about
The global atmospheric environment for the next generation.Aviation radiative forcing in 2000: An update on IPCC (1999)Stratospheric Aerosols from Major Volcanic Eruptions: A Composition-Climate Model Study of the Aerosol Cloud Dispersal and e-folding TimeSulfate Aerosols from Non-Explosive Volcanoes: Chemical-Radiative Effects in the Troposphere and Lower StratosphereA Modelling Study of the Impact of On-Road Diesel Emissions on Arctic Black Carbon and Solar Radiation TransferDesert dust transported over Europe: Lidar observations and model evaluation of the radiative impactImpact of Coupled NOx/Aerosol Aircraft Emissions on Ozone Photochemistry and Radiative ForcingSeasonal variation of night-time accumulated Rn-222 in central ItalyWildfires impact on surface nitrogen oxides and ozone in Central ItalyAerosol Measurements in the Atmospheric Surface Layer at L’Aquila, Italy: Focus on Biogenic Primary ParticlesAircraft emission mitigation by changing route altitude: A multi-model estimate of aircraft NOx emission impact on O3 photochemistryObservations and box model analysis of radon-222 in the atmospheric surface layer at L’Aquila, Italy: March 2009 case studyStratospheric ozone response to sulfate geoengineering: Results from the Geoengineering Model Intercomparison Project (GeoMIP)Aerosol measurements at L'Aquila EARLINET station in central Italy: Impact of local sources and large scale transport resolved by LIDAREvidence for changes in stratospheric transport and mixing over the past three decades based on multiple data sets and tropical leaky pipe analysisObservations of surface radon in Central ItalyEvolution of surface ozone in central Italy based on observations and statistical modelAircraft induced effects on Arctic polar stratospheric cloud formationDeep convective transport in a two-dimensional model: Effects on lower stratospheric aerosols and ozoneImpact of future supersonic aircraft on the distribution of stratospheric tracers: Chemical and dynamical perturbationsModel intercomparison of the transport of aircraft-like emissions from sub- and supersonic aircraftA study of the El Chichon perturbation in the stratospheric dynamics: results from a 3D modelSeasonal and latitudinal distribution of trace gases in the stratosphere: Results from a 2D residual circulation modelA two-dimensional photochemical model of the stratosphere with Rayleigh scattering
P50
Q31045368-EAEA0437-F40E-4F95-A267-0F527103D854Q57307954-D4CCFECA-3DCE-497B-B33F-8FC1E15F8CE8Q57536785-A5933903-75B1-4760-9433-9A3FB5523FDDQ57536786-F8AF56D4-FAA4-4896-8A0A-9F3A1F511B4FQ57536787-3925A396-71DE-4474-B82B-EB6F6CEA9705Q57536788-CADAE4CA-0F0F-4F04-BA46-BF616DC01BF8Q57536790-3A04777C-8FA5-4B68-A326-4BD73966460DQ57536791-796EE753-9E9B-48F0-952F-B622758B6711Q57536792-0C3025FE-380E-4A5F-A65C-8C7815F57E98Q57536794-068AC570-CCC6-4632-A3E9-78CDFCFF1891Q57536795-26C451A7-37B0-4663-A28B-0EAC32259687Q57536799-E5E74ABD-DD3B-4FBE-A878-BE3056E1A179Q57536800-395B2CA8-0A47-4E72-9705-77F1E0079CA6Q57536801-E152407D-38AB-4A34-BC1B-FE3E6A751C73Q57536813-57377B42-BAB2-4B98-A497-915F7A5A547AQ57536848-C2E1C4B5-7F34-4B7F-B6F1-5746A8631A50Q57536853-E0ECC28D-4C7B-4EBF-BAF5-2150085B79CDQ57536862-4CE74045-B4E1-4514-85A3-AB291E79B04BQ57536863-2F543A17-0A7B-46F7-8A6E-14E6801D1EA6Q57536866-21A7E7A1-CF1C-4694-B884-8C7075B9FA68Q57536868-244ED750-67CE-4E5D-B650-2CABEE3BA82BQ57536897-190A9998-4D71-4C22-BBD9-CA3A56BD3928Q57536902-84C37C8A-423B-4F2F-B2DC-C2138B8FACF4Q57536912-41824DF6-0459-4C5C-B1C7-0A99E058086C
P50
description
researcher ORCID id 0000-0001-7051-9578
@en
wetenschapper
@nl
name
Giovanni Pitari
@ast
Giovanni Pitari
@en
Giovanni Pitari
@es
Giovanni Pitari
@nl
type
label
Giovanni Pitari
@ast
Giovanni Pitari
@en
Giovanni Pitari
@es
Giovanni Pitari
@nl
altLabel
Gianni Pitari
@en
prefLabel
Giovanni Pitari
@ast
Giovanni Pitari
@en
Giovanni Pitari
@es
Giovanni Pitari
@nl
P1053
O-7458-2016
P106
P1153
7003800456
P21
P31
P3829
P496
0000-0001-7051-9578