FESSTVaL: The Field Experiment on Submesoscale Spatio-Temporal Variability in Lindenberg

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Cathy Hohenegger - , Max Planck Institute for Meteorology (Author)
  • Felix Ament - , University of Hamburg (Author)
  • Frank Beyrich - , German Weather Service (Author)
  • Ulrich Löhnert - , University of Cologne (Author)
  • Henning Rust - , Free University of Berlin (Author)
  • Jens Bange - , University of Tübingen (Author)
  • Tobias Böck - , University of Cologne (Author)
  • Christopher Böttcher - , Free University of Berlin (Author)
  • Jakob Boventer - , University of Tübingen (Author)
  • Finn Burgemeister - , University of Hamburg (Author)
  • Marco Clemens - , University of Hamburg (Author)
  • Carola Detring - , German Weather Service (Author)
  • Igor Detring - , German Weather Service (Author)
  • Noviana Dewani - , Goethe University Frankfurt a.M. (Author)
  • Ivan Bastak Duran - , Goethe University Frankfurt a.M. (Author)
  • Stephanie Fiedler - , University of Cologne (Author)
  • Martin Göber - , Hans Ertel Centre for Weather Research (Author)
  • Chiel van Heerwaarden - , Wageningen University & Research (WUR) (Author)
  • Bert Heusinkveld - , Wageningen University & Research (WUR) (Author)
  • Bastian Kirsch - , University of Hamburg (Author)
  • Daniel Klocke - , Hans Ertel Centre for Weather Research (Author)
  • Christine Knist - , German Weather Service (Author)
  • Ingo Lange - , University of Hamburg (Author)
  • Felix Lauermann - , German Weather Service (Author)
  • Volker Lehmann - , German Weather Service (Author)
  • Jonas Lehmke - , Free University of Berlin (Author)
  • Ronny Leinweber - , German Weather Service (Author)
  • Kristina Lundgren - , University of Hamburg (Author)
  • Matthieu Masbou - , German Weather Service (Author)
  • Matthias Mauder - , Chair of Meteorology, TUD Dresden University of Technology (Author)
  • Wouter Mol - , Wageningen University & Research (WUR) (Author)
  • Hannes Nevermann - , Hamburg University of Technology (Author)
  • Tatiana Nomokonova - , University of Cologne (Author)
  • Eileen Päschke - , German Weather Service (Author)
  • Andreas Platis - , University of Tübingen (Author)
  • Jens Reichardt - , German Weather Service (Author)
  • Luc Rochette - , LR Tech Inc. (Author)
  • Mirjana Sakradzija - , Hans Ertel Centre for Weather Research (Author)
  • Linda Schlemmer - , German Weather Service (Author)
  • Jürg Schmidli - , Goethe University Frankfurt a.M. (Author)
  • Nima Shokri - , Hamburg University of Technology (Author)
  • Vincent Sobottke - , Free University of Berlin (Author)
  • Johannes Speidel - , Karlsruhe Institute of Technology (Author)
  • Julian Steinheuer - , University of Cologne (Author)
  • David D. Turner - , National Oceanic and Atmospheric Administration (Author)
  • Hannes Vogelmann - , Karlsruhe Institute of Technology, German Aerospace Center (DLR) (Author)
  • Christian Wedemeyer - , University of Cologne (Author)
  • Eduardo Weide-Luiz - , University of Cologne (Author)
  • Sarah Wiesner - , University of Hamburg (Author)
  • Norman Wildmann - (Author)
  • Kevin Wolz - , Karlsruhe Institute of Technology (Author)
  • Tamino Wetz - , German Aerospace Center (DLR) (Author)

Abstract

Numerical weather prediction models operate on grid spacings of a few kilometers, where deep convection begins to become resolvable. Around this scale, the emergence of coherent structures in the planetary boundary layer, often hypothesized to be caused by cold pools, forces the transition from shallow to deep convection. Yet, the kilometer-scale range is typically not resolved by standard surface operational measurement networks. The measurement campaign Field Experiment on Submesoscale Spatio-Temporal Variability in Lindenberg (FESSTVaL) aimed at addressing this gap by observing atmospheric variability at the hectometer-to-kilometer scale, with a particular emphasis on cold pools, wind gusts, and coherent patterns in the planetary boundary layer during summer. A unique feature was the distribution of 150 self-developed and low-cost instruments. More specifically, FESSTVaL included dense networks of 80 autonomous cold pool loggers, 19 weather stations, and 83 soil sensor systems, all installed in a rural region of 15-km radius in eastern Germany, as well as self-developed weather stations handed out to citizens. Boundary layer and upper-air observations were provided by eight Doppler lidars and four microwave radiometers distributed at three supersites; water vapor and temperature were also measured by advanced lidar systems and an infrared spectrometer; and rain was observed by a X-band radar. An uncrewed aircraft, multicopters, and a small radiometer network carried out additional measurements during a 4-week period. In this paper, we present FESSTVaL’s measurement strategy and show first observational results including unprecedented highly resolved spatiotemporal cold-pool structures, both in the horizontal as well as in the vertical dimension, associated with overpassing convective systems.

Details

Original languageEnglish
Pages (from-to)E1875-E1892
JournalBulletin of the American Meteorological Society
Volume104
Issue number10
Publication statusPublished - Oct 2023
Peer-reviewedYes

External IDs

ORCID /0000-0002-8789-163X/work/163766094

Keywords

ASJC Scopus subject areas

Keywords

  • Atmosphere, Cold pools, Field experiments, Model evaluation/ performance, Remote sensing, Surface observations

Library keywords