Balloon soundings of the Stuttgart-Schnarrenberg autosonde system for the Swabian MOSES 2021 campaign

DOI for Scientific and Technical Data

10.5676/dwd/Swabian_MOSES_v2021

Title

Balloon soundings of the Stuttgart-Schnarrenberg autosonde system for the Swabian MOSES 2021 campaign

Subtitle

Citation

R. W. Reitter, "Balloon soundings of the Stuttgart-Schnarrenberg autosonde system for the Swabian MOSES 2021 campaign version 2021." Deutscher Wetterdienst, 2022, doi:10.5676/dwd/Swabian_MOSES_v2021.

Creators

R. W. Reitter (Deutscher Wetterdienst)

Acknowledgement

Publication Date

2022

Version

2021

Publisher

Deutscher Wetterdienst

Summary

Swabian MOSES is a hydro-meteorological measurement campaign, which will be carried out between May and September 2021 in the Neckar valley and on the Swabian Alb in southwest Germany. It focuses on two hydro-meteorological extremes that are of great relevance not only for the study area: Local-scale convective cells (thunderstorms) associated with heavy rain and hail, and large-scale heat waves and associated droughts.
MOSES(Modular Observation Solutions for Earth Systems) is a novel observation system of the Helmholtz Association, developed by the Helmholtz Centres in the research field "Earth and Environment" and established as a cross-thematic activity in the program Changing Earth - Sustaining our Future 2021-2027.

MOSES consists of highly flexible and mobile observation modules (such as the KITcube) that are specifically designed to study the interactions of short-term events and long-term trends in different parts of the Earth system. In addition to hydro-meteorological extremes, other highly dynamic events such as ocean currents and permafrost thawing are the focus of the event-oriented observation and research initiative in other campaigns.

Spatial Coverage

Germany/Swabian

Temporal Coverage

from: 2021-06-01 until: 2021-07-25

Resource Type

dataset

Resource Format

BUFR

Resource Size

1.1 GB

Resource Access

Download Format Info
IUKD27_DWSU_ATSO.zip BUFR_100 Stuttgart (10739-DWSU) 3 09 057 High-resolution measurement data of air temperature, air pressure, dew point, wind direction and wind speed, Geopotential height, Latitude, Longitude displacement in two-second steps from the start of the radiosonde to the main pressure area of 100hPa.
IUSD27_DWSU_ATSO.zip BUFR_All Stuttgart (10739-DWSU) 3 09 057 High-resolution measurement data of air temperature, air pressure, drew point, wind direction and wind speed, Geopotential height, Latitude, Longitude displacement in two-second steps from the start of the radiosonde to burst point.
IUXD07_DWSU_ATSO.zip Decend Stuttgart (10739-DWSU) 3 09 056 High-resolution measurement data of air temperature, air pressure, dew point, wind direction and wind speed, Geopotential height, Latitude, Longitude displacement in two-second steps of the radiosonde the burst point to the last received signal from the radiosonde.
UXDL47_10739_ATSO.zip SoundingQuality - .asc file, clear text, articulated Information of Radiosonde, Ground equipment, Ground check, Sounding events, Surface level observations, Special group input, Sounding notes, GPS status
report_10739_ATSO.zip Reportfile - .asc file, clear text, articulated Information of Stationsdata and Radiosonde Serinalnumber, Reason for termination, Telemetry noise level, Radiosonde burst height, Significant levels: Temperature/Humidity, Significant levels: Wind speed/Wind direction, Standard pressure levels (PTU), Standard pressure levels (Wind)
databa_10739_ATSO.zip Complete database file with all files of a radiosonde date as .mwx file. Vaisala Software MW41 is required for reading and editing.

Supplemental Information

Publications

Contact

TI 22- Messtechnik
Deutscher Wetterdienst
Frankfurter Straße 135
63067 Offenbach
Germany

e-mail: radiosonde@dwd.de
Tel:
Fax:

General Usage Notes