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Journal Abstract Search

166 related items for PubMed ID: 36937802

  • 1. Quantifying international and interstate contributions to primary ambient PM2.5 and PM10 in a complex metropolitan atmosphere.
    Das S, Prospero JM, Chellam S.
    Atmos Environ (1994); 2023 Jan 01; 292():. PubMed ID: 36937802
    [Abstract] [Full Text] [Related]

  • 2. Quantifying the contribution of long-range Saharan dust transport on particulate matter concentrations in Houston, Texas, using detailed elemental analysis.
    Bozlaker A, Prospero JM, Fraser MP, Chellam S.
    Environ Sci Technol; 2013 Sep 17; 47(18):10179-87. PubMed ID: 23957269
    [Abstract] [Full Text] [Related]

  • 3. Coupling Sr-Nd-Hf Isotope Ratios and Elemental Analysis to Accurately Quantify North African Dust Contributions to PM2.5 in a Complex Urban Atmosphere by Reducing Mineral Dust Collinearity.
    Das S, Miller BV, Prospero JM, Gaston CJ, Royer HM, Blades E, Sealy P, Chellam S.
    Environ Sci Technol; 2022 Jun 21; 56(12):7729-7740. PubMed ID: 35670821
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  • 4. National Particle Component Toxicity (NPACT) Initiative: integrated epidemiologic and toxicologic studies of the health effects of particulate matter components.
    Lippmann M, Chen LC, Gordon T, Ito K, Thurston GD.
    Res Rep Health Eff Inst; 2013 Oct 21; (177):5-13. PubMed ID: 24377209
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  • 5. Characterization of carbonaceous fractions in PM2.5 and PM10 over a typical industrial city in central China.
    Zhan C, Zhang J, Zheng J, Yao R, Wang P, Liu H, Xiao W, Liu X, Cao J.
    Environ Sci Pollut Res Int; 2019 Jun 21; 26(17):16855-16867. PubMed ID: 29047059
    [Abstract] [Full Text] [Related]

  • 6. The contributions to long-term health-relevant particulate matter at the UK EMEP supersites between 2010 and 2013: Quantifying the mitigation challenge.
    Malley CS, Heal MR, Braban CF, Kentisbeer J, Leeson SR, Malcolm H, Lingard JJ, Ritchie S, Maggs R, Beccaceci S, Quincey P, Brown RJ, Twigg MM.
    Environ Int; 2016 Oct 21; 95():98-111. PubMed ID: 27557590
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  • 9. Seasonal characteristics of aerosols (PM2.5 and PM10) and their source apportionment using PMF: A four year study over Delhi, India.
    Jain S, Sharma SK, Vijayan N, Mandal TK.
    Environ Pollut; 2020 Jul 21; 262():114337. PubMed ID: 32193082
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  • 11. Changes in ambient particulate matter during the COVID-19 and associations with biomass burning and Sahara dust in northern Colombia.
    Rojano R, Arregocés H, Gámez Frías E.
    Heliyon; 2021 Dec 21; 7(12):e08595. PubMed ID: 34926843
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  • 12. Assessment of annual air pollution levels with PM1, PM2.5, PM10 and associated heavy metals in Algiers, Algeria.
    Talbi A, Kerchich Y, Kerbachi R, Boughedaoui M.
    Environ Pollut; 2018 Jan 21; 232():252-263. PubMed ID: 28943349
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  • 13. Sr-Nd-Hf isotopic analysis of reference materials and natural and anthropogenic particulate matter sources: Implications for accurately tracing North African dust in complex urban atmospheres.
    Das S, Miller BV, Prospero J, Chellam S.
    Talanta; 2022 May 01; 241():123236. PubMed ID: 35074680
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  • 14. Evaluating heterogeneity in indoor and outdoor air pollution using land-use regression and constrained factor analysis.
    Levy JI, Clougherty JE, Baxter LK, Houseman EA, Paciorek CJ, HEI Health Review Committee.
    Res Rep Health Eff Inst; 2010 Dec 01; (152):5-80; discussion 81-91. PubMed ID: 21409949
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  • 16. Biomarkers as indicators of fungal biomass in the atmosphere of São Paulo, Brazil.
    Emygdio APM, Andrade MF, Gonçalves FLT, Engling G, Zanetti RHS, Kumar P.
    Sci Total Environ; 2018 Jan 15; 612():809-821. PubMed ID: 28881304
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  • 17. Source apportionment of PM10 and PM2.5 air pollution, and possible impacts of study characteristics in South Korea.
    Ryou HG, Heo J, Kim SY.
    Environ Pollut; 2018 Sep 15; 240():963-972. PubMed ID: 29910064
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  • 19. First assessment of the PM10 and PM2.5 particulate level in the ambient air of Belgrade city.
    Rajsić SF, Tasić MD, Novaković VT, Tomasević MN.
    Environ Sci Pollut Res Int; 2004 Sep 15; 11(3):158-64. PubMed ID: 15259698
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