Biblio

Found 20 results
Filters: Keyword is black carbon  [Clear All Filters]
2019
Chen S.J, Russell LM, Cappa CD, Zhang X.L, Kleeman M.J, Kumar A., Liu D., Ramanathana V..  2019.  Comparing black and brown carbon absorption from AERONET and surface measurements at wintertime Fresno. Atmospheric Environment. 199:164-176.
Wang H, Xie SP, Kosaka Y, Liu QY, Du Y..  2019.  Dynamics of Asian summer monsoon response to anthropogenic aerosol forcing. Journal of Climate. 32:843-858.
2018
Amaya D.J, Siler N., Xie SP, Miller AJ.  2018.  The interplay of internal and forced modes of Hadley Cell expansion: lessons from the global warming hiatus. Climate Dynamics. 51:305-319.
Kwon D., Sovers M.J, Grassian VH, Kleiber P.D, Young M.A.  2018.  Optical properties of humic material standards: Solution phase and aerosol measurements. 2:1102-1111.
Ditas J., Ma N., Zhang Y., Assmann D., Neumaier M., Riede H., Karu E., Williams J., Scharffe D., Wang Q.Q et al..  2018.  Strong impact of wildfires on the abundance and aging of black carbon in the lowermost stratosphere. Proceedings of the National Academy of Sciences of the United States of America. 115:E11595-E11603.
2017
Yang Y., Russell LM, Lou S.J, Liao H., Guo J.P, Liu Y., Singh B., Ghan SJ.  2017.  Dust-wind interactions can intensify aerosol pollution over eastern China. Nature Communications. 8
Mikhailov E.F, Mironova S., Mironov G., Vlasenko S., Panov A., Chi X.G, Walter D., Carbone S., Artaxo P., Heimann M. et al..  2017.  Long-term measurements (2010-2014) of carbonaceous aerosol and carbon monoxide at the Zotino Tall Tower Observatory (ZOTTO) in central Siberia. Atmospheric Chemistry and Physics. 17:14365-14392.
Konovalov I.B, Beekmann M., Berezin E.V, Formenti P., Andreae M.O.  2017.  Probing into the aging dynamics of biomass burning aerosol by using satellite measurements of aerosol optical depth and carbon monoxide. Atmospheric Chemistry and Physics. 17:4513-4537.
2016
Pistone K., Praveen P.S, Thomas R.M, Ramanathan V, Wilcox E.M, Bender F.AM.  2016.  Observed correlations between aerosol and cloud properties in an Indian Ocean trade cumulus regime. Atmospheric Chemistry and Physics. 16:5203-5227.
Tang M., Alexander J.M, Kwon D., Estillore A.D, Laskina O., Young M.A, Kleiber P.D, Grassian VH.  2016.  Optical and physicochemical properties of brown carbon aerosol: Light scattering, FTIR extinction spectroscopy, and hygroscopic growth. Journal of Physical Chemistry A. 120:4155-4166.
Hopner F., Bender F.AM, Ekman A.ML, Praveen P.S, Bosch C., Ogren J.A, Andersson A, Gustafsson O., Ramanathan V.  2016.  Vertical profiles of optical and microphysical particle properties above the northern Indian Ocean during CARDEX 2012. Atmospheric Chemistry and Physics. 16:1045-1064.
2015
Sambandam S., Balakrishnan K, Ghosh S., Sadasivam A., Madhav S., Ramasamy R., Samanta M., Mukhopadhyay K., Rehman H., Ramanathan V.  2015.  Can currently available advanced combustion biomass cook-stoves provide health relevant exposure reductions? Results from initial assessment of select commercial models in india Ecohealth. 12:25-41.
Xu Y, Xie SP.  2015.  Ocean mediation of tropospheric response to reflecting and absorbing aerosols. Atmospheric Chemistry and Physics. 15:5827-5833.
2014
Takahama S, Russell LM, Shores C.A, Marr L.C, Zheng J, Levy M., Zhang R, Castillo E., Rodriguez-Ventura J.G, Quintana P.JE et al..  2014.  Diesel vehicle and urban burning contributions to black carbon concentrations and size distributions in Tijuana, Mexico, during the Cal-Mex 2010 campaign. Atmospheric Environment. 88:341-352.
Guzman-Morales J., Frossard AA, Corrigan A.L, Russell LM, Liu S, Takahama S, Taylor J.W, Allan J., Coe H., Zhao Y. et al..  2014.  Estimated contributions of primary and secondary organic aerosol from fossil fuel combustion during the CalNex and Cal-Mex campaigns. Atmospheric Environment. 88:330-340.
Levy M.E, Zhang R.Y, Zheng J, Tan H.B, Wang Y., Molina L.T, Takahama S, Russell LM, Li G.H.  2014.  Measurements of submicron aerosols at the California-Mexico border during the Cal-Mex 2010 field campaign. Atmospheric Environment. 88:308-319.
Lin G.X, Penner JE, Flanner M.G, Sillman S., Xu L, Zhou C.  2014.  Radiative forcing of organic aerosol in the atmosphere and on snow: Effects of SOA and brown carbon. Journal of Geophysical Research-Atmospheres. 119:7453-7476.
2013
Anenberg SC, Balakrishnan K, Jetter J, Masera O, Mehta S, Moss J, Ramanathan V.  2013.  Cleaner cooking solutions to achieve health, climate, and economic cobenefits. Environmental Science & Technology. 47:3944-3952.
Xu Y.Y, Bahadur R., Zhao C, Leung LR.  2013.  Estimating the radiative forcing of carbonaceous aerosols over California based on satellite and ground observations. Journal of Geophysical Research-Atmospheres. 118:11148-11160.
Cazorla A, Bahadur R., Suski KJ, Cahill JF, Chand D., Schmid B., Ramanathan V, Prather KA.  2013.  Relating aerosol absorption due to soot, organic carbon, and dust to emission sources determined from in-situ chemical measurements. Atmospheric Chemistry and Physics. 13:9337-9350.
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