Search

Your search keyword '"Kulmala M"' showing total 2,539 results
Start Over Author "Kulmala M"
2,539 results on '"Kulmala M"'

5. After-use of cutover peatland from the perspective of landowners: Future effects on the national greenhouse gas budget in Finland

Author

Laasasenaho, K., Lauhanen, R., Räsänen, A., Palomäki, A., Viholainen, I., Markkanen, T., Aalto, T., Ojanen, P., Minkkinen, K., Jokelainen, L., Lohila, A., Siira, O.-P., Marttila, H., Päkkilä, L., Albrecht, E., Kuittinen, S., Pappinen, A., Ekman, E., Kübert, A., Lampimäki, M., Lampilahti, J., Shahriyer, A.H., Tyystjärvi, V., Tuunainen, A.-M., Leino, J., Ronkainen, T., Peltonen, L., Vasander, H., Petäjä, T., and Kulmala, M.

Published
2023
Full Text
View/download PDF

6. Size-dependent influence of NOx on the growth rates of organic aerosol particles

Author

Yan, C, Nie, W, Vogel, AL, Dada, L, Lehtipalo, K, Stolzenburg, D, Wagner, R, Rissanen, MP, Xiao, M, Ahonen, L, Fischer, L, Rose, C, Bianchi, F, Gordon, H, Simon, M, Heinritzi, M, Garmash, O, Roldin, P, Dias, A, Ye, P, Hofbauer, V, Amorim, A, Bauer, PS, Bergen, A, Bernhammer, A-K, Breitenlechner, M, Brilke, S, Buchholz, A, Mazon, S Buenrostro, Canagaratna, MR, Chen, X, Ding, A, Dommen, J, Draper, DC, Duplissy, J, Frege, C, Heyn, C, Guida, R, Hakala, J, Heikkinen, L, Hoyle, CR, Jokinen, T, Kangasluoma, J, Kirkby, J, Kontkanen, J, Kürten, A, Lawler, MJ, Mai, H, Mathot, S, Mauldin, RL, Molteni, U, Nichman, L, Nieminen, T, Nowak, J, Ojdanic, A, Onnela, A, Pajunoja, A, Petäjä, T, Piel, F, Quéléver, LLJ, Sarnela, N, Schallhart, S, Sengupta, K, Sipilä, M, Tomé, A, Tröstl, J, Väisänen, O, Wagner, AC, Ylisirniö, A, Zha, Q, Baltensperger, U, Carslaw, KS, Curtius, J, Flagan, RC, Hansel, A, Riipinen, I, Smith, JN, Virtanen, A, Winkler, PM, Donahue, NM, Kerminen, V-M, Kulmala, M, Ehn, M, and Worsnop, DR

Subjects
Climate Action
Abstract

Atmospheric new-particle formation (NPF) affects climate by contributing to a large fraction of the cloud condensation nuclei (CCN). Highly oxygenated organic molecules (HOMs) drive the early particle growth and therefore substantially influence the survival of newly formed particles to CCN. Nitrogen oxide (NOx) is known to suppress the NPF driven by HOMs, but the underlying mechanism remains largely unclear. Here, we examine the response of particle growth to the changes of HOM formation caused by NOx. We show that NOx suppresses particle growth in general, but the suppression is rather nonuniform and size dependent, which can be quantitatively explained by the shifted HOM volatility after adding NOx. By illustrating how NOx affects the early growth of new particles, a critical step of CCN formation, our results help provide a refined assessment of the potential climatic effects caused by the diverse changes of NOx level in forest regions around the globe.

Published
2020

8. Influence of biogenic emissions from boreal forests on aerosol–cloud interactions

Author

Petäjä, T., Tabakova, K., Manninen, A., Ezhova, E., O’Connor, E., Moisseev, D., Sinclair, V. A., Backman, J., Levula, J., Luoma, K., Virkkula, A., Paramonov, M., Räty, M., Äijälä, M., Heikkinen, L., Ehn, M., Sipilä, M., Yli-Juuti, T., Virtanen, A., Ritsche, M., Hickmon, N., Pulik, G., Rosenfeld, D., Worsnop, D. R., Bäck, J., Kulmala, M., and Kerminen, V.-M.

Published
2022
Full Text
View/download PDF

9. IrMaSet: Intelligent Weather Forecaster System for Hyper-Local Renewable Energies

Author

Zaidan, M.A., Motlagh, N.H., Zakeri, B., Petäjä, T., Kulmala, M., Tarkoma, S., Zaidan, M.A., Motlagh, N.H., Zakeri, B., Petäjä, T., Kulmala, M., and Tarkoma, S.

Abstract

Weather forecasting plays a vital role in estimating energy generation from variable renewable energy sources (VRES). Current weather forecast methods for estimating energy from VRES are typically at a scale of a few kilometers, which is not the fine spatial resolution needed for distributed energy planning. In this paper, we propose IrMaSet (an intelligent weather forecaster system) that integrates weather data obtained from existing massive sensing infrastructure and processes data using state-of-the-art communication and computational technologies. IrMaSet generates hyper-local real-time weather and forecast information (HyReF) and enables accurate estimation of the amount of electricity to be generated by VRES, resulting in the optimal management of microgrid energy systems. We present challenges and possible solutions for deploying IrMaSet and demonstrate the feasibility of IrMaSet in saving energy, and reducing costs and carbon emissions, using meteorological data including wind and solar radiation from eleven official monitoring stations (OMS) in greater Helsinki, Finland.

Published
2024
Full Text
View/download PDF

10. Biogenic particles formed in the Himalaya as an important source of free tropospheric aerosols

Author

Bianchi, F., Junninen, H., Bigi, A., Sinclair, V. A., Dada, L., Hoyle, C. R., Zha, Q., Yao, L., Ahonen, L. R., Bonasoni, P., Buenrostro Mazon, S., Hutterli, M., Laj, P., Lehtipalo, K., Kangasluoma, J., Kerminen, V.-M., Kontkanen, J., Marinoni, A., Mirme, S., Molteni, U., Petäjä, T., Riva, M., Rose, C., Sellegri, K., Yan, C., Worsnop, D. R., Kulmala, M., Baltensperger, U., and Dommen, J.

Published
2021
Full Text
View/download PDF

11. Effect of dimethylamine on the gas phase sulfuric acid concentration measured by Chemical Ionization Mass Spectrometry

Author

Rondo, L, Ehrhart, S, Kürten, A, Adamov, A, Bianchi, F, Breitenlechner, M, Duplissy, J, Franchin, A, Dommen, J, Donahue, NM, Dunne, EM, Flagan, RC, Hakala, J, Hansel, A, Keskinen, H, Kim, J, Jokinen, T, Lehtipalo, K, Leiminger, M, Praplan, A, Riccobono, F, Rissanen, MP, Sarnela, N, Schobesberger, S, Simon, M, Sipilä, M, Smith, JN, Tomé, A, Tröstl, J, Tsagkogeorgas, G, Vaattovaara, P, Winkler, PM, Williamson, C, Wimmer, D, Baltensperger, U, Kirkby, J, Kulmala, M, Petäjä, T, Worsnop, DR, and Curtius, J

Subjects
Earth Sciences, Atmospheric Sciences, CLOUD experiment, nucleation, Chemical Ionization-Atmospheric Pressure interface-Time Of Flight Mass Spectrometer, Chemical Ionization‐Atmospheric Pressure interface‐Time Of Flight Mass Spectrometer, Physical Geography and Environmental Geoscience, Atmospheric sciences, Climate change science
Abstract

Sulfuric acid is widely recognized as a very important substance driving atmospheric aerosol nucleation. Based on quantum chemical calculations it has been suggested that the quantitative detection of gas phase sulfuric acid (H2SO4) by use of Chemical Ionization Mass Spectrometry (CIMS) could be biased in the presence of gas phase amines such as dimethylamine (DMA). An experiment (CLOUD7 campaign) was set up at the CLOUD (Cosmics Leaving OUtdoor Droplets) chamber to investigate the quantitative detection of H2SO4 in the presence of dimethylamine by CIMS at atmospherically relevant concentrations. For the first time in the CLOUD experiment, the monomer sulfuric acid concentration was measured by a CIMS and by two CI-APi-TOF (Chemical Ionization-Atmospheric Pressure interface-Time Of Flight) mass spectrometers. In addition, neutral sulfuric acid clusters were measured with the CI-APi-TOFs. The CLOUD7 measurements show that in the presence of dimethylamine (

Published
2016

12. Aqueous phase oxidation of sulphur dioxide by ozone in cloud droplets

Author

Hoyle, CR, Fuchs, C, Jarvinen, E, Saathoff, H, Dias, A, El Haddad, I, Gysel, M, Coburn, SC, Trostl, J, Hansel, A, Bianchi, F, Breitenlechner, M, Corbin, JC, Craven, J, Donahue, NM, Duplissy, J, Ehrhart, S, Frege, C, Gordon, H, Hoppel, N, Heinritzi, M, Kristensen, TB, Molteni, U, Nichman, L, Pinterich, T, Prevôt, ASH, Simon, M, Slowik, JG, Steiner, G, Tome, A, Vogel, AL, Volkamer, R, Wagner, AC, Wagner, R, Wexler, AS, Williamson, C, Winkler, PM, Yan, C, Amorim, A, Dommen, J, Curtius, J, Gallagher, MW, Flagan, RC, Kirkby, J, Kulmala, M, Mohler, O, Stratmann, F, Worsnop, DR, and Baltensperger, U

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

The growth of aerosol due to the aqueous phase oxidation of sulfur dioxide by ozone was measured in laboratory-generated clouds created in the Cosmics Leaving OUtdoor Droplets (CLOUD) chamber at the European Organization for Nuclear Research (CERN). Experiments were performed at 10 and-10 °C, on acidic (sulfuric acid) and on partially to fully neutralised (ammonium sulfate) seed aerosol. Clouds were generated by performing an adiabatic expansion-pressurising the chamber to 220 hPa above atmospheric pressure, and then rapidly releasing the excess pressure, resulting in a cooling, condensation of water on the aerosol and a cloud lifetime of approximately 6 min. A model was developed to compare the observed aerosol growth with that predicted using oxidation rate constants previously measured in bulk solutions. The model captured the measured aerosol growth very well for experiments performed at 10 and-10 °C, indicating that, in contrast to some previous studies, the oxidation rates of SO2 in a dispersed aqueous system can be well represented by using accepted rate constants, based on bulk measurements. To the best of our knowledge, these are the first laboratory-based measurements of aqueous phase oxidation in a dispersed, supercooled population of droplets. The measurements are therefore important in confirming that the extrapolation of currently accepted reaction rate constants to temperatures below 0 °C is correct.

Published
2016

13. Aqueous phase oxidation of sulphur dioxide by ozone in cloud droplets

Author

Hoyle, CR, Fuchs, C, Järvinen, E, Saathoff, H, Dias, A, Haddad, I El, Gysel, M, Coburn, SC, Tröstl, J, Bernhammer, A-K, Bianchi, F, Breitenlechner, M, Corbin, JC, Craven, J, Donahue, NM, Duplissy, J, Ehrhart, S, Frege, C, Gordon, H, Höppel, N, Heinritzi, M, Kristensen, TB, Molteni, U, Nichman, L, Pinterich, T, Prévôt, ASH, Simon, M, Slowik, JG, Steiner, G, Tomé, A, Vogel, AL, Volkamer, R, Wagner, AC, Wagner, R, Wexler, AS, Williamson, C, Winkler, PM, Yan, C, Amorim, A, Dommen, J, Curtius, J, Gallagher, MW, Flagan, RC, Hansel, A, Kirkby, J, Kulmala, M, Möhler, O, Stratmann, F, Worsnop, D, and Baltensperger, U

Subjects
Meteorology & Atmospheric Sciences
Abstract

Abstract. The growth of aerosol due to the aqueous phase oxidation of SO2 by O3 was measured in laboratory generated clouds created in the CLOUD chamber at CERN. Experiments were performed at 10 and −10 °C, on acidic (sulphuric acid) and on partially to fully neutralised (ammonium sulphate) seed aerosol. Clouds were generated by performing an adiabatic expansion – pressurising the chamber to 220 hPa above atmospheric pressure, and then rapidly releasing the excess pressure, resulting in a cooling, condensation of water on the aerosol and a cloud lifetime of approximately 6 min. A model was developed to compare the observed aerosol growth with that predicted by oxidation rates previously measured in bulk solutions. The model captured the measured aerosol growth very well for experiments performed at 10 and −10 °C, indicating that, in contrast to some previous studies, the oxidation rates of SO2 in a dispersed aqueous system are well represented by accepted rates, based on bulk measurements. To the best of our knowledge, these are the first laboratory based measurements of aqueous phase oxidation in a dispersed, super-cooled population of droplets. The measurements are therefore important in confirming that the extrapolation of currently accepted reaction rates to temperatures below 0 °C is correct.

Published
2015

14. Acceleration of raindrops formation due to tangling-clustering instability in turbulent stratified atmosphere

Author

Elperin, T., Kleeorin, N., Krasovitov, B., Kulmala, M., Liberman, M., Rogachevskii, I., and Zilitinkevich, S.

Subjects
Physics - Atmospheric and Oceanic Physics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Condensation of water vapor on active cloud condensation nuclei produces micron-size water droplets. To form rain, they must grow rapidly into at least 50-100 $\mu$m droplets. Observations show that this process takes only 15-20 minutes. The unexplained physical mechanism of such fast growth, is crucial for understanding and modeling of rain, and known as "condensation-coalescence bottleneck in rain formation". We show that the recently discovered phenomenon of the tangling clustering instability of small droplets in temperature-stratified turbulence (Phys. Fluids 25, 085104, 2013) results in the formation of droplet clusters with drastically increased droplet number densities. The mechanism of the tangling clustering instability is much more effective than the previously considered by us the inertial clustering instability caused by the centrifugal effect of turbulent vortices. This is the reason of strong enhancement of the collision-coalescence rate inside the clusters. The mean-field theory of the droplet growth developed in this study can be useful for explanation of the observed fast growth of cloud droplets in warm clouds from the initial 1 micron size droplets to 40-50 micron size droplets within 15-20 minutes., Comment: 12 pages (two-column-format), 4 figures, revtex4-1, revised

Published
2013
Full Text
View/download PDF

16. Comparing three vegetation monoterpene emission models to measured gas concentrations with a model of meteorology, air chemistry and chemical transport

Author

Smolander, S, He, Q, Mogensen, D, Zhou, L, Bäck, J, Ruuskanen, T, Noe, S, Guenther, A, Aaltonen, H, Kulmala, M, and Boy, M

Subjects
Meteorology & Atmospheric Sciences, Earth Sciences, Environmental Sciences, Biological Sciences
Abstract

Biogenic volatile organic compounds (BVOCs) are essential in atmospheric chemistry because of their chemical reactions that produce and destroy tropospheric ozone, their effects on aerosol formation and growth, and their potential influence on global warming. As one of the important BVOC groups, monoterpenes have been a focus of scientific attention in atmospheric research. Detailed regional measurements and model estimates are needed to study emission potential and the monoterpene budget on a global scale. Since the use of empirical measurements for upscaling is limited by many physical and biological factors, such as genetic variation, temperature and light, water availability, seasonal changes, and environmental stresses, comprehensive inventories over larger areas are difficult to obtain. We applied the boundary-layer-chemistry-transport model SOSA (model to Simulate the concentrations of Organic vapours and Sulphuric Acid) to investigate Scots pine (Pinus sylvestris) monoterpene emissions in a boreal coniferous forest at the SMEAR (Station for Measuring forest Ecosystem-Atmosphere Relations) II site, southern Finland. SOSA was applied to simulate monoterpene emissions with three different emission modules: the semiempirical G95, MEGAN (Model of Emissions of Gases and Aerosols from Nature) 2.04 with improved descriptions of temperature and light responses and including also carbonyl emissions, and a process-based model SIM-BIM (Seasonal Isoprenoid synthase Model - Biochemical Isoprenoid biosynthesis Model). For the first time, the emission models included seasonal and diurnal variations in both quantity and chemical species of emitted monoterpenes, based on parameterizations obtained from field measurements. Results indicate that modelling and observations agreed reasonably well and that the model can be used for investigating regional air chemistry questions related to monoterpenes. The predominant modelled monoterpene concentrations, α-pinene and Δ3-carene, are consistent with observations.

Published
2014

17. Ambient aromatic hydrocarbon measurements at Welgegund, South Africa

Author

Jaars, K, Beukes, JP, Van Zyl, PG, Venter, AD, Josipovic, M, Pienaar, JJ, Vakkari, V, Aaltonen, H, Laakso, H, Kulmala, M, Tiitta, P, Guenther, A, Hellén, H, Laakso, L, and Hakola, H

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

Aromatic hydrocarbons are associated with direct adverse human health effects and can have negative impacts on ecosystems due to their toxicity, as well as indirect negative effects through the formation of tropospheric ozone and secondary organic aerosol, which affect human health, crop production and regional climate. Measurements of aromatic hydrocarbons were conducted at the Welgegund measurement station (South Africa), which is considered to be a regionally representative background site. However, the site is occasionally impacted by plumes from major anthropogenic source regions in the interior of South Africa, which include the western Bushveld Igneous Complex (e.g. platinum, base metal and ferrochrome smelters), the eastern Bushveld Igneous Complex (platinum and ferrochrome smelters), the Johannesburg-Pretoria metropolitan conurbation (> 10 million people), the Vaal Triangle (e.g. petrochemical and pyrometallurgical industries), the Mpumalanga Highveld. © 2014 Author(s).

Published
2014

19. Biogenic and biomass burning organic aerosol in a boreal forest at Hyytiälä, Finland, during HUMPPA-COPEC 2010

Author

Corrigan, AL, Russell, LM, Takahama, S, Äijälä, M, Ehn, M, Junninen, H, Rinne, J, Petäjä, T, Kulmala, M, Vogel, AL, Hoffmann, T, Ebben, CJ, Geiger, FM, Chhabra, P, Seinfeld, JH, Worsnop, DR, Song, W, Auld, J, and Williams, J

Subjects
Earth Sciences, Atmospheric Sciences, Climate Action, Astronomical and Space Sciences, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

Submicron aerosol particles were collected during July and August 2010 in Hyytiälä, Finland, to determine the composition and sources of aerosol at that boreal forest site. Submicron particles were collected on Teflon filters and analyzed by Fourier transform infrared (FTIR) spectroscopy for organic functional groups (OFGs). Positive matrix factorization (PMF) was applied to aerosol mass spectrometry (AMS) measurements and FTIR spectra to identify summertime sources of submicron aerosol mass at the sampling site. The two largest sources of organic mass (OM) in particles identified at Hyytiälä were (1) biogenic aerosol from surrounding local forest and (2) biomass burning aerosol, transported 4-5 days from large wildfires burning near Moscow, Russia, and northern Ukraine. The robustness of this apportionment is supported by the agreement of two independent analytical methods for organic measurements with three statistical techniques. FTIR factor analysis was more sensitive to the chemical differences between biogenic and biomass burning organic components, while AMS factor analysis had a higher time resolution that more clearly linked the temporal behavior of separate OM factors to that of different source tracers even though their fragment mass spectrum were similar. The greater chemical sensitivity of the FTIR is attributed to the nondestructive preparation and the functional group specificity of spectroscopy. The FTIR spectra show strong similarities among biogenic and biomass burning factors from different regions as well as with reference OM (namely olive tree burning organic aerosol and α-pinene chamber secondary organic aerosol (SOA)). The biogenic factor correlated strongly with temperature and oxidation products of biogenic volatile organic compounds (BVOCs), included more than half of the oxygenated OFGs (carbonyl groups at 29% and carboxylic acid groups at 22%), and represented 35% of the submicron OM. Compared to previous studies at Hyytiälä, the summertime biogenic OM is 1.5 to 3 times larger than springtime biogenic OM (0.64 μg m-3 and 0.4 μg m-3, measured in 2005 and 2007, respectively), even though it contributed only 35% of OM. The biomass burning factor contributed 25% of OM on average and up to 62% of OM during three periods of transported biomass burning emissions: 26-28 July, 29-30 July, and 8-9 August, with OFG consisting mostly of carbonyl (41%) and alcohol (25%) groups. The high summertime terrestrial biogenic OM (1.7 μg m-3) and the high biomass burning contributions (1.2 μg m -3) were likely due to the abnormally high temperatures that resulted in both stressed boreal forest conditions with high regional BVOC emissions and numerous wildfires in upwind regions. © Author(s) 2013.

Published
2013

20. In situ submicron organic aerosol characterization at a boreal forest research station during HUMPPA-COPEC 2010 using soft and hard ionization mass spectrometry

Author

Vogel, AL, Äijälä, M, Corrigan, AL, Junninen, H, Ehn, M, Petäjä, T, Worsnop, DR, Kulmala, M, Russell, LM, Williams, J, and Hoffmann, T

Subjects
Earth Sciences, Atmospheric Sciences, Climate Action, Astronomical and Space Sciences, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

The chemical composition of submicron aerosol during the comprehensive field campaign HUMPPA-COPEC 2010 at Hyytiälä, Finland, is presented. The focus lies on online measurements of organic acids, which were achieved by using atmospheric pressure chemical ionization (APCI) ion trap mass spectrometry (IT-MS). These measurements were accompanied by aerosol mass spectrometry (AMS) measurements and Fourier transform infrared spectroscopy (FTIR) of filter samples, all showing a high degree of correlation. The soft ionization mass spectrometer alternated between gas-phase measurements solely and measuring the sum of gas and particle phase. The AMS measurements of C, H and O elemental composition show that the aerosol during the campaign was highly oxidized, which appears reasonable due to high and prolonged radiation during the boreal summer measurement period as well as the long transport times of some of the aerosol. In order to contrast ambient and laboratory aerosol, an average organic acid pattern, measured by APCI-IT-MS during the campaign, was compared to terpene ozonolysis products in a laboratory reaction chamber. Identification of single organic acid species remains a major challenge due to the complexity of the boreal forest aerosol. Unambiguous online species identification was attempted by the combinatorial approach of identifying unique fragments in the MS 2 mode of standards, and then comparing these results with MS 2 field spectra. During the campaign, unique fragments of limonene-derived organic acids (limonic acid and ketolimononic acid) and of the biomass burning tracer vanillic acid were detected. Other specific fragments (neutral loss of 28 Da) in the MS2 suggest the occurrence of semialdehydes. Furthermore, an approach to determine the average molecular weight of the aerosol is presented. The campaign average organic molecular weight was determined to be 300 g mol-1. However, a plume of aged biomass burning aerosol, arriving at Hyytiälä from Russia, contained organic compounds up to 800 Da (MWom450 g mol-1), showing that the average molecular weight can vary significantly. The high measurement frequency of both AMS and APCI-IT-MS enabled the partitioning of selected organic acids between gas and particle phase as a function of the total particulate mass to be quantified. Surprisingly high fractions of the higher molecular weight organic acids were observed to reside in the gas phase. These observations might be a consequence of large equilibration timescales for semi-solid boreal forest aerosol, as has been recently hypothesized by Shiraiwa and Seinfeld (2012). © 2013 Author(s).

Published
2013

21. BVOC-aerosol-climate interactions in the global aerosol-climate model ECHAM5.5-HAM2

Author

Makkonen, R, Asmi, A, Kerminen, VM, Boy, M, Arneth, A, Guenther, A, and Kulmala, M

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

The biosphere emits volatile organic compounds (BVOCs) which, after oxidation in the atmosphere, can partition on the existing aerosol population or even form new particles. The large quantities emitted provide means for a large potential impact on both aerosol direct and indirect effects. Biogenic responses to atmospheric temperature change can establish feedbacks even in rather short timescales. However, due to the complexity of organic aerosol partitioning, even the sign of these feedbacks is of large uncertainty. We use the global aerosol-climate model ECHAM5.5-HAM2 to explore the effect of BVOC emissions on new particle formation, clouds and climate. Two BVOC emission models, MEGAN2 and LPJ-GUESS, are used. MEGAN2 shows a 25% increase while LPJ-GUESS shows a slight decrease in global BVOC emission between years 2000 and 2100. The change of shortwave cloud forcing from year 1750 to 2000 ranges from-1.4 to-1.8 W m -2 with 5 different nucleation mechanisms. We show that the change in shortwave cloud forcing from the year 2000 to 2100 ranges from 1.0 to 1.5 W m -2. Although increasing future BVOC emissions provide 3-5% additional CCN, the effect on the cloud albedo change is modest. Due to simulated decreases in future cloud cover, the increased CCN concentrations from BVOCs can not provide significant additional cooling in the future. © 2012 Author(s).

Published
2012

22. A new atmospherically relevant oxidant of sulphur dioxide

Author

Mauldin III, RL, Berndt, T, Sipilä, M, Paasonen, P, Petäjä, T, Kim, S, Kurtén, T, Stratmann, F, Kerminen, V-M, and Kulmala, M

Subjects
Alkenes, Atmosphere, Finland, Free Radicals, Hydroxyl Radical, Oxidants, Ozone, Sulfur Dioxide, Terpenes, Trees, Volatile Organic Compounds, General Science & Technology
Abstract

Atmospheric oxidation is a key phenomenon that connects atmospheric chemistry with globally challenging environmental issues, such as climate change, stratospheric ozone loss, acidification of soils and water, and health effects of air quality. Ozone, the hydroxyl radical and the nitrate radical are generally considered to be the dominant oxidants that initiate the removal of trace gases, including pollutants, from the atmosphere. Here we present atmospheric observations from a boreal forest region in Finland, supported by laboratory experiments and theoretical considerations, that allow us to identify another compound, probably a stabilized Criegee intermediate (a carbonyl oxide with two free-radical sites) or its derivative, which has a significant capacity to oxidize sulphur dioxide and potentially other trace gases. This compound probably enhances the reactivity of the atmosphere, particularly with regard to the production of sulphuric acid, and consequently atmospheric aerosol formation. Our findings suggest that this new atmospherically relevant oxidation route is important relative to oxidation by the hydroxyl radical, at least at moderate concentrations of that radical. We also find that the oxidation chemistry of this compound seems to be tightly linked to the presence of alkenes of biogenic origin.

Published
2012

23. Contrasting organic aerosol particles from boreal and tropical forests during HUMPPA-COPEC-2010 and AMAZE-08 using coherent vibrational spectroscopy

Author

Ebben, CJ, Martinez, IS, Shrestha, M, Buchbinder, AM, Corrigan, AL, Guenther, A, Karl, T, Petäjä, T, Song, WW, Zorn, SR, Artaxo, P, Kulmala, M, Martin, ST, Russell, LM, Williams, J, and Geiger, FM

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

We present the vibrational sum frequency generation spectra of organic particles collected in a boreal forest in Finland and a tropical forest in Brazil. These spectra are compared to those of secondary organic material produced in the Harvard Environmental Chamber. By comparing coherent vibrational spectra of a variety of terpene and olefin reference compounds, along with the secondary organic material synthesized in the environmental chamber, we show that submicron aerosol particles sampled in Southern Finland during HUMPPA-COPEC-2010 are composed to a large degree of material similar in chemical composition to synthetic α-pinene-derived material. For material collected in Brazil as part of AMAZE-08, the organic component is found to be chemically complex in the coarse mode but highly uniform in the fine mode. When combined with histogram analyses of the isoprene and monoterpene abundance recorded during the HUMPPA-COPEC-2010 and AMAZE-08 campaigns, the findings presented here indicate that if air is rich in monoterpenes, submicron-sized secondary aerosol particles that form under normal OH and O3 concentration levels can be described in terms of their hydrocarbon content as being similar to α-pinene-derived model secondary organic aerosol particles. If the isoprene concentration dominates the chemical composition of organic compounds in forest air, then the hydrocarbon component of secondary organic material in the submicron size range is not simply well-represented by that of isoprene-derived model secondary organic aerosol particles but is more complex. Throughout the climate-relevant size range of the fine mode, however, we find that the chemical composition of the secondary organic particle material from such air is invariant with size, suggesting that the particle growth does not change the chemical composition of the hydrocarbon component of the particles in a significant way. © 2011 Author(s).

Published
2011

24. Modelling atmospheric OH-reactivity in a boreal forest ecosystem

Author

Mogensen, D, Smolander, S, Sogachev, A, Zhou, L, Sinha, V, Guenther, A, Williams, J, Nieminen, T, Kajos, MK, Rinne, J, Kulmala, M, and Boy, M

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

We have modelled the total atmospheric OH-reactivity in a boreal forest and investigated the individual contributions from gas phase inorganic species, isoprene, monoterpenes, and methane along with other important VOCs. Daily and seasonal variation in OH-reactivity for the year 2008 was examined as well as the vertical OH-reactivity profile. We have used SOSA; a one dimensional vertical chemistry-transport model (Boy et al., 2011a) together with measurements from Hyytiälä, SMEAR II station, Southern Finland, conducted in August 2008. Model simulations only account for ∼30-50% of the total measured OH sink, and in our opinion, the reason for missing OH-reactivity is due to unmeasured unknown BVOCs, and limitations in our knowledge of atmospheric chemistry including uncertainties in rate constants. Furthermore, we found that the OH-reactivity correlates with both organic and inorganic compounds and increases during summer. The summertime canopy level OH-reactivity peaks during night and the vertical OH-reactivity decreases with height. © 2011 Author(s) .

Published
2011

25. Integrated land ecosystem-atmosphere processes study (iLEAPS) assessment of global observational networks

Author

Guenther, A, Kulmala, M, Turnipseed, A, Rinne, J, Suni, T, and Reissell, A

Subjects
Zoology, Meteorology & Atmospheric Sciences
Abstract

Long-term, continuous observations are needed for Earth system investigations and evaluation of simulations. The atmospheric and ecological communities have independently established field sites that have been running for many decades and are integrated into global networks. In the past decade, the importance of long-term observational networks focused on land ecosystem-atmosphere exchange, and the processes controlling land-atmosphere coupling, had been increasingly recognized and has led to the building of a global network of water, carbon and energy flux sites. This is an important step but further enhancements are necessary in order to quantify all of the land-atmosphere processes that need to be included in Earth system models. This paper describes the current land ecosystem-atmosphere measurement capabilities and presents the status and needs for global observational networks.

Published
2011

26. Atmospheric composition change – global and regional air quality

Author

Monks, PS, Granier, C, Fuzzi, S, Stohl, A, Williams, ML, Akimoto, H, Amann, M, Baklanov, A, Baltensperger, U, Bey, I, Blake, N, Blake, RS, Carslaw, K, Cooper, OR, Dentener, F, Fowler, D, Fragkou, E, Frost, GJ, Generoso, S, Ginoux, P, Grewe, V, Guenther, A, Hansson, HC, Henne, S, Hjorth, J, Hofzumahaus, A, Huntrieser, H, Isaksen, ISA, Jenkin, ME, Kaiser, J, Kanakidou, M, Klimont, Z, Kulmala, M, Laj, P, Lawrence, MG, Lee, JD, Liousse, C, Maione, M, McFiggans, G, Metzger, A, Mieville, A, Moussiopoulos, N, Orlando, JJ, O'Dowd, CD, Palmer, PI, Parrish, DD, Petzold, A, Platt, U, Pöschl, U, Prévôt, ASH, Reeves, CE, Reimann, S, Rudich, Y, Sellegri, K, Steinbrecher, R, Simpson, D, Brink, H ten, Theloke, J, van der Werf, GR, Vautard, R, Vestreng, V, Vlachokostas, Ch, and von Glasow, R

Subjects
Climate Action, Atmosphere, Troposphere, Air quality, Emissions, Climate, Co-benefit, Oxidation chemistry, Aerosols, Transport of pollutants, Ozone, Statistics, Atmospheric Sciences, Environmental Engineering, Meteorology & Atmospheric Sciences
Abstract

Air quality transcends all scales with in the atmosphere from the local to the global with handovers and feedbacks at each scale interaction. Air quality has manifold effects on health, ecosystems, heritage and climate. In this review the state of scientific understanding in relation to global and regional air quality is outlined. The review discusses air quality, in terms of emissions, processing and transport of trace gases and aerosols. New insights into the characterization of both natural and anthropogenic emissions are reviewed looking at both natural (e.g. dust and lightning) as well as plant emissions. Trends in anthropogenic emissions both by region and globally are discussed as well as biomass burning emissions. In terms of chemical processing the major air quality elements of ozone, non-methane hydrocarbons, nitrogen oxides and aerosols are covered. A number of topics are presented as a way of integrating the process view into the atmospheric context; these include the atmospheric oxidation efficiency, halogen and HOx chemistry, nighttime chemistry, tropical chemistry, heat waves, megacities, biomass burning and the regional hot spot of the Mediterranean. New findings with respect to the transport of pollutants across the scales are discussed, in particular the move to quantify the impact of long-range transport on regional air quality. Gaps and research questions that remain intractable are identified. The review concludes with a focus of research and policy questions for the coming decade. In particular, the policy challenges for concerted air quality and climate change policy (co-benefit) are discussed. © 2009 Elsevier Ltd.

Published
2009

27. Relevance of ion-induced nucleation of sulfuric acid and water in the lower troposphere over the boreal forest at northern latitudes

Author

Boy, M, Kazil, J, Lovejoy, ER, Guenther, A, and Kulmala, M

Subjects
Ion-induced nucleaton of sulfuric acid and water, Tropospheric aerosol, New particle formation, Other Physical Sciences, Atmospheric Sciences, Meteorology & Atmospheric Sciences
Abstract

The relevance of ion-induced nucleation of sulfuric acid and water (IINSW) in the troposphere over the boreal forest at northern latitudes is investigated by combining two existing and previously published models (MALTE - model to predict new aerosol formation in the lower troposphere; PARNUC - a parameterized steady-state model of neutral and ion-induced nucleation of sulfuric acid and water for atmospheric conditions). Simulations were performed for 4 days with observed new particle formation at ground level by using input data from the SMEAR II station in Hyytiälä, Finland. The selected days were chosen to cover a wide range of values of the parameters most relevant for IINSW. The results showed that ion-induced nucleation of sulfuric acid and water can contribute up to 15% to the total amount of newly formed particles in the size range of 3-10 nm inside the mixed layer at the Hyytiälä site. The importance of IINSW seemed to increase in the free troposphere above the boundary layer, however, lack of measurements in the vertical structure of the input parameters suggest that the model results are burdened with high uncertainties. © 2008 Elsevier B.V. All rights reserved.

Published
2008

28. New particle formation in the front range of the Colorado Rocky Mountains

Author

Boy, M, Karl, T, Turnipseed, A, Mauldin, RL, Kosciuch, E, Greenberg, J, Rathbone, J, Smith, J, Held, A, Barsanti, K, Wehner, B, Bauer, S, Wiedensohler, A, Bonn, B, Kulmala, M, and Guenther, A

Subjects
Brain Disorders, Meteorology & Atmospheric Sciences, Atmospheric Sciences, Astronomical and Space Sciences
Abstract

New particle formation is of interest because of its influence on the properties of aerosol population, and due to the possible contribution of newly formed particles to cloud condensation nuclei. Currently no conclusive evidence exists as to the mechanism or mechanisms of nucleation and subsequent particle growth. However, nucleation rates exhibit a clear dependence on ambient sulphuric acid concentrations and particle growth is often attributed to the condensation of organic vapours. A detailed study of new particle formation in the Front Range of the Colorado Rocky Mountains is presented here. Gas and particle measurement data for 32 days was analyzed to identify event days, possible event days, and non-event days. A detailed analysis of nucleation and growth is provided for four days on which new particle formation was clearly observed. Evidence for the role of sesquiterpenes in new particle formation is presented.

Published
2008

29. Critical assessment of the current state of scientific knowledge, terminology, and research needs concerning the role of organic aerosols in the atmosphere, climate, and global change

Author

Fuzzi, S, Andreae, MO, Huebert, BJ, Kulmala, M, Bond, TC, Boy, M, Doherty, SJ, Guenther, A, Kanakidou, M, Kawamura, K, Kerminen, V-M, Lohmann, U, Russell, LM, and Pöschl, U

Subjects
Earth Sciences, Atmospheric Sciences, Climate Action, Astronomical and Space Sciences, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

In spite of impressive advances in recent years, our present understanding of organic aerosol (OA) composition, physical and chemical properties, sources and transformation characteristics is still rather limited, and their environmental effects remain highly uncertain. This paper discusses and prioritizes issues related to organic aerosols and their effects on atmospheric processes and climate, providing a basis for future activities in the field. Four main topical areas are addressed: i) sources of OA; ii) formation transformation and removal of OA; iii) physical, chemical and mixing state of OA; iv) atmospheric modelling of OA. Key questions and research priorities regarding these four areas are synthesized in this paper, and outstanding issues for future research are presented for each topical area. In addition, an effort is made to formulate a basic set of consistent and universally applicable terms and definitions for coherent description of atmospheric OA across different scales and disciplines.

Published
2006

30. Overview of the field measurement campaign in Hyytiälä, August 2001 in the framework of the EU project OSOA

Author

Boy, M, Petäjä, T, Dal Maso, M, Rannik, Ü, Rinne, J, Aalto, P, Laaksonen, A, Vaattovaara, P, Joutsensaari, J, Hoffmann, T, Warnke, J, Apostolaki, M, Stephanou, EG, Tsapakis, M, Kouvarakis, A, Pio, C, Carvalho, A, Römpp, A, Moortgat, G, Spirig, C, Guenther, A, Greenberg, J, Ciccioli, P, and Kulmala, M

Subjects
Astronomical and Space Sciences, Atmospheric Sciences, Meteorology & Atmospheric Sciences
Abstract

As part of the OSOA (Origin and formation of Secondary Organic Aerosols) project, two intensive field campaigns were conducted in Melpitz, Germany and Hyytiälä, Finland. This paper gives an overview of the measurements made during the Hyytiälä campaign, which was held between 1 and 16 August 2001. Various instrumental techniques were used to achieve physical and chemical characterisation of a erosols and to investigate possible precursor gases. During the OSOA campaign in Hyytiälä, particle formation was observed on three consecutive days at the beginning of the campaign (1 to 3 August 2001) and on three days later on. The investigation of the meteorological situation divided the campaign into two parts. During the first three days of August, relatively cold and clean air masses from northwest passed over the station (condensation sink-CS:

Published
2004

31. Factors governing the chemical composition of rain at a regional site in South Africa

Author

10710361- Van Zyl, Pieter Gideon, 10092390- Beukes, Johan Paul, 22648143- Josipovic, Miroslav, 20162750- Jaars, Kerneels, 33371210- Vakkari, Ville Tapio, 21240442- Laakso L, Kok, L, Van Zyl, P.G., Beukes, J.P., Burger, R.P., Ellis, S.M., Josipovic, M., Jaars, K., Vakkari, V., Laakso, L., Kulmala, M., 10710361- Van Zyl, Pieter Gideon, 10092390- Beukes, Johan Paul, 22648143- Josipovic, Miroslav, 20162750- Jaars, Kerneels, 33371210- Vakkari, Ville Tapio, 21240442- Laakso L, Kok, L, Van Zyl, P.G., Beukes, J.P., Burger, R.P., Ellis, S.M., Josipovic, M., Jaars, K., Vakkari, V., Laakso, L., and Kulmala, M.

Abstract

Precipitation chemistry is influenced by a number of complex processes, which include the temporal and spatial evolution of air masses. Previous wet deposition studies in South Africa could not distinctly relate the influence of air mass history on rain chemistry in order to substantiate the influence of different sources. The Welgegund atmospheric monitoring station in South Africa measures several atmospheric parameters, which include vertical profiling of the atmosphere that could assist in relating rain chemistry to air mass history. Therefore, the aim of this study was to conduct an advanced assessment on factors influencing chemical composition of rain in the South African interior by relating individual rain events at Welgegund to air mass history at cloud base height (CBH) and arrival heights below clouds, as well as supplementary in situ measurements conducted at the site. Hierarchical cluster analysis was performed through two approaches, i.e. clustering based on the chemical composition of rain, as well as grouping based on air masses arriving at CBH and 100 m above ground level (a.g. l.). Although statistical analyses highlighted the complexity associated with correlating rain chemistry to sources of chemical species, it proved useful to determine some correlations between rain chemistry and air mass history. Clustering according to the chemical composition of rain events grouped rain events from high to low volume weighted mean (VWM) concentrations. Correlation of air mass histories to these clusters indicated that higher VWM concentrations were associated with air masses at 100 m a.g.l. passing over anthropogenic source regions. Air mass history clustering grouped air masses passing predominantly over predefined source regions. The rain chemistry of clusters determined for air masses at 100 m a.g.l. arrival heights could be related to the influence of different source regions, with the impact of large point sources, the clean western background region

Published
2023

32. Natural history and biomarkers of retinal dystrophy caused by the biallelic TULP1 variant c.148delG

Author

Majander, A. (Anna), Sankila, E.-M. (Eeva-Marja), Falck, A. (Aura), Vasara, L. K. (Laura Kristiina), Seitsonen, S. (Sanna), Kulmala, M. (Maarit), Haavisto, A.-K. (Anna-Kaisa), Avela, K. (Kristiina), Turunen, J. A. (Joni A.), Majander, A. (Anna), Sankila, E.-M. (Eeva-Marja), Falck, A. (Aura), Vasara, L. K. (Laura Kristiina), Seitsonen, S. (Sanna), Kulmala, M. (Maarit), Haavisto, A.-K. (Anna-Kaisa), Avela, K. (Kristiina), and Turunen, J. A. (Joni A.)

Abstract

Purpose: To report clinical features and potential disease markers of inherited retinal dystrophy (IRD) caused by the biallelic c.148delG variant in the tubby-like protein 1 (TULP1) gene. Methods: A retrospective observational study of 16 IRD patients carrying a homozygous pathogenic TULP1 c.148delG variant. Clinical data including fundus spectral-domain optical coherence tomography (SD-OCT) were assessed. A meta-analysis of visual acuity of previously reported other pathogenic TULP1 variants was performed for reference. Results: The biallelic TULP1 variant c.148delG was associated with infantile and early childhood onset IRD. Retinal ophthalmoscopy was primarily normal converting to peripheral pigmentary retinopathy and maculopathy characterized by progressive extra-foveal loss of the ellipsoid zone (EZ), the outer plexiform layer (OPL), and the outer nuclear layer (ONL) bands in the SD-OCT images. The horizontal width of the foveal EZ showed significant regression with the best-corrected visual acuity (BCVA) of the eye (p < 0.0001, R2 = 0.541, F = 26.0), the age of the patient (p < 0.0001, R2 = 0.433, F = 16.8), and mild correlation with the foveal OPL-ONL thickness (p = 0.014, R2 = 0.245, F = 7.2). Modelling of the BCVA data suggested a mean annual loss of logMAR 0.027. The level of visual loss was similar to that previously reported in patients carrying other truncating TULP1 variants. Conclusions: This study describes the progression of TULP1 IRD suggesting a potential time window for therapeutic interventions. The width of the foveal EZ and the thickness of the foveal OPL-ONL layers could serve as biomarkers of the disease stage.

Published
2023

33. Concentration contextualisation, temporal patterns and sources of hydrogen sulphide at a site on the South African Highveld

Author

10710361- Van Zyl, Pieter Gideon, 33371210- Vakkari, Ville Tapio, 21795827- Laakso, Lauri Kaleva, 22648143- Josipovic, Miroslav, Cogho, Edwin, Beukes, J.P., Van Zyl, Pieter Gideon, Vakkari, Ville Tapio, Laakso, Lauri Kaleva, Josipovic, Miroslav, Kulmala, M., 10710361- Van Zyl, Pieter Gideon, 33371210- Vakkari, Ville Tapio, 21795827- Laakso, Lauri Kaleva, 22648143- Josipovic, Miroslav, Cogho, Edwin, Beukes, J.P., Van Zyl, Pieter Gideon, Vakkari, Ville Tapio, Laakso, Lauri Kaleva, Josipovic, Miroslav, and Kulmala, M.

Abstract

South Africa is one of the largest atmospheric sulphur emitting countries, but the contribution of H2S to this regional burden is not known. Also, no H2S source apportionment for South Africa have been undertaken, although H2S has adverse effects on the environment and human health both directly and after being oxidised. Measurements were conducted for 2 years at a site on the Mpumalanga Highveld (South Africa), which is influenced by multiple sources. A mean of 3.1 ppb H2S was obtained, which is similar than concentrations re ported for some large Northern Hemisphere cities and areas close to gas processing plants. Well defined seasonal and diurnal patterns indicated that low-level emission sources likely made a significant contribution to the ambient H2S concentrations. In this study, a receptor method was developed to enable identification of sources and quantification of their contribution to atmospheric H2S levels above the baseline concentrations. The results indicate that emissions from urban areas on the Mpumalanga Highveld, associated with sources in towns, as well as semi- and informal settlements (e.g. ineffective household combustion of low grade coal, sewage waste water treatment facilities, landfills, small industries and traffic) contributed most to atmospheric H2S levels in excess of baseline concentrations (34.6%), followed by pyrometallurgical smelters (19.8%) and a petrochemical operation near Secunda (17.9%). The Johannesburg-Pretoria megacity, coal-fired power stations, burning coal dumps and cattle feedlots contributed 10.9, 4.7, 3.8 and 0.4%, respectively, to H2S concentrations in excess of the baseline levels, respectively. The results from this study will be informative for legislation that is currently being considered, wherein regional ambient H2S standards for South Africa are suggested.

Published
2023

34. New particle formation in the free troposphere: A question of chemistry and timing

Author

Bianchi, F., Tröstl, J., Junninen, H., Frege, C., Henne, S., Hoyle, C. R., Molteni, U., Herrmann, E., Adamov, A., Bukowiecki, N., Chen, X., Duplissy, J., Gysel, M., Hutterli, M., Kangasluoma, J., Kontkanen, J., Kürten, A., Manninen, H. E., Münch, S., Peräkylä, O., Petäjä, T., Rondo, L., Williamson, C., Weingartner, E., Curtius, J., Worsnop, D. R., Kulmala, M., Dommen, J., and Baltensperger, U.

Published
2016

38. Climate Change and Weather Extremes in the Eastern Mediterranean and Middle East

Author

Zittis, G., Almazroui, M., Alpert, P., Ciais, P., Cramer, W., Dahdal, Y., Fnais, M., Francis, D., Hadjinicolaou, P., Howari, F., Jrrar, A., Kaskaoutis, D. G., Kulmala, M., Lazoglou, G., Mihalopoulos, N., Lin, X., Rudich, Y., Sciare, J., Stenchikov, G., Xoplaki, E., Lelieveld, J., and Institute for Atmospheric and Earth System Research (INAR)

Subjects
114 Physical sciences
Abstract

Observation-based and modeling studies have identified the Eastern Mediterranean and Middle East (EMME) region as a prominent climate change hotspot. While several initiatives have addressed the impacts of climate change in parts of the EMME, here we present an updated assessment, covering a wide range of timescales, phenomena and future pathways. Our assessment is based on a revised analysis of recent observations and projections and an extensive overview of the recent scientific literature on the causes and effects of regional climate change. Greenhouse gas emissions in the EMME are growing rapidly, surpassing those of the European Union, hence contributing significantly to climate change. Over the past half-century and especially during recent decades, the EMME has warmed significantly faster than other inhabited regions. At the same time, changes in the hydrological cycle have become evident. The observed recent temperature increase of about 0.45 degrees C per decade is projected to continue, although strong global greenhouse gas emission reductions could moderate this trend. In addition to projected changes in mean climate conditions, we call attention to extreme weather events with potentially disruptive societal impacts. These include the strongly increasing severity and duration of heatwaves, droughts and dust storms, as well as torrential rain events that can trigger flash floods. Our review is complemented by a discussion of atmospheric pollution and land-use change in the region, including urbanization, desertification and forest fires. Finally, we identify sectors that may be critically affected and formulate adaptation and research recommendations toward greater resilience of the EMME region to climate change.

Published
2022

42. Climate Change and Weather Extremes in the Eastern Mediterranean and Middle East

Author

Zittis, G., primary, Almazroui, M., additional, Alpert, P., additional, Ciais, P., additional, Cramer, W., additional, Dahdal, Y., additional, Fnais, M., additional, Francis, D., additional, Hadjinicolaou, P., additional, Howari, F., additional, Jrrar, A., additional, Kaskaoutis, D. G., additional, Kulmala, M., additional, Lazoglou, G., additional, Mihalopoulos, N., additional, Lin, X., additional, Rudich, Y., additional, Sciare, J., additional, Stenchikov, G., additional, Xoplaki, E., additional, and Lelieveld, J., additional

Published
2022
Full Text
View/download PDF

45. The SALTENA Experiment : Comprehensive Observations of Aerosol Sources, Formation, and Processes in the South American Andes

Author

Bianchi, F., Sinclair, V. A., Aliaga, D., Zha, Q., Scholz, W., Wu, Cheng, Heikkinen, L., Modini, R., Partoll, E., Velarde, F., Moreno, I., Gramlich, Yvette, Huang, W., Koenig, A. M., Leiminger, M., Enroth, J., Peräkylä, O., Marinoni, A., Xuemeng, C., Blacutt, L., Forno, R., Gutierrez, R., Ginot, P., Uzu, G., Facchini, M. C., Gilardoni, S., Gysel-Beer, M., Cai, R., Petäjä, T., Rinaldi, M., Saathoff, H., Sellegri, K., Worsnop, D., Artaxo, P., Hansel, A., Kulmala, M., Wiedensohler, A., Laj, P., Krejci, Radovan, Carbone, S., Andrade, M., Mohr, Claudia, Bianchi, F., Sinclair, V. A., Aliaga, D., Zha, Q., Scholz, W., Wu, Cheng, Heikkinen, L., Modini, R., Partoll, E., Velarde, F., Moreno, I., Gramlich, Yvette, Huang, W., Koenig, A. M., Leiminger, M., Enroth, J., Peräkylä, O., Marinoni, A., Xuemeng, C., Blacutt, L., Forno, R., Gutierrez, R., Ginot, P., Uzu, G., Facchini, M. C., Gilardoni, S., Gysel-Beer, M., Cai, R., Petäjä, T., Rinaldi, M., Saathoff, H., Sellegri, K., Worsnop, D., Artaxo, P., Hansel, A., Kulmala, M., Wiedensohler, A., Laj, P., Krejci, Radovan, Carbone, S., Andrade, M., and Mohr, Claudia

Abstract

This paper presents an introduction to the Southern Hemisphere High Altitude Experiment on Particle Nucleation and Growth (SALTENA). This field campaign took place between December 2017 and June 2018 (wet to dry season) at Chacaltaya (CHC), a GAW (Global Atmosphere Watch) station located at 5,240 m MSL in the Bolivian Andes. Concurrent measurements were conducted at two additional sites in El Alto (4,000 m MSL) and La Paz (3,600 m MSL). The overall goal of the campaign was to identify the sources, understand the formation mechanisms and transport, and characterize the properties of aerosol at these stations. State-of-the-art instruments were brought to the station complementing the ongoing permanent GAW measurements, to allow a comprehensive description of the chemical species of anthropogenic and biogenic origin impacting the station and contributing to new particle formation. In this overview we first provide an assessment of the complex meteorology, airmass origin, and boundary layer-free troposphere interactions during the campaign using a 6-month high-resolution Weather Research and Forecasting (WRF) simulation coupled with Flexible Particle dispersion model (FLEXPART). We then show some of the research highlights from the campaign, including (i) chemical transformation processes of anthropogenic pollution while the air masses are transported to the CHC station from the metropolitan area of La Paz-El Alto, (ii) volcanic emissions as an important source of atmospheric sulfur compounds in the region, (iii) the characterization of the compounds involved in new particle formation, and (iv) the identification of long-range-transported compounds from the Pacific or the Amazon basin. We conclude the article with a presentation of future research foci. The SALTENA dataset highlights the importance of comprehensive observations in strategic high-altitude locations, especially the undersampled Southern Hemisphere.

Published
2022
Full Text
View/download PDF

48. Long-term air quality trends of regulated pollutants in Helsinki metropolitan area in 1994-2019 and implications to air quality index

Author

Sillanpää, Salla, Fung, P.L, Niemi, J.V., Kousa, A, Kangas, L, Zaidan, M.A., Timonen, H, Kulmala, M., Petäjä, T, Hussein, T, Ilmatieteen laitos, and Finnish Meteorological Institute

Subjects
polutants, Helsinki, complex mixtures, air quality
Abstract

Long-term trends of ambient gaseous pollutants and particulate matter in Helsinki metropolitan area were analyzed from 1994 to 2019. Measurement data from ten monitoring stations located in different types of urban environments including traffic, urban background, rural background, and suburban area were included in this study. We analyzed gas-phase air pollutants, such as NO, NO2, NOx, O3, SO2 and CO; and for aerosol pollutants, we explored mass concentrations for particles smaller than 10 µm and 2.5 µm in diameter (PM10 and PM2.5, respectively ). In order to quantify trends in the data, we deployed a non-parametric Mann-Kendall test and Theil-Sen method. The results were compared with the regional emissions trends and changes in meteorological conditions. Our analysis indicates that SO2 and CO in all stations have decreased to values corresponding to their regional background concentration levels and their role as urban air pollutants have diminished. Our results from the Helsinki Metropolitan area during the last 25 years show that the air quality improved and all the air pollutant concentrations show a decreasing trend, except ozone. Based on our analysis of the Air Quality Index (AQI) at traffic and urban background environments, NO2 concentration, which have typically represented the health effects resulting from vehicular traffic, is rapidly decreasing also in traffic environments. The current AQI standard therefore lacks clarity on the potential health risks from other air pollutants emitted from traffic exhaust. In addition, the air quality indicators currently considered in the AQI do not represent well enough residential wood burning and the possible health outcomes from its exposure. We suggest that the current AQI should be revised in a way that new air quality parameters would be considered, which would better represent the health effects resulting from these local combustion sources.

Published
2022

49. Evolution of Organic Aerosols in the Atmosphere

Author

Jimenez, J. L., Canagaratna, M. R., Donahue, N. M., Prevot, A. S. H., Zhang, Q., Kroll, J. H., DeCarlo, P. F., Allan, J. D., Coe, H., Ng, N. L., Aiken, A. C., Docherty, K. S., Ulbrich, I. M., Grieshop, A. P., Robinson, A. L., Duplissy, J., Smith, J. D., Wilson, K. R., Lanz, V. A., Hueglin, C., Sun, Y. L., Tian, J., Laaksonen, A., Raatikainen, T., Rautiainen, J., Vaattovaara, P., Ehn, M., Kulmala, M., Tomlinson, J. M., Collins, D. R., Cubison, M. J., Dunlea, E. J., Huffman, J. A., Onasch, T. B., Alfarra, M. R., Williams, P. I., Bower, K., Kondo, Y., Schneider, J., Drewnick, F., Borrmann, S., Weimer, S., Demerjian, K., Salcedo, D., Cottrell, L., Griffin, R., Takami, A., Miyoshi, T., Hatakeyama, S., Shimono, A., Sun, J. Y., Zhang, Y. M., Dzepina, K., Kimmel, J. R., Sueper, D., Jayne, J. T., Herndon, S. C., Trimborn, A. M., Williams, L. R., Wood, E. C., Middlebrook, A. M., Kolb, C. E., Baltensperger, U., and Worsnop, D. R.

Published
2009
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results