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Earth Observing Laboratory
Field Data Archive

OTREC_2018: OTREC Dry Run

Summary

The vertical structure and spatial distribution of deep atmospheric convection is of critical impor- tance to tropical weather and climate. The eastern Pacific ocean and the southwest Caribbean are very poorly understood compared to other tropical regions and exhibit a great deal of diversity in convective behavior. An observational program is therefore proposed to determine the characteris- tics of deep convection in this region.   The tools for this project would be dropsondes deployed in a grid to evaluate mesoscale ther- modynamic and vorticity budgets and the Hiaper Cloud Radar to determine the characteristics of cloud populations. Both of these tools would be deployed on the NSF/NCAR Gulfstream V aircraft. Basing in Costa Rica would provide easy access to both regions.   Similar observations have been made in Atlantic and western Pacific weather disturbances. The east Pacific differs from these regions in that a strong cross-equatorial gradient in sea surface temperature exists, with cool ocean temperatures on and south of the equator and the warmest waters adjacent to the Mexican and Central American coasts. The resulting atmospheric flow from cold to warm ocean introduces additional convective forcing processes and a large range of sea surface temperatures that do not exist in the previously studied regions. In contrast, the southwest Caribbean exhibits uniform ocean temperatures, but differs from the Atlantic and Western Pacific by virtue of its very dry free troposphere. The two regions together thus provide a broad range of atmospheric conditions that have not been previously studied using modern observational tools. An additional reason for studying this region is the existence of frequent tropical easterly waves. These waves have been shown to intensify in the east Pacific for reasons at least partly due to their interaction with deep convection. The mechanisms of this interaction are likely to act in a wide range of tropical disturbances and their clarification thus has broad importance. Easterly waves are also a nursery for the formation of many tropical cyclones worldwide.

Data access

Datasets from this project

Additional information

Field catalog
Related links

Temporal coverage

Begin Date 2018-07-09 00:00:00
End Date 2018-09-30 23:59:59

Spatial coverage


Map data from IBCSO, IBCAO, and Global Topography.

Maximum (North) Latitude: 25.00, Minimum (South) Latitude: -5.00
Minimum (West) Longitude: -120.00, Maximum (East) Longitude: -40.00

Related projects

Parent project OTREC: Organization of Tropical East Pacific Convection
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.