A comparison of TWP-ICE observational data with cloud-resolving model results

Observations made during the TWP-ICE campaign are used to drive and evaluate thirteen cloud-resolving model simulations with periodic lateral boundary conditions. The simulations employ 2D and 3D dynamics, one- and two-moment microphysics, several variations on large-scale forcing, and the use of observationally derived aerosol properties to prognose droplet numbers. When domain means are averaged over a 6-day active monsoon period, all simulations reproduce observed surface precipitation rate but not its structural distribution. Simulated fractional areas covered by convective and stratiform rain are uncorrelated with one another, and are both variably overpredicted by up to a factor of ~2. Stratiform area fractions are strongly anticorrelated with outgoing longwave radiation (OLR) but are negligibly correlated with ice water path (IWP), indicating that ice spatial distribution controls OLR more than mean IWP. Overpredictions of OLR tend to be accompanied by underpredictions of reflected shortwave radiation (RSR). When there are two simulations differing only in microphysics scheme or large-scale forcing, the one with smaller stratiform area tends to exhibit greater OLR and lesser RSR by similar amounts. After ~10 days, simulations reach a suppressed monsoon period with a wide range of mean precipitable water vapor, attributable in part to varying overprediction of cloud-modulated radiative flux divergence compared with observationally derived values. Differences across the simulation ensemble arise from multiple sources, including dynamics, microphysics, and radiation treatments. Close agreement of spatial and temporal averages with observations may not be expected, but the wide spreads of predicted stratiform fraction and anticorrelated OLR indicate a need for more rigorous observation-based evaluation of the underlying micro- and macrophysical properties of convective and stratiform structures.

To Access Resource:

Questions? Email Resource Support Contact:

  • opensky@ucar.edu
    UCAR/NCAR - Library

Resource Type publication
Temporal Range Begin N/A
Temporal Range End N/A
Temporal Resolution N/A
Bounding Box North Lat N/A
Bounding Box South Lat N/A
Bounding Box West Long N/A
Bounding Box East Long N/A
Spatial Representation N/A
Spatial Resolution N/A
Related Links N/A
Additional Information N/A
Resource Format PDF
Standardized Resource Format PDF
Asset Size N/A
Legal Constraints

Copyright 2012 American Geophysical Union.


Access Constraints None
Software Implementation Language N/A

Resource Support Name N/A
Resource Support Email opensky@ucar.edu
Resource Support Organization UCAR/NCAR - Library
Distributor N/A
Metadata Contact Name N/A
Metadata Contact Email opensky@ucar.edu
Metadata Contact Organization UCAR/NCAR - Library

Author Fridlind, A.
Ackerman, A.
Chaboureau, J.-P
Fan, J.
Grabowski, Wojciech
Hill, A.
Jones, T.
Khaiyer, M.
Liu, G.
Minnis, P.
Morrison, Hugh
Nguyen, L.
Park, S.
Petch, J.
Pinty, J.-P.
Schumacher, C.
Shipway, B.
Varble, A.
Wu, X.
Xie, S.
Zhang, M.
Publisher UCAR/NCAR - Library
Publication Date 2012-03-13T00:00:00
Digital Object Identifier (DOI) Not Assigned
Alternate Identifier N/A
Resource Version N/A
Topic Category geoscientificInformation
Progress N/A
Metadata Date 2023-08-18T18:46:38.746478
Metadata Record Identifier edu.ucar.opensky::articles:11896
Metadata Language eng; USA
Suggested Citation Fridlind, A., Ackerman, A., Chaboureau, J.-P, Fan, J., Grabowski, Wojciech, Hill, A., Jones, T., Khaiyer, M., Liu, G., Minnis, P., Morrison, Hugh, Nguyen, L., Park, S., Petch, J., Pinty, J.-P., Schumacher, C., Shipway, B., Varble, A., Wu, X., Xie, S., Zhang, M.. (2012). A comparison of TWP-ICE observational data with cloud-resolving model results. UCAR/NCAR - Library. http://n2t.net/ark:/85065/d7pr7wp9. Accessed 15 January 2025.

Harvest Source