about
Impact of cabin ozone concentrations on passenger reported symptoms in commercial aircraftA pervasive role for biomass burning in tropical high ozone/low water structuresOxygen anomaly in near surface carbon dioxide reveals deep stratospheric intrusionTransport of forest fire smoke above the tropopause by supercell convectionMechanisms controlling water vapor in the lower stratosphere: “A tale of two stratospheres”Stratospheric controlled perturbation experiment: a small-scale experiment to improve understanding of the risks of solar geoengineering.A connection from stratospheric ozone to El Niño-Southern Oscillation.Increase in upper tropospheric and lower stratospheric aerosol levels and its potential connection with Asian pollutionIsotopic evidence of multiple controls on atmospheric oxidants over climate transitions.Oxygen isotope anomaly observed in water vapor from Alert, Canada and the implication for the stratosphere.Removal of chlorofluorocarbons by increased mass exchange between the stratosphere and troposphere in a changing climate.Extending water vapor trend observations over Boulder into the tropopause region: Trend uncertainties and resulting radiative forcing.Scalings of scalar structure functions in a velocity field with coherent vortical structures.Tropospheric ozonesonde profiles at long-term U.S. monitoring sites: 2. Links between Trinidad Head, CA, profile clusters and inland surface ozone measurements.Origins of tropospheric ozone interannual variation (IAV) over Réunion: A model investigation.Definitions and sharpness of the extratropical tropopause: A trace gas perspectiveTropospheric ozonesonde profiles at long-term U.S. monitoring sites: 1. A climatology based on self-organizing maps.Trends of rural tropospheric ozone at the northwest of the Iberian Peninsula.Baby, it's cold outside: Climate model simulations of the effects of the asteroid impact at the end of the CretaceousStratospheric aerosol-Observations, processes, and impact on climateStratospheric temperature trends: Observations and model simulationsTropospheric volcanic aerosolMeasurements of18O18O and17O18O in the atmosphere and the role of isotope-exchange reactionsAn overview of the Earth system science of solar geoengineeringA new cavity based absorption instrument for detection of water isotopologues in the upper troposphere and lower stratosphereThe cost of stratospheric climate engineering revisitedTransport of biomass burning smoke to the upper troposphere by deep convection in the equatorial regionTropospheric ozone maxima observed over the Arabian Sea during the pre-monsoonA global blended tropopause based on ERA data. Part I: ClimatologyThermal characteristics of the cold-point tropopause region in CMIP5 modelsTen year observations of gravity waves from thunderstorms in western AfricaSeasonality of volcanic eruptionsInvestigation of Atmospheric Reactive Gases at Mt. CimoneInfluence of stratospheric air masses on radiotracers and ozone over the central MediterraneanLower tropospheric ozone at northern midlatitudes: Changing seasonal cycleGeomagnetic activity signatures in wintertime stratosphere wind, temperature, and wave responseRole of vertical and horizontal mixing in the tape recorder signal near the tropical tropopauseGlobal distribution of CO<sub>2</sub> in the upper troposphere and stratosphereTime-varying changes in the simulated structure of the Brewer–Dobson CirculationGlobal large-scale stratosphere–troposphere exchange in modern reanalyses
P2860
Q28394833-E42764CD-4C71-4F57-A7C7-F962E4FCE442Q28601655-0E6D5CF7-A2A3-4D62-8579-7C90DDA511D3Q28648335-3EE09C1D-470A-4DB7-A51B-B8424FEF6AE1Q29393729-39347C81-8302-4B96-864D-DFD4584B69D2Q30052300-E077565F-B3AA-4678-8D5A-2753E5570408Q30870358-6442380B-88E0-4481-B3AF-29E8D5B2A56DQ33912180-36201D7B-F107-4FDE-95AC-9B83BEBA4E2CQ36355280-5703D91B-1597-4CC6-967F-E0BECFCE55FAQ36374098-9571A0B3-96E9-4B67-97B3-A5283F480982Q37203891-95BF98C2-1CF9-478D-84D6-BFB925E5A6E4Q38927177-C2F80C38-27E1-4356-BF18-FB0B8981E059Q47152679-EE2AEBA2-247B-4090-8D3F-A9C07FCB570FQ52048087-FF0AC083-4151-406B-9526-DC824B8D947CQ53123538-E6715FFD-BF9A-4C1A-805D-D4DFF78AFD6DQ53775996-FDA7AEDE-0FA8-43DE-A926-9EFEF4BC8E17Q54264316-74C497E6-29EB-4E91-AB80-078DA9EFC9CFQ55070972-5CA755A8-E46D-4C54-A783-CC1F9BCEF9D6Q55318965-AA9BCFDE-637F-4431-8C6E-A32AF8D491C9Q55867095-D14331A6-D924-4281-9A4A-3B5DAE4490D6Q56066639-8A9A5CA5-F196-4551-8FB5-B41D04BA4A15Q56112447-F0E288A6-4222-494D-B3F0-C76F377EEA6EQ56518637-22662E77-8ECB-4403-BAEB-D3D4A82AD5CAQ56673995-DC444E1C-3553-41EB-8D56-B56FB20F691DQ56679513-FD914054-C972-48E8-9A97-764FC797BF0FQ57102849-11203934-8FC0-4390-9411-6CBB20FA457CQ57256400-C0D29EC6-BE23-4472-A2A8-C1C47C5563D3Q57264234-5E4802BD-43E8-427F-A1E9-E091B8C59D02Q57372390-6284F4EE-94B2-40A7-9B7C-6852E67F2E19Q57402971-99DF50D2-0343-4456-BDF0-29E0BE9214F4Q57452933-AEF85CD5-8256-40D4-AB7B-408372B56132Q57588410-7FFB02AF-57D7-43EF-B259-2388889BCE6FQ57677176-147DFE37-DED3-49E4-9CAE-667715D588DAQ57723459-51CA0DBB-6FA2-4C7B-AEC5-6584E5BC6C21Q57723474-A87CA9C4-D34F-4429-A2AF-1405FFB5A8F0Q57736565-46BD9EEA-886F-4C50-928C-029DA4699DDCQ57760567-8B9A2F91-0B08-431F-BAC9-5800F6D774B5Q57880356-67C84097-2D1B-43A1-B15F-7CD594ED1859Q57880517-564AC9D7-FEE0-40A9-BADA-04FDA54D1D78Q57881212-F36F3D82-6B9E-4202-AC8F-C491CA21BD9BQ57881842-EC44424E-608C-4D88-8A2D-33191348F383
P2860
description
im Januar 1995 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1995
@uk
name
Stratosphere-troposphere exchange
@en
Stratosphere-troposphere exchange
@nl
type
label
Stratosphere-troposphere exchange
@en
Stratosphere-troposphere exchange
@nl
prefLabel
Stratosphere-troposphere exchange
@en
Stratosphere-troposphere exchange
@nl
P2093
P356
P1476
Stratosphere-troposphere exchange
@en
P2093
Anne R. Douglass
James R. Holton
Leonhard Pfister
Michael E. McIntyre
Peter H. Haynes
Richard B. Rood
P356
10.1029/95RG02097
P577
1995-01-01T00:00:00Z