Profile for Tianle Yuan

Contact: E-mail
Office Phone: 301-614-6195
Fax: 301-614-6307


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Updates to our publications records have been put on hold until a new storage and delivery system has been put in place. As a result, this information is currently out of date and does not include the most recent publications. For a more complete listing of publications, please visit the Sciences and Exporation Directorate.

Matsui, T., C. Ichoku, C. Randles, T. Yuan, A.M. da Silva, P. Colarco, D. Kim, R. Levy, A. Sayer, M. Chin, D. Giles, B. Holben, E.J. Welton, T. Eck, and L. Remer (2014). Current and Future Perspectives of Aerosol Research at NASA Goddard Space Flight Center BAMS, (In Press).

Yuan, T., and L. Oreopoulos (2013). On the global character of the overlap between high and low clouds Geophys. Res. Lett, 40, 5320-5326

Yu, H., Y. Zhang, Chin, M., Z. Liu, A. Omar, L.A. Remer, Y. Yang, T. Yuan, and J. Zhang (2012). An Integrated Analysis of Aerosol above Clouds from A-Train Multi-sensor Measurements Rem. Sens. Environ, 121, 125-131

Yu, H., L. Remer, M. Chin, H. Bian, Q. Tan, T. Yuan, and Y. Zhang (2012). Aerosols from Overseas Rival Domestic Emissions over North America SCIENCE, 337, 566-569

Yuan, T., L. A. Remer, H. Bian, J.R. Ziemke, R. Albrecht, K.E. Pickering, L. Oreopoulos, S.J. Goodman, H. Yu, and D. J. Allen (2012). Aerosol indirect effect on tropospheric ozone via lightning J. Geophys. Res-Atmos, 117, D18213.

Yuan, T., L. A. Remer, H. Bian, J. R. Ziemke, R. Albrecht, and et al. (2012). Aerosol indirect effect on tropospheric ozone via cloud lightning J. Geophys. Res, 117, D18213.

Yuan, T., L. Remer, and H. Yu (2011). Microphysical, macrophysical and radiative signatures of volcanic aerosols in trade wind cumulus observed by the A-Train Atmos. Chem. Phys, 11, 7119-7132
doi: 10.5194/acp-11-7119-2011

Yuan, T., L. Remer, K.E. Pickering, and H. Yu (2011). Observational evidence of aerosol enhancement of lightning activity and convective invigoration Geophys. Res. Lett, 38, L04701.

Yuan, T. (2011). Cloud macroscopic organization: order emerging from randomness Atmos. Chem. Phys, 11, 7483-7490

Yuan, T., and Zhanqing Li (2010). General Macro- and Microphysical Properties of Deep Convective Clouds as Observed by MODIS J. Climate, 23, 3457-3473
doi: 10.1175/2009JCLI3136.1

Yuan T., J. V. Martins, Z. Li, and L. Remer (2010). Estimating Glaciation Temperature of Deep Convective Clouds with Remote Sensing Data Geophys., Res., Lett., L08808, 37.

Fan, J., T. Yuan, J. M. Comstock, S. Ghan, A. Khain, L. R. Leung, Z. Li, V. J. Martins, and M. Ovchinnikov (2009). Dominant role by vertical wind shear in regulating aerosol effects on deep convective clouds J. Geophy., Res, 114, D22206.

Yuan, T., Z. Li, R. Zhang, and J. Fan (2008). Increase of cloud droplet size with aerosol optical depth: An observation and modeling study J. Geophy., Res, 113, D04201.

Li Z., H. Chen, M. Cribb, R. R. Dickerson, B. Holben, C. Li, D. Lu, Y. Luo, H. Maring, G. Shi, S.C. Tsay, P. Wang, Y. Wang, X. Xia, Y. Zheng, T. Yuan, and F. Zhao (2007). Preface to special section on East Asian Studies of Tropospheric Aerosols: An International Regional Experiment (EAST-AIRE) J. Geophys. Res., D22S00, 112.