Trajectory-derived Convective Influence for ACCLIP Airborne In Situ Observations
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.
- ORDER data for delivery by FTP
|Subscribe||Subscribe to receive email when new or updated data is available.|
|GCMD Science Keywords||Expand keywords|
|Begin datetime||2022-07-14 00:00:00|
|End datetime||2022-09-14 23:59:59|
Map data from IBCSO, IBCAO, and Global Topography.
Maximum (North) Latitude:
Minimum (South) Latitude:
Minimum (West) Longitude: 120.00, Maximum (East) Longitude: -90.00
Primary point of contact information
EOL Data Support <email@example.com>
Additional contact information
- author: Warren P. Smith <firstname.lastname@example.org>
- author: Rei Ueyama <email@example.com>
- author: Shawn Honomichl <firstname.lastname@example.org>
CitationExample citation following ESIP guidelines:
Smith, W., Ueyama, R., Honomichl, S. 2022. Trajectory-derived Convective Influence for ACCLIP Airborne In Situ Observations. Version 1.0. UCAR/NCAR - Earth Observing Laboratory. https://doi.org/10.26023/DP1P-C32K-YJ05. Accessed 02 Apr 2023.
Today's date is shown: please replace with the date of your most recent access.
Additional citation styles
The citation text below is from the DataCite Content Resolver service and may take a few seconds to load. The styles and locales are obtained from CrossCite, which also provides a citation formatter. See ReFindit for another alternative. Formatting is not perfect: please verify and edit before use. Today's date is shown: please replace with the date of your most recent access.
Note that your browser may not display the above metadata links, but automatically save them as files in a folder such as "