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Earth Observing Laboratory
Field Data Archive

CSET: Cloud System Evolution in the Trades

Summary

The Cloud Systems Evolution in the Trades (CSET) study aims to describe and explain the evolution of the boundary layer aerosol, cloud, and thermodynamic structures along trajectories within the north-Pacific trade-winds using the NSF Gulfstream V (HIAPER). This effort Includes characterization of the cloud, precipitation and aerosol fields in the stratocumulus and the fair-weather cumulus regimes within the subtropical easterlies over the northern Pacific. These characterizations along trajectories will be designed to aid in our understanding and simulation of the transition between the two convective regimes—a critical factor in the climate system. LES models have become a robust tool for Lagrangian simulations of subtropical cloudiness transitions, but there are few good datasets for comprehensively testing these simulations. In particular, we lack adequate observations of the coupled evolution of aerosol, cloud droplet number concentration and precipitation during such transitions. Thus, the observing strategy will be to sample aerosol, cloud, and boundary layer properties upwind from the transition zone over the North Pacific and to resample these areas one or two days later. This Lagrangian approach is designed to minimize uncertainties in the large-scale forcing due to horizontal advection in the lower troposphere and thus facilitate model simulations and isolate critical physical processes. Two key elements of the observing system will be a newly developed HIAPER Cloud Radar (HCR) and the HIAPER Spectral Resolution Lidar (HSRL). The HCR will be used to provide cloud and precipitation characteristics. The HSRL points will provide cloud boundaries and aerosol characteristics when viewing non-cloudy volumes.

A full suite of probes on the aircraft will be used for in situ measurements of aerosol, cloud, precipitation, and turbulence properties. Two modes of operations will be made on flights between the west coast of California and Hawaii. One will include remote sensing of the clouds and boundary layer from higher flight levels as the aircraft approaches and leaves the StCu to Cu transition zone. The other will involve detailed profiling in the sub-cloud and cloud layer in two or three selected areas before and after the transition zone. On the recon legs dropsondes will be used to obtain the thermodynamic and wind structure in and above the boundary layer. Several flight sequences are planned for the June-July 2014 timeframe. Historical analyses will be used to develop the sampling strategies needed to ensure optimum chances of sampling uniform air masses along trajectories within the sampling volume available. Models of different complexity will be used to assist in the development of observing strategies and detailed flight plans.

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Datasets from this project

Additional information

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Temporal coverage

Begin Date 2015-06-01 00:00:00
End Date 2015-08-15 23:59:59

Spatial coverage


Map data from IBCSO, IBCAO, and Global Topography.

Maximum (North) Latitude: 50.00, Minimum (South) Latitude: 15.00
Minimum (West) Longitude: -160.00, Maximum (East) Longitude: -120.00

NSF

This material is based upon work supported by the NSF National Center for Atmospheric Research, a major facility sponsored by the U.S. National Science Foundation and managed by the University Corporation for Atmospheric Research. Any opinions, findings and conclusions or recommendations expressed in this material do not necessarily reflect the views of the U.S. National Science Foundation.