models and the multimodel ensemble) for the first operational year (April 2016 until June 2017) has been analyzed through statistical indicators using the surface observational data reported at Chinese national monitoring stations. This evaluation aims to investigate (a) the seasonal behavior, (b) the geographical distribution, and (c) diurnal variations of the ensemble and model skills. Statistical indicators show that the ensemble product usually provides the best performance compared to the individual model forecasts. The ensemble product is robust even if occasionally some individual model results are missing. Overall, and in spite of some discrepancies, the air quality forecasting system is well suited for the prediction of air pollution events and has the ability to provide warning alerts (binary prediction) of air pollution events if bias corrections are applied to improve the ozone predictions. [ABSTRACT FROM AUTHOR]

Published

2019

2. Ensemble forecasts of air quality in eastern China – Part 1: Model description and implementation of the MarcoPolo–Panda prediction system, version 1.

Author

Brasseur, Guy P., Xie, Ying, Petersen, Anna Katinka, Bouarar, Idir, Flemming, Johannes, Gauss, Michael, Jiang, Fei, Kouznetsov, Rostislav, Kranenburg, Richard, Mijling, Bas, Peuch, Vincent-Henri, Pommier, Matthieu, Segers, Arjo, Sofiev, Mikhail, Timmermans, Renske, van der A, Ronald, Walters, Stacy, Xu, Jianming, and Zhou, Guangqiang

Subjects

AIR quality, PARTICULATE matter, ATMOSPHERIC aerosols, AIR pollutants, NITROGEN oxides

Abstract

An operational multi-model forecasting system for air quality including nine different chemical transport models has been developed and provides daily forecasts of ozone, nitrogen oxides, and particulate matter for the 37 largest urban areas of China (population higher than 3 million in 2010). These individual forecasts as well as the mean and median concentrations for the next 3 days are displayed on a publicly accessible website (http://www.marcopolo-panda.eu , last access: 7 December 2018). The paper describes the forecasting system and shows some selected illustrative examples of air quality predictions. It presents an intercomparison of the different forecasts performed during a given period of time (1–15 March 2017) and highlights recurrent differences between the model output as well as systematic biases that appear in the median concentration values. Pathways to improve the forecasts by the multi-model system are suggested. [ABSTRACT FROM AUTHOR]

Published

2019

3. Ensemble Forecasts of Air Quality in Eastern China -- Part 2. Evaluation of the MarcoPolo-Panda Prediction System, Version 1.

Author

Petersen, Anna Katinka, Brasseur, Guy P., Bouarar, Idir, Flemming, Johannes, Gauss, Michael, Fei Jiang, Kouznetsov, Rostislav, Kranenburg, Richard, Bas Mijling, Peuch, Vincent-Henri, Pommier, Matthieu, Segers, Arjo, Sofiev, Mikhail, Timmermans, Renske, van der, Ronald, Walters, Stacy, Ying Xie, Jianming Xu, and Guangqiang Zhou

Subjects

*AIR quality, *OZONE

Abstract

An operational multi-model forecasting system for air quality has been developed to provide air quality services for urban areas of China. The initial forecasting system included seven state-of-the-art computational models developed and executed in Europe and China (CHIMERE, IFS, EMEP MSC-W, WRF-Chem-MPIM, WRF-Chem-SMS, LOTOS-EUROS and SILAMtest). Several other models joined the prediction system recently, but are not considered in the present analysis. In addition to the individual models, a simple multi-model ensemble was constructed by deriving statistical quantities such as the median and the mean of the predicted concentrations. The prediction system provides daily forecasts and observational data of surface ozone, nitrogen dioxides and particulate matter for the 37 largest urban agglomerations in China (population higher than 3 million in 2010). These individual forecasts as well as the multi-model ensemble predictions for the next 72 hours are displayed as hourly outputs on a publicly accessible web site (www.marcopolo-panda.eu). In this paper, the performance of the predictions system (individual models and the multi-model ensemble) for the first operational year (April 2016 until June 2017) has been analysed through statistical indicators using the surface observational data reported at Chinese national monitoring stations. This evaluation aims to investigate a) the seasonal behavior, b) the geographical distribution and c) diurnal variations of the ensemble and model skills. Statistical indicators show that the ensemble product usually provides the best performance compared to the individual model forecasts. The ensemble product is robust even if occasionally some individual model results are missing. Overall and in spite of some discrepancies, the air quality forecasting system is well suited for the prediction of air pollution events and has the ability to provide alert warning (binary prediction) of air pollution events if bias corrections are applied to improve the ozone predictions. [ABSTRACT FROM AUTHOR]

Published

2018

4. Atmospherische Spurengas-Messungen in den Tropen

Author

Petersen, Anna Katinka, Notholt, Justus, and Griffith, David

Subjects

remote sensing, atmospheric composition, 530 Physics, methane, ddc:530, flux measurements, carbon monoxide, tropics

Abstract

Fourier Transform Infrared (FTIR) spectrometry has been used for ground-based solar absorption, laboratory and flux measurements, to study the atmospheric composition, as well as physical and chemical processes in the atmosphere.The solar absorption FTIR measurements have been performed in Paramaribo, Suriname (5.8 N, 55.2 W) between September 2004 and November 2007 and represent the first remote sensing measurements in the inner tropics over severalyears. These measurements are of great importance for a better understanding of global climate and physical and chemical processes of the tropical atmosphere as well as for satellite validations. Vertical profiles of carbon monoxide (CO) and ethane (C2H6) and total columns of methane (CH4), hydrogen cyanide (HCN) and acetylene (C2H2) have been retrieved from the FTIR spectra. The quality of the methane retrieval was limited by the available spectroscopic data. Laboratory cell-based FTIR measurements have been performed to correct the methane spectroscopy in the infrared spectral region, which significantly improved the retrieval of methane from SCIAMACHY and FTIR spectra. The retrieval of methane profiles from near-infrared FTIR spectra by optimal estimation significantly improved the results. The FTIR observations of methane are compared with TM5 model simulations and satellite observations from SCIAMACHY, and are the first validation of the SCIAMACHY retrieval in the tropics using remote sensing techniques. The ratio CH4/CO2, which can be measured directly from SCIAMACHY and FTIR, compares very good, while the column averaged volume mixing ratio (XVMR(CH4)) of SCIAMACHY do not agree with the FTIR observations. Model assumptions areused in the SCIAMACHY retrieval to derive the XVMR(CH4) from the directly measured CH4/CO2 ratio. The worse agreement of SCIAMACHY XVMR(CH4) with FTIR compared to the SCIAMACHY CH4/CO2 ratio with FTIR could be attributed to unrealistic model assumptions used in the SCIAMACHY retrieval that led to wrong time series of the column averaged CH4 VMR. There is a good agreement of the FTIR XVMR(CH4) with the TM5 model. FTIR observations of carbon monoxide agree well with satellite data from the MOPITT instrument for all of the measurement campaigns. Simulations of CO and C2H6 from the MATCH-MPIC model reproduce the mean vertical structure of the FTIR observations. The model is generally not able to reproduce the extreme enhancements seen during the specific biomass burning events by both observation instruments. Nevertheless, the model indicates that beyond the backgroundsource of CO from methane oxidation, the main contributions to the CO mixing ratios are the episodic convective injection of NMHCs and CO from South American biomass burning into the upper troposphere, along with long range transport of African biomass burning CO, particularly during spring. Revised simulation of the MATCH-MPIC model with improved biomass burning emissions still fails toreproduce most of the individual observed pollution events. It generally underestimates the observed concentrations of carbon monoxide and ethane. The revised model is in better agreement with the observations in the upper troposphere, while in the boundary layer and lower troposphere the revised model underestimates the FTIR measurements and results in underestimated total columns. Current generationatmospheric chemistry models underestimate OH is the tropical region and compensate for this part by too low isoprene emissions. It is speculated that, if a mechanism like e.g. isoprene recycling and realistic isoprene emissions would be included in current models, it would result in a powerful CO source in the boundary layer over Suriname from the isoprene oxidation. The CO oxidationrate would also increase due to higher OH concentrations. Because of the complex chemistry and transport processes, it is difficult to predict the exact changes without having done the simulations. The last part of this work presents the development of an advanced flux measurement technique, consisting of a cell-based FTIR analyser and a Relaxed Eddy Accumulation (REA) system, to enable automated and continuous flux measurements of atmospheric trace gases. The combination of the REA technique with the FTIR analyzer was tested successfully in the lab and during a three weeks field campaign. The FTIR-REA technique offers the capacity to measure a range of gases simultaneously under field conditions and enables long-term measurements and monitoring of atmospheric greenhouse gas fluxes.

Published

2009

5. Five-dimensional charged rotating black holes

Author

Kunz, Jutta, Navarro-Lérida, Francisco, and Petersen, Anna Katinka

Published

2005

6. Tropical methane emissions: A revised view from SCIAMACHY onboard ENVISAT.

Author

Frankenberg, Christian, Bergamaschi, Peter, Butz, André, Houweling, Sander, Meirink, Jan Fokke, Notholt, Justus, Petersen, Anna Katinka, Schrijver, Hans, Warneke, Thorsten, and Aben, Ilse

Published

2008