국제학술지 (SCI Journals)
Updated : 2020/06/08

[72] Kim, G., M.-I. Lee**, S. Lee, S.-D. Choi, S.-J. Kim, and C.-K. Song, 2020: Numerical Modeling for the Accidental Dispersion of Hazardous Air Pollutants in the Urban Metropolitan Area. Atmosphere, 11(5), 477.

[71] Park, S., D. Kang, C. Yoo, J. Im, and M.-I. Lee, 2020: Recent ENSO influence on East African drought during rainy seasons through the synergistic use of satellite and reanalysis data. ISPRS Photogrammetry and Remote Sensing, 162, 17-26.

[70] Lee, S., M.-I. Lee**, C.-K. Song, K.-M. Kim, and A. M. da Silva, 2020: Interannual Variation of the East Asia Jet Stream and Its Impact on the Horizontal Distribution of Aerosol in Boreal Spring. Atmos. Env., 223, 117296.

[69] Kim, H., M. I. Lee**, S. Kim, Y.-K. Lim, S. D. Schubert, and A. M. Molod, 2020: Representation of Tropical Cyclones by the Modern-Era Retrospective Analysis for Research and Applications Version 2. Asia-Pacific J. Atmos. Sci., 1-15.

[68] Choi, N., M. I. Lee**, D. H. Cha, Y. K. Lim, and K. M. Kim, 2019: Decadal Changes in the Interannual Variability of Heatwaves in East Asia Caused by Atmospheric Teleconnection Changes. J. Clim., 2019.

[67] Kim, H., M.-I. Lee**, D.-H. Cha, Y.-K. Lim, and W. M. Putman, 2019: Improved representation of the diurnal variation of warm season precipitation by an atmospheric general circulation model at a 10 km horizontal resolution. Climate Dynamics, 53(11), 6523-6542

[66] Kim, S.-J., H.-O. Kwon, M.-I. Lee, Y. Seo, and S.-D. Choi**, 2019: Spatial and temporal variations of volatile organic compounds using passive air samplers in the multi-industrial city of Ulsan, Korea, Environmental Science and Pollution Research, 26, 5831-5841.

[65] Choi, N. and M.-I. Lee**, 2019: Spatial Variability and Long-Term Trend in the Occurrence Frequency of Heatwave and Tropical Night in Korea, Asia-Pacific Journal of Atmospheric Sciences, 55, 101-114

[64] Choi, N., K.-M. Kim, Y.-K. Lim, and M.-I. Lee**, 2019: Decadal changes in the leading patterns of sea level pressure in the Arctic and their impacts on the sea ice variability in boreal summer, The Cryosphere, 13, 3007–3021.

[63] Seo, E., M-I. Lee**, D. Kim, Y.-K. Lim, S. D. Schubert, and K.-M. Kim, 2019: Interannual variation of tropical cyclones simulated by GEOS-5 AGCM with modified convection scheme. Int J Climatol., 39, 4041– 4057. https://doi.org/10.1002/joc.6058

[62] Kim, M., M.-S. Park, J. Im, S. Park, and M.-I. Lee**, 2019: Machine Learning Approaches for Detecting Tropical Cyclone Formation Using Satellite Data. Rem. Sens., 11(10:1195.  

[61] Lee, S., and M.-I. Lee**, 2019: Effects of surface vegetation on the intensity of East Asian summer monsoon as revealed by observation and model experiments. Int J Climatol, 1– 15. https://doi.org/10.1002/joc.6420

[60] Kim, D., Lee, M.-I.**, and E. Seo, 2019: Improvement of Soil Respiration Parameterization in a Dynamic Global Vegetation Model and Its Impact on the Simulation of Terrestrial Carbon Fluxes, J. Climate, 32, 127-143.

[59] Yoon, D., D.-H. Cha, G. Lee, C. Park, M.-I. Lee, and K.-H. Min, 2018: Impacts of Synoptic and Local Factors on Heat Wave Events Over Southeastern Region of Korea in 2015. J. Geophys. Res. – Atmos., 123 (21), 12,081-12,096.

[58] Kim, H., M.-I. Lee**, et al., 2018: Representation of Boreal Winter MJO and Its Teleconnection in a Dynamical Ensemble Seasonal Prediction System. J. Climate, 31(21), 8803-8818.

[57] Park, S., E. Seo, D. Kang, J. Im, and M. -I. Lee, 2018: Prediction of drought on pentad scale using remote sensing data and MJO index through random forest over East Asia. Remote Sens., 10(11), 1811.

[56] Kim, D., M.-I. Lee**, S. -J. Jeong, J. Im, D. H. Cha, and S. Lee, 2018: Intercomparison of Terrestrial Carbon Fluxes and Carbon Use Efficiency Simulated by CMIP5 Earth System Models, Asia-Pacific J. Atmos. Sci., 54(2), 145-163.

[55] Seo, E., M.-I. Lee**, et al., 2018: Impact of soil moisture initialization on boreal summer subseasonal forecasts: mid-latitude surface air temperature and heat wave events. Clim. Dyn., 52(3-4), 1695-1709.

[54] Kang, D., and M.-I. Lee**, 2016: Increase in the Potential Predictability of the Arctic Oscillation via Intensified Teleconnection with ENSO after the Mid-1990s. Clim. Dyn., 49(5-6), 2147-2160.

[53] Kim, M., J. Im, H. Park, S. Park, M-I. Lee, and M.-H. Ahn, 2017: Detection of Tropical Overshooting Cloud Tops Using Himawari-8 Imagery, Remote Sensing, 9, 685. 

[52] Shin, S.-H., O.-Y. Kim, D. Kim, and M.-I. Lee**, 2016: Cloud radiative effects and changes simulated by the Coupled Model Intercomparison Project Phase 5 models. Adv. Atmos. Sci., 34, 859-876.

[51] Lee, S., D. Kim, J. Im*, M.-I. Lee**, and Y.-G. Park, 2017: CO2 concentration and its spatiotemporal variation in the troposphere using multi-sensor satellite data, carbon tracker, and aircraft observations. GIScience & Remote Sensing, 54, 592-613.

[50] Choi, Y., D.-H. Cha, M.-I. Lee, J. Kim, C-S. Jin, S.-H. Park, and M.-S. Joh, 2017: Satellite radiance data assimilation for binary tropical cyclone cases over the western North Pacific, J. Adv. Model Earth Sys., 9, 832-853.

[49] Lee, S., H. Han, J. Im, E. Jang, and M.-I. Lee, 2016: Detection of deterministic and probabilistic convection initiation using Himawari-8 Advanced Himawari Imager data. Atmos. Mea. Tech., 10, 1859-1874.

[48] Park, M.-S., M.-I. Lee**, D. Kim, D.-H. Cha, M. M. Bell, and R. L. Elsberry, 2017: Land-based convection effects on formation of a tropical cyclone Mekkhala (2008). Mon. Wea. Rev., 145, 1315-1337.

[47] Kang, D., and M.-I. Lee**, 2017: ENSO Influence on the dynamical seasonal prediction of the East Asian Winter Monsoon. Clim. Dyn., 53(12), 7479-7495.

[46] Kim, D., H. Kim, and M.-I. Lee**, 2017: Why does the MJO detour the Maritime Continent during Austral summer? Geophys. Res. Lett., 44 2579–2587.

[45] Kim, O.-Y., H.-M. Kim, M.-I. Lee, Y.-M. Min, and S.-H. Shin, 2017: Dynamical-statistical seasonal prediction for western North Pacific typhoons based on APCC multi-models. Clim. Dyn., doi:10.1007/s00382-016-3063-1.

[44] Lee, W.-S., and M.-I. Lee**, 2016: Interannual variability of heat waves in South Korea and their connection with large‐scale atmospheric circulation patterns. Int. J. Climatol., DOI: 10.1002/joc.4671

[43] Truong, S. C. H., M. -I. Lee**, G. Kim, D. Kim, J.-H. Park, S.-D. Choi, and G. Cho, 2016: Accidental benzene release risk assessment in an urban area using an atmospheric dispersion model. Atmos. Environ., 144, 146-159. 

[42] Park, M.-S., M. Kim, M.-I. Lee**, J. Im*, S. Park, 2016: Detection of Tropical Cyclone Genesis via Quantitative Satellite Ocean Surface Wind Pattern and Intensity Analyses using Decision Trees. Remote Sens. Env., 183, 205-214. 

[41] Park, M.-S., M.-I. Lee**, H. Kim, and J.-M. Yoo, 2016: Spatial and diurnal variations of storm height in the East Asia summer monsoon: storm height regimes and large-scale diurnal modulation, Clim. Dyn., 46, 3-4, 745-763, DOI 10.1007/s00382-015-2610-5. 

[40] Yoo, J.-M., Jeong, M.-J., Kim, D., Stockwell, W. R., Yang, J.-H., Shin, H.-W., Lee, M.-I., Song, C.-K., and Lee, S.-D., 2015: Spatiotemporal variations of air pollutants (O3, NO2, SO2, CO, PM10, and VOCs) with land-use types, Atmos. Chem. Phys.,15, 10857-10885

[39] Pradhan, P. K., P. Venkatraman, D.-Y. Lee, and M.-I. Lee, 2016: El Niño and Indian Summer Monsoon Rainfall Relationship in retrospective seasonal prediction runs: Experiments with Coupled Global Climate Models and MMEs. Meteorology and Atmospheric Physics, 128, 1, 97-115. DOI: 10.1007/s00703-015-0396-y.

[38] Min, S.-K., S.-W. Son, K.-H. Seo, J.-S. Kug, S.-I. An, Y.-S. Choi, J.-H. Jeong, B.-M. Kim, J.-W. Kim, Y.-H. Kim, J.-Y. Lee, M.-I. Lee, 2015: Changes in weather and climate extremes over Korea and possible causes: A review, Asia-Pacific J. Atmos. Sci., 51, 103-121.

[37] Lim, Y.-K., S. D. Schubert, O. Reale, M.-I. Lee, A.M. Mold, and M. J. Suarez, 2015: Sensitivity of Tropical Cyclones to Parameterized Convection in the NASA GEOS5 Model. J. Climate, 28, 2, 551-573. DOI: 10.1175/JCLI-D-14-00104.1

[36] Park, M.-S., H.-S. Kim, C.-H. Ho, R.L. Elsberry, and M.-I. Lee, 2015: Tropical cyclone Mekkhala(2008)'s formation over South China Sea: Mesoscale, synoptic-scale, and large-scale contributions. Mon. Wea. Rev., 143, 88–110.

[35] Han, H., S. Lee, J. Im, M. Kim, M.-I. Lee, M. H. Ahn, and S.-R. Chung, 2015: Detection of convective initiation using meteorological imager onboard Communication, Ocean, and Meteorological Satellite based on machine learning approaches. Remote Sens. 7, 9184-9204.

[34] Shin, S.H., M.-I. Lee**, and O.-K. Kim, 2014: Examinations of cloud variability and future change in the coupled model intercomparison project phase 3 simulations. Asia-Paific J. Atmos. Sci., 50(4), 481-495, DOI:10.1007/s13143-014-0038-1

[33] Kang, D., M.–I. Lee**, J. Im, D. Kim, H.-M. Kim, H.-S. Kang, S. D. Schubert, A. Arribas, C. MacLachlan, 2014: Prediction of the Arctic Oscillation in Boreal Winter by Dynamical Seasonal Forecasting Systems, Geophys. Res. Lett., 41, 3577-3585, DOI:10.1002/2014GL060011

[32] Kim, D., M.-I. Lee**, H.-M. Kim, and S. D. Schubert, 2014: The Modulation of Tropical Storm Activity in the Western North Pacific by the Madden-Julian Oscillation in the GEOS-5 AGCM Experiments. Atmos. Sci. Lett., DOI:10.1002/asl2.509

[31] Kang, D., J. Im**, M.-I. Lee, and L. J. Quackenbush, 2014: The MODIS Ice Surface Temperature Product as an Indicator of Sea Ice Minimum over the Arctic Ocean, Remote Sens. Environ., 152, 99-108, DOI:10.1016/j.rse.2014.05.012

[30] Lee, M.-I.**, H.-S. Kang, D. Kim, D. Kim, H. Kim, and D. Kang, 2014: Validation of the Experimental Hindcasts Produced by the GloSea4 Seasonal Prediction System. Asia-Pacific J. Atmos. Sci., 50(3), 307-326, DOI:10.1007/s13143-014-0019-4

[29] Kim, D., M.-I. Lee**, D. Kim, S. D. Schubert, D.E. Waliser, B. Tian, 2014: Representation of tropical subseasonal variability of precipitation in global reanalysis. Clim. Dyn., doi: 10.1007/s00382-013-1890-x

[28] Kim, H.-M, M.-I. Lee, P.J. Webster, D. Kim, and J.-H. Yoo, 2013: A physical Basis for the Probabilistic Prediction of the Accumulated Tropical Cyclone Kinetic Energy in the Western North Pacific. J. Clim., 26, 7981-7991, doi: http://dx.doi.org/10.1175/JCLI-D-12-00679.1

[27] Blackburn, M.**, D. L. Williamson, K. Nakajima, W. Ohfuchi, Y. O. Takahashi, Y.-Y. Hayashi, H. Nakamura, M. Ishiwatari, J. McGregor, H. Borth, V. Wirth, H. Frank, P. Bechtold, N. P. Wedi, H. Tomita, M. Satoh, M. Zhao, I. M. Held, M. J. Suarez, M.-I. Lee, M. Watanabe, M. Kimoto, Y. Liu, Z. Wang, A. Molod, K. Rajendran, A. Kitoh, and R. Stratton, 2013: The Aqua Planet Experiment(APE): Control SST simulation. J. Meteor. Soc. Japan, 91A, 17-56, doi:10.2151/jmsj.2013-A02.

[26] Williamson, D. L.**, M. Blackburn, K. Nakajima, W. Ohfuchi, Y. O. Takahashi, Y.-Y. Hayashi, H. Nakamura, M. Ishiwatari, J. McGregor, H. Borth, V. Wirth, H. Frank, P. Bechtold, N. P. Wedi, H. Tomita, M. Satoh, M. Zhao, I. M. Held, M. J. Suarez, M.-I. Lee, M. Watanabe, M. Kimoto, Y. Liu, Z. Wang, A. Molod, K. Rajendran, A. Kitoh, and R. Stratton, 2013: The Aqua Planet Experiment(APE): Response to changed meridional SST fields. J. Meteor. Soc. Japan, 91A, 57-89 doi:10.2151/jmsj.2013-A03.

[25] Yamada, T. J., M.-I. Lee, M. Kanamitsu, H. Kanamaru, 2012: Diurnal Characteristics of Rainfall over the Contiguous United States and Northern Mexico in the Dynamically Downscaled Reanalysis Dataset (US10). J. Hydrometeor, 13, 1142–1148. doi: http://dx.doi.org/10.1175/JHM-D-11-0121.1.

[24] Jiang, X., D.E. Waliser, D. Kim, M. Zhao, K.R. Sperber, W. F. Stern, S.D. Schubert, G.J. Zhang, W. Wang, M. Khairoutdinov, R. B. Neale, and M.-I. Lee, 2012: Simulation of the intraseasonal variability over the Eastern Pacific ITCZ in climate models. Clim. Dyn., 39, 3, 617-636. DOI 10.1007/s00382-011-1098-x.

[23] Lee, M. -I.**, S. D. Schubert. and D. Kim, 2011: Representaton of Tropical Storms in the Northwestern Pacific by the Modern-Era Retrospective Analysis for Research and Applications. Asia-Paific J. Atmos. Sci., 47, 245-253, DOI:10.1007/s13143-011-0013-z

[22] Frierson, D. M. W., D. Kim, I.-S. Kang, M.-I. Lee, J. Lin, 2011: Structure of AGCM-Simulated Convectively Coupled Kelvin Waves and Sensitivity to Convective Parameterization. J. Atmos. Sci., 68, 26–45. doi: http://dx.doi.org/10.1175/2010JAS3356.1.

[21] Matsui, T., D. Mocko, M.-I. Lee, W.-K. Tao, M. J. Suarez, and R. A. Pielke Sr., 2010: Ten-year climatology of summertime diurnal rainfall rate over the conterminous U.S. Geophys. Res. Lett., 37, L13807, doi:10.1029/2010GL044139.

[20] Lee, M.-I.**, I. Choi, W.-K. Tao, S. D. Schubert, I.-S. Kang, 2010: Mechanisms of diurnal precipitation over the US Great Plains: A cloud resolving model perspective. Clim. Dyn., 34, 419-437, doi 10.1007/s00382-009-0531-x.

[19] Kim, D., K. Sperber, W. Stern, D. Waliser, I.-S. Kang, E. Maloney, W. Wang, K. Weickmann, J. Benedict, M. Khairoutdinov, M.-I. Lee, R. Neale, M. Suarez, K. Thayer-Calder, and G. Zhang, 2009: Application of MJO Simulation Diagnostics to Climate Models, J. Climate, 22,  6413-6436.

[18] Bell, T. L., J.-M. Yoo, and M.-I. Lee, 2009: Note on the weekly cycle of storm heights over the SE U.S., Journal of Geophysical Research, 114, D15201, doi:10.1029/2009JD012041.

[17] Gutzler, D., L. N. Long, J. Schemm, M. Bosilovich, J. Chern, J. C. Collier, M. Kanamitsu, P. Kelly, D. Lawrence, M.-I. Lee, R. Lobato S., B. Mapes, K. Mo, A. Nunes, E. Ritchie, J. Roads, S. B. Roy, S. Schubert, H. Wei and G. Zhang, 2009: Simulations of the 2004 North American Monsoon circulation: NAMAP 2. J. Climate, 226716-6740.

[16] Lee, M.-I.**, M. J. Suarez, I-S. Kang, I. M. Held, and D. Kim, 2008: A moist benchmark calculations for atmospheric general circulation models. J. Climate, 21, 4934-4954.

[15] Lee, M.-I.**, S. D. Schubert, M. J. Suarez, J.-K. E. Schemm, H.-L. Pan, J. Han, and S.-H. Yoo, 2008: Role of convection triggers in the simulation of the diurnal cycle of precipitation over the United States Great Plans in a general circulation model. J. Geophys. Res.,113, D02111, doi:10.1029/2007JD008984.

[14] Lin, J.-L., M.-I. Lee, D. Kim, I.-S. Kang, and D. M. W. Frierson, 2008: The impacts of convective parameterization and moisture triggering on AGCM-simulated convectively coupled equatorial waves. J. Climate, 21, 883-909.

[13] Bell, T. L., D. Rosenfeld, K.-M. Kim, J.-M. Yoo, M.-I. Lee, and M. Hahnenberger, 2008: Midweek increase in U.S. summer rain suggests air pollution invigorates rainstorms. J. Geophys. Res., 113, D02209, doi:10.1029/2007JD008623.

[12] Jiang, X., D. E. Waliser, M. C. Wheeler, C. Jones, M.-I. Lee, and S. D. Schubert, 2008: Assessing the Skill of an All-season Statistical Forecast Model for the Madden-Julian Oscillation. Mon. Weather Rev., 136, 1940-1956.

[11] Lin, J.-L., B. E. Mapes, K. M. Weickmann, G. N. Kiladis, S. D., Schubert, M. J. Suarez, J. T. Bacmeister, and M.-I. Lee, 2008: North American monsoon and convectively coupled equatorial waves simulated by IPCC AR4 coupled GCMs. J. Climate, 21, 2919-2937.

[10] Lin, J.-L., K. M. Weickmann, G. N. Kiladis, B. E. Mapes, S. D., Schubert, M. J. Suarez, J. T. Bacmeister, and M.-I. Lee, 2008: Subseasonal variability associated with Asian summer monsoon simulated by 14 IPCC AR4 coupled GCMs. J. Climate, 21, 4541-4567. 

[9] Lee, M.-I.**, S.D. Schubert, M. J. Suarez, I. M. Held, A. Kumar, T. L. Bell, J.-K. E. Schemm, N.-C. Lau, J.-J. Ploshay, H.-K. Kim, J. J. Ploshay, S.-H. Yoo, 2007: Sensitivity to horizontal resolution in the AGCM simulations of warm season diurnal cycle of precipitation over the United States and northern Mexico. J. Clim., 20, 1862–1881.

[8] Lee, M.-I.**, S.D. Schubert, M. J. Suarez, I. M. Held, N.-C. Lau, J. J. Ploshay, A. Kumar, H.-K. Kim, and J.-K. E. Schemm, 2007: An analysis of the warm season diurnal cycle over the continental United States and northern Mexico in general circulation models. J. Hydromet., 8, 344-366.

[7] Lee, M.-I.**, S.D. Schubert, M. J. Suarez, T. L. Bell, and K.-M. Kim, 2007: Diurnal cycle of precipitation in the NASA Seasonal to Interannual Prediction Project atmospheric general circulation model. J. Geophys. Res., 112, D16111, doi:10.1029/2006JD008346.

[6] Lau, W. K. M., K.-M. Kim, and M.-I. Lee, 2007: Characteristics of diurnal and seasonal cycles in global monsoon systems. J. Meteorol. Soc. Japan, 85A, 403-416.

[5] Lin, J.-L., D. Kim, M.-I. Lee, and I.-S. Kang, 2007: Effects of cloud-radiative heating on atmospheric general circulation model (AGCM) simulations of convectively coupled equatorial waves, J. Geophys. Res., 112, D24107, doi:10.1029/2006JD008291.

[4] Higgins, W., D. Ahijevych, J. Amador, A. Barros, E. H. Berbery, E. Caetano, P. Ciesielski, R. Cifelli, M. Cortez-Vazquez, A. Douglas, M. Douglas, G. Emmanuel, C. Fairall, D. Gochis, D. Gutzler, R. Johnson, C. King, T. Lang, M.-I. Lee, D. Lettenmaier, R. Lobato, V. Magaña, J. Meitin, K. Mo, S. Nesbitt, E. Pytlak, P. Rogers, S. Rutledge, J. Schemm, S. Schubert, F. Torres, A. White, C. Williams, A. Wood, R. Zamora, C. Zhang, 2006: The NAME 2004 Field Campaign and Modeling Strategy. Bull. Amer. Meteorol. Soc., 87, 79–94.

[3] Waliser, D. E., K. Jin, I.-S. Kang, W. F. Stern, S. D. Schubert, K.-M. Lau, M.-I. Lee, V. Krishnamurthy, A. Kitoh, G. A. Meehl, V. Y. Galin, V. Satyan, S. K. Mandke, G. Wu, Y. Liu, and C.-K. Park, 2003: AGCM Simulations of Intraseasonal Variability Associated with the Asian Summer Monsoon, Clim. Dyn., 21, 423-446.

[2] Lee, M.-I.**, I.-S. Kang, and B. E. Mapes, 2003: Impacts of cumulus convection parameterization on the aqua-planet AGCM simulations of tropical intraseasonal oscillation, J. Meteorol. Soc. Japan, 81, No.5, 963-992.

[1] Lee, M.-I**, I.-S. Kang, J.-K. Kim, and B. E. Mapes, 2001: Influences of cloud-radiation interaction on simulating tropical intraseasonal oscillation with an atmospheric general circulation model. J. Geophys. Res., 106, D13, 14,219-14,233.

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