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Trajectory-derived Convective Influence for ACCLIP Airborne In Situ Observations

Summary

Location and time scales of most recent convective influence for the air masses sampled by the NSF/NCAR GV and NASA WB-57 aircraft during the ACCLIP (Asian summer monsoon Chemical and Climate Impact Project) campaign in August 2022. Statistics were derived using a suite of backward trajectories using the TRAJ3D model.

Archive note

Data files are available in either NetCDF or ICARTT format.

Data access

ORDER data for delivery by FTP

Additional information

Identifier	DOI: https://doi.org/10.26023/DP1P-C32K-YJ05
Data Quality	final
Versions	1.0 (2022-10-13): Final data. 0.1 (2022-10-13): Preliminary data. 1.1 (2023-09-15): ICARTT format data files were added. The NetCDF files remain unchanged. (Only the current version of the data is available to order. If you have questions about a prior version, please email us.)
Subscribe	Subscribe to receive email when new or updated data is available.
Related projects	ACCLIP: Asian Summer Monsoon Chemical and CLimate Impact Project
Frequency	1 minute
Language	English
Categories	Aircraft Models/Analyses
Platforms	NASA WB-57 NSF/NCAR GV HIAPER TRAJ3D
Instruments	Computer
GCMD Science Keywords	PRECIPITATING CONVECTIVE CLOUD SYSTEMS TROPICAL OCEANIC CLOUD SYSTEMS Expand keywords
Documentation	ACCLIP_ConvInf_DataDescription_R1.1.pdf [156 KiB]

Temporal coverage

Begin datetime	2022-07-14 00:00:00
End datetime	2022-09-14 23:59:59

Spatial coverage

Map data from IBCSO, IBCAO, and Global Topography.

Maximum (North) Latitude: 62.00, Minimum (South) Latitude: 12.00
Minimum (West) Longitude: 120.00, Maximum (East) Longitude: -90.00

Primary point of contact information

EOL Data Support <datahelp@eol.ucar.edu>

Additional contact information

author: Warren P. Smith <wsmith@ucar.edu>
author: Rei Ueyama <rei.ueyama@nasa.gov>
author: Shawn Honomichl <shawnh@ucar.edu>

Citation

Example citation following ESIP guidelines:

Smith, W., Ueyama, R., Honomichl, S. 2023. Trajectory-derived Convective Influence for ACCLIP Airborne In Situ Observations. Version 1.1. UCAR/NCAR - Earth Observing Laboratory. https://doi.org/10.26023/DP1P-C32K-YJ05. Accessed 22 Sep 2023.

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