Physical Fields of Deep Convective Systems in DYAMOND Summer

Abramian, Sophie et al.

Dataset
Summary
This dataset is an ensemble of 38 subdatasets in august and 18 in september that contains the physical fields of the first 5hours of development of deep convective systems in Dyamond-SAM simulation tracked by the algorithm TOOCAN. The physical fields include the following:
-Long wave net at the top of the atmosphere
-Precipitable water
-Relative humidity at 500 hPa
-Relative humidity at 700 hPa
-Surface temperature
-Ice water path
-Horizontal velocity (longitude component)
-Horizontal velocity (latitude component)
-Landmask
-Vertical Felicity at 500 hPa
-Vertical Felicity at 700 hPa
-Vertical Felicity at 850 hPa
Project
nextGEMS (Next Generation Earth Modelling Systems)
Spatial Coverage
Longitude 0 to 360 Latitude -30 to 30
Temporal Coverage
2016-08-10 to 2016-09-20 (calendrical)
Use constraints
Creative Commons Attribution 4.0 International (https://creativecommons.org/licenses/by/4.0/)
Data Catalog
World Data Center for Climate
Access constraints
registered users
Format
other/diverse
Status
metadata only
Creation Date
Review Date
2026-01-21
Download Permission
No - Metadata only.
Cite as
[ Derived from parent entry - See data hierarchy tab ]
Abramian, Sophie; Muller, Caroline; Risi, Camille; Roca, Rémy; Fiolleau, Thomas (2024). How key features of early development shape deep convective systems. World Data Center for Climate (WDCC) at DKRZ. https://www.wdc-climate.de/ui/entry?acronym=DeepFate

BibTeX RIS

Parent

DeepFate: Unraveling Deep Convective Systems Life Cycle with AI
Details

Parent project(s)

Next Generation Earth Modelling Systems

[Entry acronym: DeepFate_phys] [Entry id: 5281167]