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Filtered by keyword:ciraclim

1. Bony, S., B. Stevens, D. Coppin, T. Becker, K. A. Reed, A. Voigt, and B. Medeiros (2016), Thermodynamic control of anvil cloud amount, Proc. Nat. Aca. Sci., doi:10.1073/pnas.1601472113.
   
   • Download: bony16_thermodynamic_pnas.pdf
   • Bibtex key: bony16:_thermodynamic_pnas
   • Keywords: clouds (492), feedbacks (40), climate sensivity (7), ciraclim (13)
2. Feldl, N. and S. Bordoni (2016), Characterizing the Hadley Circulation Response through Regional Climate Feedbacks, J. Climate, 29(2), 613-622, doi:10.1175/JCLI-D-15-0424.1.
   
   • Download: feldl16_characterizing_jc.pdf
   • Bibtex key: feldl16:_characterizing_jc
   • Keywords: hadley circulation (4), itcz (5), feedbacks (40), ciraclim (13)
3. Harrop, B. E. and D. L. Hartmann (2016), The Role of Cloud Radiative Heating in Determining the Location of the ITCZ in Aquaplanet Simulations, J. Climate, 29(8), 2741-2763, doi:10.1175/JCLI-D-15-0521.1.
   
   • Download: harrop16_role_jc.pdf
   • Bibtex key: harrop16:_role_jc
   • Keywords: itcz (5), cloud radiative forcing (4), ciraclim (13)
4. Hou, A. Y., R. K. Kakar, S. Neeck, A. A. Azarbarzin, C. D. Kummerow, M. Kojima, R. Oki, K. Nakamura, and T. Iguchi (2014), The Global Precipitation Measurement Mission, Bull. Amer. Met. Soc., 95(5), 701-722, doi:10.1175/BAMS-D-13-00164.1.
   
   • Download: hou14_global_bams.pdf
   • Bibtex key: hou14:_global_bams
   • Keywords: precipitation (84), satellite missions (11), ciraclim (13)
5. Kato, S., F. G. Rose, S. Sun-Mack, W. F. Miller, Y. Chen, D. A. Rutan, G. L. Stephens, N. G. Loeb, P. Minnis, B. A. Wielicki, D. M. Winkler, T. P. Charlock, P. W. Stackhouse Jr., K.-M. Xu, and W. D. Collins (2011), Improvements of top-of-atmosphere and surface irradiance computations with CALIPSO-, CloudSat-, and MODIS- derived cloud and aerosol properties, J. Geophys. Res., 116(D19), D19209, doi:10.1029/2011JD016050.
   
   • Download: kato11_improvements_jgr.pdf
   • Bibtex key: kato11:_improvements_jgr
   • Keywords: calipso (26), cloudsat (56), modis (42), radiative transfer (176), ciraclim (13)
6. Liou, K.-N. and Q. Zheng (1984), A Numerical Experiment on the Interactions of Radiation, Clouds and Dynamic Processes in a General Circulation Model, J. Atmos. Sci., 41(9), 1513–1536, doi:10.1175/1520-0469(1984)041<1513:ANEOTI>2.0.CO;2.
   
   • Download: liou84_numerical_jas.pdf
   • Bibtex key: liou84:_numerical_jas
   • Keywords: radiation (146), clouds (492), ciraclim (13)
7. Liu, C., P. Minnis, N. Loeb, S. Kato, A. Heymsfield, and C. Schmitt (2014), A two-habit model for the microphysical and optical properties of ice clouds, Atmos. Chem. Phys., 14(24), 13719–13737, doi:10.5194/acp-14-13719-2014.
   
   • Download: liu14_two_acp.pdf
   • Bibtex key: liu14:_two_acp
   • Keywords: ice clouds (92), ciraclim (13)
8. Norris, J. R., R. J. Allen, A. T. Evan, M. D. Zelinka, C. W. O'Dell, and S. A. Klein (2016), Evidence for climate change in the satellite cloud record, Nature, doi:10.1038/nature18273.
   
   • Download: norris16_evidence_n.pdf
   • Bibtex key: norris16:_evidence_n
   • Keywords: climate change (26), satellite (5), ciraclim (13)
9. Peters, O. and J. D. Neelin (2006), Critical phenomena in atmospheric precipitation, Nature Phys., 2(6), 393–396, doi:10.1038/nphys314.
   
   • Download: peters06_critical_np.pdf
   • Bibtex key: peters06_critical_np
   • Keywords: precipitation (84), ciraclim (13)
10. Peters, O., J. D. Neelin, and S. W. Nesbitt (2009), Mesoscale Convective Systems and Critical Clusters, J. Atmos. Sci., 66(9), 2913-2924, doi:10.1175/2008JAS2761.1.
    
    • Download: peters09_mesoscale_jas.pdf
    • Bibtex key: peters09:_mesoscale_jas
    • Keywords: water vapor (390), ciraclim (13)
11. Voigt, A. and T. A. Shaw (2015), Circulation response to warming shaped by radiative changes of clouds and water vapour, Nature Geosci., 8(2), 102–106, doi:10.1038/ngeo2345.
    
    • Download: voigt15_circulation_ng.pdf
    • Bibtex key: voigt15:_circulation_ng
    • Keywords: clouds (492), water vapour (5), radiation (146), ciraclim (13)
12. Zelinka, M. D. and D. L. Hartmann (2010), Why is longwave cloud feedback positive?, J. Geophys. Res.: Atm., 115(D16), D16117, doi:10.1029/2010JD013817,.
    
    • Download: zelinka10_why_jgr.pdf
    • Bibtex key: zelinka10:_why_jgr
    • Keywords: clouds (492), feedbacks (40), models (75), ciraclim (13)
13. Zelinka, M. D. and D. L. Hartmann (2011), The observed sensitivity of high clouds to mean surface temperature anomalies in the tropics, J. Geophys. Res., 116(D23), D23103, doi:10.1029/2011JD016459,.
    
    • Download: zelinka11_observed_jgr.pdf
    • Bibtex key: zelinka11:_observed_jgr
    • Keywords: clouds (492), radiation (146), feedbacks (40), ciraclim (13)