Your search keyword '"Putero, D."' showing total 5 results

1. Study of short-lived climate forcers atmospheric variability at Kathmandu and at the WMO/GAW Global Station 'Nepal Climate Observatory-Pyramid' (5079 m a.s.l.) in the Himalayas

Author

Putero, D., Cristofanelli, P., Adhikary, B., Marinoni, A., Duchi, R., Calzolari, F., Landi, T., Verza, G., Alborghetti, M., Vuillermoz, E., Rupakheti, M., Lawrence, M., and Bonasoni, P.

Published

2014

2. New atmospheric composition observations in the Karakorum region: Influence of local emissions and large-scale circulation during a summer field campaign

Author

P. Laj, Tony Christian Landi, U. Bonafè, Francescopiero Calzolari, Elisa Vuillermoz, Paolo Bonasoni, A. Broquet, Davide Putero, Paolo Cristofanelli, P. Villani, Marcello Alborghetti, G. P. Verza, Angela Marinoni, R. Duchi, Putero, D, Cristofanelli, P., Laj, P., Marinoni, A., Villani, P., Broquet, A., Alborghetti, M., Bonafè, U., Calzolari, F., Duchi, R., Landi, T.C., Verza, G.P., Vuillermoz, E., and Bonasoni, P.

Subjects

Pollution, Aerosol particle, Atmospheric Science, Particle number, Anthropogenic pollution, media_common.quotation_subject, Atmospheric sciences, Combustion, Karakorum, chemistry.chemical_compound, Surface ozone, Environmental Science(all), General Environmental Science, media_common, geography, geography.geographical_feature_category, Glacier, Thermal wind, Aerosol, chemistry, Carbon dioxide, Climatology, HYSPLIT, Environmental science

Abstract

In this work we provide an overview of short lived climate forcers (SLCFs) and carbon dioxide variability in the Karakorum, by presenting results deriving from a field campaign carried out at Askole (3015 m a.s.l., Pakistan Northern Areas), by Baltoro glacier. By using an innovative embedded and transportable system, continuous measurements of aerosol particle number concentration (Np, 1571 ± 2670 cm−3), surface ozone (O3, 31.7 ± 10.4 nmol/mol), carbon dioxide (CO2, 394.3 ± 6.9 μmol/mol) and meteorological parameters have been performed from August 20th to November 10th 2012. The domestic combustion from the Askole village emerged as a possible systematic source of contamination in the valley, with short-lasting pollution events probably related to domestic cooking activities characterized by high values of Np (6066 ± 5903 cm−3). By excluding these local contamination events, mountain thermal wind regime dominated the diurnal variability of Np, O3 and CO2. In comparison to night-time, we observed higher Np (+354 cm−3) and O3 (+7 nmol/mol) but lower CO2 (−8 μmol/mol) in air-masses coming from the lower valley during the central part of the day. Part of the day-to-day atmospheric composition variability can be also ascribed to synoptic circulation variability, as observed by using HYSPLIT 5-day back-trajectories.

Published

2014

3. Influence of open vegetation fires on black carbon and ozone variability in the southern Himalayas (NCO-P, 5079 m a.s.l.)

Author

Paolo Bonasoni, Paolo Laj, G. P. Verza, Paolo Cristofanelli, R. Duchi, T. C. Landi, Davide Putero, Angela Marinoni, Francescopiero Calzolari, Putero, D., Landi, T.C., Cristofanelli, P, Marinoni, A., Laj, P., Duchi, R., Calzolari, F., Verza, G.P., and Bonasoni, P.

Subjects

Pollution, Ozone, media_common.quotation_subject, Health, Toxicology and Mutagenesis, Himalaya, Air pollution, Atmospheric sciences, medicine.disease_cause, Toxicology, Fires, chemistry.chemical_compound, Black carbon, Nepal, Soot, Air Pollution, medicine, Foothills, Air mass, media_common, Air Pollutants, geography, Biomass (ecology), geography.geographical_feature_category, Himalayas, General Medicine, Vegetation, 15. Life on land, Fire, Health, Toxicology and Mutagenesi, chemistry, Air Pollutant, 13. Climate action, Climatology, Environmental science, Energy source, Environmental Monitoring, Biomass burning

Abstract

We analysed the variability of equivalent black carbon (BC) and ozone (O3) at the global WMO/GAW station Nepal Climate Observatory-Pyramid (NCO-P, 5079 m a.s.l.) in the southern Himalayas, for evaluating the possible contribution of open vegetation fires to the variability of these short-lived climate forcers/pollutants (SLCF/SLCP) in the Himalayan region. We found that 162 days (9% of the data-set) were characterised by acute pollution events with enhanced BC and O3 in respect to the climatological values. By using satellite observations (MODIS fire products and the USGS Land Use Cover Characterization) and air mass back-trajectories, we deduced that 56% of these events were likely to be affected by emissions from open fires along the Himalayas foothills, the Indian Subcontinent and the Northern Indo-Gangetic Plain. These results suggest that open fire emissions are likely to play an important role in modulating seasonal and inter-annual BC and O3 variability over south Himalayas.© 2013 Elsevier Ltd. All rights reserved.

Published

2014

4. High black carbon and ozone concentrations during pollution transport in the Himalayas: five years of continuous observations at NCO-P global GAW station

Author

Michela Maione, Davide Putero, Paolo Cristofanelli, Angela Marinoni, Tony Christian Landi, Francescopiero Calzolari, Paolo Bonasoni, Elisa Vuillermoz, R. Duchi, Paolo Laj, Marinoni, A, Cristofanelli, P., Laj, P., Duchi, R., Putero, D., Calzolari, F., Landi, T.C., Vuillermoz, E., Maione, M., and Bonasoni, P.

Subjects

Pollution, Ozone, Environmental Engineering, media_common.quotation_subject, Himalaya, Monsoon, chemistry.chemical_compound, Black carbon, Animal science, Nepal, Environmental Chemistry, Biomass burning, General Environmental Science, media_common, Air Pollutants, Troposphere, Mean value, General Medicine, Carbon black, Carbon, chemistry, Climatology, Environmental science, Seasonal cycle

Abstract

To study the influence of polluted air-mass transport carrying ozone (O3) and black carbon (BC) in the high Himalayas, since March 2006 the Nepal Climate Observatory at Pyramid (NCO-P) GAW-WMO global station (Nepal, 5079 m a.s.l.) is operative. During the first 5-year measurements, the O3 and BC concentrations have shown a mean value of 48 ± 12 ppb (± standard deviation) and 208 ± 374 ng/m3, respectively. Both O3 and BC showed well defined seasonal cycles with maxima during pre-monsoon (O3: 61.3 ± 7.7 ppbV; BC: 444 ± 433 ng/m3) and minima during the summer monsoon (O3: 40.1 ± 12.4 ppbV; BC: 64 ± 101 ng/m3). The analysis of the days characterised by the presence of a significant BC increase with respect to the typical seasonal cycle identified 156 days affected by "acute" pollution events, corresponding to 9.1% of the entire data-set. Such events mostly occur in the pre-monsoon period, when the O3 diurnal variability is strongly related to the transport of polluted air-mass rich on BC. On average, these "acute" pollution events were characterised by dramatic increases of BC (352%) and O3 (29%) levels compared with the remaining days. © 2013 The Research Centre for Eco-Environmental Sciences, Chinese Academy of Sciences.

Published

2014

5. Transport of short-lived climate forcers/pollutants (SLCF/P) to the Himalayas during the South Asian summer monsoon onset

Author

Tony Christian Landi, Davide Putero, G. P. Verza, Paolo Bonasoni, E. Vuillermoz, Francescopiero Calzolari, Shichang Kang, P. Stocchi, Angela Marinoni, Bhupesh Adhikary, Jing Ming, Paolo Cristofanelli, R. Duchi, Paolo Laj, Cristofanelli, P., Putero, D., Adhikary, B., Landi, T.C., Marinoni, A., Duchi, R., Calzolari, F., Laj, P., Stocchi, P., Verza, G., Vuillermoz, E., Kang, S., Ming, J., and Bonasoni, P.

Subjects

mineral dust, Himalayas, Atmospheric circulation, Renewable Energy, Sustainability and the Environment, equivalent black carbon, Public Health, Environmental and Occupational Health, Storm, Mineral dust, Monsoon, Atmospheric sciences, Arid, Aerosol, Troposphere, ozone, Climatology, Environmental science, monsoon onset, Precipitation, General Environmental Science

Abstract

Over the course of six years (2006-2011), equivalent black carbon (eqBC), coarse aerosol mass (PM1-10), and surface ozone (O3), observed during the monsoon onset period at the Nepal Climate Observatory-Pyramid WMO/GAW Global Station (NCO-P, 5079 m a.s.l.), were analyzed to investigate events characterized by a significant increase in these short-lived climate forcers/pollutants (SLCF/P). These events occurred during periods characterized by low (or nearly absent) rain precipitation in the central Himalayas, and they appeared to be related to weakening stages (or 'breaking') of the South Asian summer monsoon system. As revealed by the combined analysis of atmospheric circulation, air-mass three-dimensional back trajectories, and satellite measurements of atmospheric aerosol loading, surface open fire, and tropospheric NOx , the large amount of SLCF/P reaching the NCO-P appeared to be related to natural (mineral dust) and anthropogenic emissions occurring within the PBL of central Pakistan (i.e., Thar Desert), the Northwestern Indo-Gangetic plain, and the Himalayan foothills. The systematic occurrence of these events appeared to represent the most important source of SLCF/P inputs into the central Himalayas during the summer monsoon onset period, with possible important implications for the regional climate and for hydrological cycles.

Published

2014