Assessment of marine boundary layer cloud simulations in the CAM with CLUBB and updated microphysics scheme based on ARM observations from the Azores

To assess marine boundary layer (MBL) cloud simulations in three versions of the Community Atmosphere Model (CAM), three sets of short‐term global hindcasts are performed and compared to Atmospheric Radiation Measurement Program (ARM) observations on Graciosa Island in the Azores from June 2009 to D...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2016-07, Vol.121 (14), p.8472-8492
Main Authors: Zheng, X., Klein, S. A., Ma, H.‐Y., Bogenschutz, P., Gettelman, A., Larson, V. E.
Format: Article
Language:English
Subjects:
ARM observations
Atmospheres
Atmospheric models
Atmospheric radiation
Atmospheric radiation measurements
Azores
Boundary layer
Boundary layers
Cloud cover
Cloud Layers Unified by Binormals
Clouds
Computer simulation
Distribution functions
Downward long wave radiation
ENVIRONMENTAL SCIENCES
Evaporation
Geophysics
Height
marine boundary layer clouds
Meteorology
Microphysics
Precipitation
Probability distribution
Probability distribution functions
Probability theory
Radiation measurement
Simulation
the Community Atmosphere Model
Water
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Summary:To assess marine boundary layer (MBL) cloud simulations in three versions of the Community Atmosphere Model (CAM), three sets of short‐term global hindcasts are performed and compared to Atmospheric Radiation Measurement Program (ARM) observations on Graciosa Island in the Azores from June 2009 to December 2010. The three versions consist of CAM5.3 with default schemes (CAM5.3), CAM5.3 with Cloud Layers Unified By Binormals (CLUBB‐MG1), and CAM5.3 with CLUBB and updated microphysics scheme (CLUBB‐MG2). Our results show that relative to CAM5.3 default schemes, simulations with CLUBB better represent MBL cloud base height, the height of the major cloud layer, and the daily cloud cover variability. CLUBB also better simulates the relationship of cloud fraction to cloud liquid water path (LWP) most likely due to CLUBB's consistent treatment of these variables through a probability distribution function (PDF) approach. Subcloud evaporation of precipitation is substantially enhanced in simulations with CLUBB‐MG2 and is more realistic based on the limited observational estimate. Despite these improvements, all model versions underestimate MBL cloud cover. CLUBB‐MG2 reduces biases in in‐cloud LWP (clouds are not too bright) but there are still too few of MBL clouds due to an underestimate in the frequency of overcast scenes. Thus, combining CLUBB with MG2 scheme better simulates MBL cloud processes, but because biases remain in MBL cloud cover CLUBB‐MG2 does not improve the simulation of the surface shortwave cloud radiative effect (CRESW). Key Points Three versions of CAM short‐term hindcasts are performed and compared to ARM observations from the Azores CAM5 with CLUBB and MG2 scheme (CLUBB‐MG2) better simulates MBL cloud processes CLUBB‐MG2 does not improve the surface SW CRE mainly due to its MBL cloud cover biases
ISSN:2169-897X
2169-8996
DOI:10.1002/2016JD025274