All Publications

Below is the combined list of references from refs_sat.bib and refs_external.bib. It is intended for our group's internal use.

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Filtered by keyword:deep convection

Group references

In the Pipeline

Articles

2013 

1. Johnston, M. S., S. Eliasson, P. Eriksson R. M. Forbes, K. Wyser, and M. Zelinka (2013), Diagnosing the average spatio-temporal impact of convective systems – Part 1: A methodology for evaluating climate models, Atmos. Chem. Phys., 12043–12058, doi:10.5194/acp-13-12043-2013.
   
   • Download: johnston13_diagnosing.pdf
   • Bibtex key: johnston13:_diagnosing_acp
   • Keywords: uth (72), deep convection (18), ec earth (2)

Books and Book Contributions

Theses

Technical Reports and Proposals

Articles in Conference Proceedings and Newsletters

Internal Reports

External references

1. Bister, M. and M. Kulmala (2011), Anthropogenic aerosols may have increased upper tropospheric humidity in the 20th century, Atmos. Chem. Phys., 11, 4577–4586, doi:10.5194/acp-11-4577-2011.
   
   • Download: bister11_anthropogenic_acp.pdf
   • Bibtex key: bister11:_anthropogenic_acp
   • Keywords: uth (72), aerosols (32), deep convection (18)
2. Chae, J. H. and S. C. Sherwood (2010), Insights into Cloud-Top Height and Dynamics from the Seasonal Cycle of Cloud-Top Heights Observed by MISR in the West Pacific Region, J. Atmos. Sci., 67(1), 248–261, doi:10.1175/2009JAS3099.1.
   
   • Download: chae09_insights_jas.pdf
   • Bibtex key: chae09:_insights_jas
   • Keywords: satellite observations (1), stability (1), convective clouds (1), pacific ocean (1), deep convection (18)
3. Folkins, I. (2013), The melting level stability anomaly in the tropics, Atmos. Chem. Phys., 13, 1167–1176, doi:10.5194/acp-13-1167-2013.
   
   • Download: folkins13_melting_acp.pdf
   • Bibtex key: folkins13:_melting_acp
   • Keywords: deep convection (18), radiosonde (75)
4. Hong, G., G. Heygster, J. Miao, and K. Kunzi (2005), Sensitivity of microwave brightness temperatures to hydrometeors in tropical deep convective cloud system at 89-190 GHz channels measurements, Radio Sci., 40, RS4003, doi:10.1029/2004RS003129.
   
   • Download: hong04_sensitivity_deep_convective_clouds_re.pdf
   • Bibtex key: hong04:_sensitivity_deep_convective_clouds_re
   • Keywords: cirrusstudy (265), observation (145), clouds (499), deep convection (18)
5. Hong, G., G. Heygster, and K. Kunzi (2005), Intercomparison of Deep Convective Cloud Fractions From Passive Infrared and Microwave Radiance Measurements, IEEE Geosci. Remote Sens. Let., 2, 18–24, doi:10.1109/LGRS.2004.838405.
   
   • Download: hong05_deep_convective_clouds_intercomparison_i3egrsl.pdf
   • Bibtex key: hong05:_deep_convective_clouds_intercomparison_i3egrsl
   • Keywords: cirrusstudy (265), observation (145), infrared (162), clouds (499), deep convection (18)
6. Hong, G., G. Heygster, J. Miao, and K. Kunzi (2005), Detection of tropical deep convective clouds from AMSU-B water vapor channels measurements, J. Geophys. Res., 110(D9), D05205, doi:10.1029/2004JD004949.
   
   • Download: hong05_detection_jgr.pdf
   • Bibtex key: hong05:_detection_jgr
   • Keywords: cirrusstudy (265), observation (145), clouds (499), water vapor (409), deep convection (18), amsu (80)
7. Hong, G., G. Heygster, and K. Kunzi (2006), Effect of Cirrus Clouds on the Diurnal Cycle of Tropical Deep Convective Clouds, J. Geophys. Res., 111, D06209, doi:10.1029/2005JD006208.
   
   • Download: hong06_effect_jgr.pdf
   • Bibtex key: hong06:_effect_jgr
   • Keywords: cirrus (188), clouds (499), deep convection (18)
8. Horváth, Á. and B. J. Soden (2007), Lagrangian Diagnostics of Tropical Deep Convection and Its Effect upon Upper-Tropospheric Humidity, J. Climate, 21, 1013–1028, doi:10.1175/2007JCLI1786.1.
   
   • Download: horvath07_lagrangian_jc.pdf
   • Bibtex key: horvath07:_lagrangian_jc
   • Keywords: uth (72), cirrus anvil sublimation (1), deep convection (18)
9. Liu, C. and E. J. Zipser (2005), Global distribution of convection penetrating the tropical tropopause, J. Geophys. Res., 110, D23104, doi:10.1029/2005JD006063.
   
   • Download: liu05_global_jgr.pdf
   • Bibtex key: liu05:_global_jgr
   • Keywords: clouds (499), deep convection (18)
10. Liu, C., E. J. Zipser, and S. W. Nesbitt (2007), Global Distribution of Tropical Deep Convection: Different Perspectives from TRMM Infrared and Radar Data, J. Climate, 20(3), 489–503.
    
    • Download: liu07_global_jc.pdf
    • Bibtex key: liu07:_global_jc
    • Keywords: deep convection (18)
11. Liu, C. and E. J. Zipser (2008), Diurnal cycles of precipitation, clouds, and lightning in the tropics from 9 years of TRMM observations, Geophys. Res. Lett., 35(4), 4819, doi:10.1029/2007GL032437.
    
    • Download: liu08_diurnal_grl.pdf
    • Bibtex key: liu08:_diurnal_grl
    • Keywords: deep convection (18), diurnal cycle (19)
12. Mapes, B. E. and R. A. Houze Jr (1993), Cloud clusters and over superclusters the oceanic warm pool, Mon. Weather Rev., 21, 1398–1415, doi:10.1175/1520-0493(1993)121<1398:CCASOT>2.0.CO;2.
    
    • Download: mapes93_cloud_mwr.pdf
    • Bibtex key: mapes93:_cloud_mwr
    • Keywords: deep convection (18), isccp (40)
13. Mohr, K. I. and E. J. Zipser (1996), Defining Mesoscale Convective Systems by Their 85-GHz Ice-Scattering Signatures, Bull. Amer. Met. Soc., 77(6), 1179–1189.
    
    • Weblink: http://journals.ametsoc.org/doi/abs/10.1175/1520-0477(1996)077%3C1179%3ADMCSBT%3E2.0.CO%3B2
    • Download: mohr96_defining_bams.pdf
    • Bibtex key: mohr96:_defining_bams
    • Keywords: ice clouds (95), deep convection (18), ssm/i (12)
14. Schaller, E. L., M. E. Brown, H. G. Roe, and A. H. Bouchez (2006), A large cloud outburst at Titan's south pole, Icarus, 182, 224–229, doi:10.1016/j.icarus.2005.12.021.
    
    • Download: schaller06_large_icarus.pdf
    • Bibtex key: schaller06:_large_icarus
    • Keywords: extraterrestrial (42), titan (9), deep convection (18), gerrit_erca (13)
15. Schaller, E. L., H. G. Roe, T. Schneider, and M. E. Brown (2009), Storms in the tropics of Titan, Nature, 460, 873–875, doi:10.1038/nature08193.
    
    • Download: schaller09_storms_n.pdf
    • Bibtex key: schaller09:_storms_n
    • Keywords: extraterrestrial (42), titan (9), deep convection (18), gerrit_erca (13)
16. Schröder, M., M. König, and J. Schmetz (2008), Deep convection observed by the Spinning Enhanced Visible and Infrared Imager on board Meteosat 8: Spatial distribution and temporal evolution over Africa in summer and winter 2006, J. Geophys. Res., 114, 1–14, doi:10.1029/2008JD010653.
    
    • Download: schroeder09_deep_jgr.pdf
    • Bibtex key: schroeder09:_deep_jgr
    • Keywords: deep convection (18), geostationary (11), diurnal cycle (19), meteosat (10)
17. Zipser, E. J., D. J. Cecil, C. Liu, S. W. Nesbitt, and D. P. Yorty (2006), Where are the most intense thunderstorms on Earth?, Bull. Amer. Met. Soc., 87(8), 1057–1071.
    
    • Download: zipser06_where_bams.pdf
    • Bibtex key: zipser06:_where_bams
    • Keywords: deep convection (18)