about
Source Apportionment and Elemental Composition of PM2.5 and PM10 in Jeddah City, Saudi ArabiaEffect based monitoring of seasonal ambient air exposures in Australia sampled by PUF passive air samplersEvaluation of PM surface concentrations simulated by Version 1 of NASA's MERRA Aerosol Reanalysis over Europe.Stockholm Convention on persistent organic pollutants: triggering, streamlining and catalyzing global scientific exchangeTemporal and spatial variability of ground level atmospheric methane concentrations in the Ebro River DeltaA multi–pollutant, risk–based approach to air quality management: Case study for DetroitA Reduced Form Model for Ozone Based on Two Decades of CMAQ Simulations for the Continental United StatesVolatile per- and polyfluoroalkyl compounds in the remote atmosphere of the western Antarctic Peninsula: an indirect source of perfluoroalkyl acids to Antarctic waters?A new flow–through directional passive air sampler: design, performance and laboratory testing for monitoring ambient nitrogen dioxidePollution concentrations in Delhi India during winter 2015–16: A case study of an odd-even vehicle strategySpatial variability of concentrations of gaseous pollutants across the National Capital Region of Delhi, IndiaElemental composition and source identification of very fine aerosol particles in a European air pollution hot-spotChemical compositions and source identification of particulate matter (PM 2.5 and PM 2.5–10 ) from a scrap iron and steel smelting industry along the Ife–Ibadan highway, NigeriaAdvanced receptor modeling of near–real–time, ambient PM 2.5 and its associated components collected at an urban–industrial site in Toronto, OntarioParticle nucleation in a forested environmentA ten–year source apportionment study of ambient fine particulate matter in San Jose, CaliforniaAir pollution by fine particulate matter in BangladeshCharacterization of fine particulate sources at Ashaiman in Greater Accra, GhanaApplication of receptor modeling methodsCharacterization and source apportionment of particulate pollution in Colombo, Sri LankaLong–range transport of soil dust and smoke pollution in the South Asian regionPreliminary study of the sources of ambient air pollution in Serpong, IndonesiaSource apportionment and potential source locations of PM2.5 and PM2.5–10 at residential sites in metropolitan BangkokSource apportionment of benzene downwind of a major point sourceEditorialUsing highly time resolved fine particulate compositions to find particle sources in St. Louis, MOSpatial and temporal distribution of pesticides and PCBs in the atmosphere using XAD-resin based passive samplers: A case study in the Quequén Grande River watershed, ArgentinaPrediction of airborne nanoparticles at roadside location using a feed–forward artificial neural networkAssessment of PAH loss in passive air samplers by the effect of temperatureCharacteristics of carbonaceous particles from residential coal combustion and agricultural biomass burning in ChinaChemical speciation of aerosols and air quality degradation during the festival of lights (Diwali)Tracing the origin of dioxins in Baltic air using an atmospheric modeling approachCharacterizing ammonia emissions from a commercial mechanically ventilated swine finishing facility and an anaerobic waste lagoon in North CarolinaDevelopment of an extended chemical mechanism for global–through–urban applicationsSource apportionment of fine particulate matter over the Eastern U.S. Part I: source sensitivity simulations using CMAQ with the Brute Force methodSource apportionment of fine particulate matter over the Eastern U.S. Part II: source apportionment simulations using CAMx/PSAT and comparisons with CMAQ source sensitivity simulationsAn evaluation of transported pollution and respiratory–related hospital admissions in the state of New YorkUse of a process analysis tool for diagnostic study on fine particulate matter predictions in the U.S. – Part I: Model evaluationUse of a process analysis tool for diagnostic study on fine particulate matter predictions in the U.S.–Part II: Analyses and sensitivity simulationsMobile monitoring of particulate matter: State of art and perspectives
P1433
Q28657880-9F850F0D-5D8C-4A95-8EDE-369404AB2BA7Q34920184-51AADB42-DD73-4574-A026-2E3FC37E811DQ55335340-177AA017-2DF0-4B61-BB07-516194F73781Q56657160-7EFC229E-EB26-43AE-A978-607396A3DCD9Q57009337-86109CF9-D540-4158-A3BD-A0EABBFAC0D6Q57064148-5C982A61-C551-49AF-AEDA-2118AFD5AC1AQ57106394-260F2A75-E4DC-4D5F-B800-203E09BAA398Q57158018-C0E6C313-F8FD-408C-BDAA-7D71AF1B6A18Q57158070-406499BE-5F90-40E6-8226-835B6104A35FQ57183927-6CAA9C40-DA59-498F-9B6C-EEF56C0ABB23Q57183964-91139124-F171-42A9-ACD7-12C81682797BQ57183975-EDEBCD89-AD6C-4635-9E00-91F311B5FA72Q57184012-69E72E67-93E5-4417-BCB7-C5699A6AC95BQ57184113-A4AA9DE1-ACDA-4407-AC68-42A2EEDFEF68Q57184145-CB00B179-8436-4782-9A58-BA27F974879DQ57184154-03FDE275-4FA3-440F-AF79-F3C513377BEDQ57184165-9097E6AA-C0F0-470B-82A8-0E0556C5C808Q57184279-CB6149D1-181B-4F2A-AFF2-99A5D490B18DQ57184390-F202B79F-73CE-47EF-9035-197A2A0ED45FQ57184395-5568AAE7-5AB0-45D9-9E27-BDBB5337A2B3Q57184446-C2426333-1B5A-47BB-9FBF-18B20DF2B002Q57184463-B2DFCD96-D0CD-4B79-816B-C785219AD5D2Q57184474-56252F91-FAD5-420C-9285-C3AE355B2B45Q57184481-890E8B4B-30FE-445F-B452-DF4A971D24C4Q57184494-EB9A28F6-C894-42B0-ACAC-FC957E6665C3Q57184520-0AE94301-B125-4A9E-A982-47F303A77BA0Q57239420-5BACB500-FF88-4A22-916B-C5AA911FE3E0Q57256011-94859400-B211-40EA-85F4-AFB60AE15B0EQ57266404-87B76929-E5C1-4309-8D49-C986239DAA88Q57269970-AA201B8C-EB77-4B18-A5FE-C808F4FFE332Q57269975-6198A17A-B1E0-4463-A0C7-938011161921Q57272686-87746D71-69F3-479C-9840-767D3F28AE77Q57431105-A8FBEB2E-744D-4671-A08E-02B28CE70B8CQ57433165-A417CFEF-491C-49E6-9D44-9961309B92A2Q57435599-A302DD3A-8322-4763-B3CF-04D4B8AC51EFQ57435601-D2FB56AA-28D5-4811-965A-F1C964BD7EE0Q57437073-D81072FF-7205-4527-9823-A0EA1BC5EA75Q57437074-4035EF97-CC3F-4F0D-A805-F7E7EE43F82FQ57437077-5DF157CC-326C-4857-9C98-C14712EC24B7Q57520359-3C3A974F-5B95-455E-B091-4EE1D30F71BD
P1433
description
journal
@en
revista científica
@es
wetenschappelijk tijdschrift van Elsevier
@nl
wissenschaftliche Fachzeitschrift
@de
name
Atmospheric pollution research
@ast
Atmospheric pollution research
@en
Atmospheric pollution research
@es
Atmospheric pollution research
@nl
type
label
Atmospheric pollution research
@ast
Atmospheric pollution research
@en
Atmospheric pollution research
@es
Atmospheric pollution research
@nl
altLabel
Atmos Pollut Res
@en
Atmospheric Pollution Research
@en
prefLabel
Atmospheric pollution research
@ast
Atmospheric pollution research
@en
Atmospheric pollution research
@es
Atmospheric pollution research
@nl
P3181
P1055
P1156
21100254615
P123
P1277
P1476
Atmospheric pollution research
@en
P17
P236
P3181
P571
2010-01-01T00:00:00Z
P5963
atmospheric-pollution-research