Biomass burning in Siberia and Kazakhstan as an important source for haze over the Alaskan Arctic in April 2008
about
Aerosols from overseas rival domestic emissions over North America.Long-term measurements (2010–2014) of carbonaceous aerosol and carbon monoxide at the Zotino Tall Tower Observatory (ZOTTO) in central SiberiaAssessment of the regional atmospheric impact of wildfire emissions based on CO observations at the ZOTTO tall tower station in central SiberiaAircraft-measured indirect cloud effects from biomass burning smoke in the Arctic and subarcticSensitivity of black carbon concentrations and climate impact to aging and scavenging in OsloCTM2–M7Sources of springtime surface black carbon in the Arctic: an adjoint analysis for April 2008Global detection of absorbing aerosols over the ocean in the red and near-infrared spectral regionScales of variability of black carbon plumes over the Pacific OceanAn important contribution to springtime Arctic aerosol from biomass burning in RussiaAnnual distributions and sources of Arctic aerosol components, aerosol optical depth, and aerosol absorptionSpringtime Arctic haze contributions of submicron organic particles from European and Asian combustion sourcesUpper tropospheric ozone production from lightning NOx-impacted convection: Smoke ingestion case study from the DC3 campaignNorthern Eurasia Future Initiative (NEFI): facing the challenges and pathways of global change in the twenty-first centuryChemical characterization of individual particles and residuals of cloud droplets and ice crystals collected on board research aircraft in the ISDAC 2008 studyThe dependence of ice microphysics on aerosol concentration in arctic mixed-phase stratus clouds during ISDAC and M-PACEFactors influencing the microphysics and radiative properties of liquid-dominated Arctic clouds: Insight from observations of aerosol and clouds during ISDACAccumulation-mode aerosol number concentrations in the Arctic during the ARCTAS aircraft campaign: Long-range transport of polluted and clean air from the Asian continentPatterns of CO2and radiocarbon across high northern latitudes during International Polar Year 2008Seasonal variation of the transport of black carbon aerosol from the Asian continent to the Arctic during the ARCTAS aircraft campaignThe Spring-Time Boundary Layer in the Central Arctic Observed during PAMARCMiP 2009Evaluation of Composition-Dependent Collection Efficiencies for the Aerodyne Aerosol Mass Spectrometer using Field DataPan-Arctic sunphotometry during the ARCTAS-A campaign of April 2008Radiative forcing due to enhancements in tropospheric ozone and carbonaceous aerosols caused by Asian fires during spring 2008Transport of NOxin East Asia identified by satellite and in situ measurements and Lagrangian particle dispersion model simulations16-year simulation of Arctic black carbon: Transport, source contribution, and sensitivity analysis on depositionEmission characteristics of refractory black carbon aerosols from fresh biomass burning: a perspective from laboratory experimentsIsocyanic acid in a global chemistry transport model: Tropospheric distribution, budget, and identification of regions with potential health impactsEvaluation of ground-based black carbon measurements by filter-based photometers at two Arctic sitesSeasonal variations of Asian black carbon outflow to the Pacific: Contribution from anthropogenic sources in China and biomass burning sources in Siberia and Southeast AsiaEmission characteristics of black carbon in anthropogenic and biomass burning plumes over California during ARCTAS-CARB 2008
P2860
Q34363940-983E1D3B-27F2-475B-8E7E-E4AB85715128Q57242153-6FCAF3A1-367D-4B53-B6AB-E730FF6A6E84Q57242210-B1CD74FF-9116-4D18-B97B-2D186D6334D9Q57869881-8ACE5163-8A97-4307-8399-CFE4900726CDQ57881826-91C1F115-BD3E-4C04-B2F0-3ECC6F54E9A9Q57882125-8F98BDD6-7CE9-4527-A6F2-1CA29AB446CCQ57915003-2FE95CFE-3C43-4BEA-BB69-B429602E0D07Q58072485-536CB9C5-D28E-43EB-8DB6-1EFF1E4119DDQ58072517-924E80E2-6055-40B0-80C7-B98BF5B82C57Q58074593-FCF8C4CF-EE33-4DA7-9E86-6E9D81503D52Q58096500-485DFC82-8DC6-45D1-BC16-027B9CF572B2Q58116744-DB327FD0-3723-4566-9B0E-DA77FFB3A908Q58120872-CFF8A1B7-DF0B-417C-9204-50486897063AQ58201570-1FA86A11-2675-4501-A97C-E0E62C7F9A68Q58201588-4CD12379-DC84-49DE-9490-DC9AA7A2C117Q58201600-A8F78918-D3D6-4614-A7E4-BD04AABBAB5DQ58240407-BEDEC32B-8946-48C5-AE85-A2D3940A5A6DQ58240424-F8D009DB-6A35-4352-89D7-227A73DC8D7CQ58240427-C9606170-6A50-46AE-808D-807BC8DC447AQ58242906-8882DD6A-3ACA-4222-9664-FB0978D5E239Q58246191-8D8159F5-1F0A-47B8-A2AE-855AF1BDB555Q58312764-36913B59-709E-4D49-AF95-7CC9780BCE15Q58321187-F2D78E47-AA5D-4B7A-AFF5-8987C8AA66DDQ58383482-9E1C572B-7E8E-4476-90C2-410939259729Q58394060-AE7E5299-FCF5-4EA2-A1B0-325788D2FB56Q58643199-9C7560A5-E8BB-4879-B6D8-E8B293F47B69Q58889739-74FB76D6-748B-4BF2-8EEB-53CA23C25C94Q59164525-CFC24798-2DF5-4A98-829F-98506CEC57D4Q59164551-7C2205DB-6C16-4A26-B396-2F6AD21CEF4AQ59164554-B98DDEFD-6A93-448E-A5A3-5A8C43DAEED6
P2860
Biomass burning in Siberia and Kazakhstan as an important source for haze over the Alaskan Arctic in April 2008
description
im Jahr 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2009
@uk
name
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@en
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@nl
type
label
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@en
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@nl
prefLabel
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@en
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@nl
P2093
P2860
P50
P356
P1476
Biomass burning in Siberia and ...... e Alaskan Arctic in April 2008
@en
P2093
C. A. Brock
C. Warneke
D. M. Murphy
D. W. Fahey
J. A. de Gouw
J. Brioude
J. P. Schwarz
J. R. Spackman
J. S. Holloway
K. D. Froyd
P2860
P356
10.1029/2008GL036194
P407
P577
2009-01-01T00:00:00Z