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Main Authors: Pfister, Lena, Gohm, Alexander, Kossmann, Meinolf, Wieser, Andreas, Babić, Nevio, Handwerker, Jan, Wildmann, Norman, Vogelmann, Hannes, Baumann-Stanzer, Kathrin, Alexa, Almut, Lapo, Karl, Paunović, Ivan, Leinweber, Ronny, Sedlmeier, Katrin, Lehner, Manuela, Hieden, Alexander, Speidel, Johannes, Federer, Maria, Rotach, Mathias W.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.06500
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author Pfister, Lena
Gohm, Alexander
Kossmann, Meinolf
Wieser, Andreas
Babić, Nevio
Handwerker, Jan
Wildmann, Norman
Vogelmann, Hannes
Baumann-Stanzer, Kathrin
Alexa, Almut
Lapo, Karl
Paunović, Ivan
Leinweber, Ronny
Sedlmeier, Katrin
Lehner, Manuela
Hieden, Alexander
Speidel, Johannes
Federer, Maria
Rotach, Mathias W.
author_facet Pfister, Lena
Gohm, Alexander
Kossmann, Meinolf
Wieser, Andreas
Babić, Nevio
Handwerker, Jan
Wildmann, Norman
Vogelmann, Hannes
Baumann-Stanzer, Kathrin
Alexa, Almut
Lapo, Karl
Paunović, Ivan
Leinweber, Ronny
Sedlmeier, Katrin
Lehner, Manuela
Hieden, Alexander
Speidel, Johannes
Federer, Maria
Rotach, Mathias W.
contents The multi-scale transport and exchange processes in the atmosphere over mountains -- programme and experiment (TEAMx) wants to advance the understanding of transport and exchange processes over mountainous terrain as well as to collect unique multi-scale datasets that can be used, e.g., for process studies, model development and model evaluation. The TEAMx Observational Campaign (TOC) is planned to take place between 2024 and 2025. In summer 2022 a TEAMx pre-campaign (TEAMx-PC22) was conducted in the Inn Valley and one of its tributaries, the Weer Valley, to test the suitability and required logistics of measurement sites, to evaluate their value for the main campaign, and to test new observation techniques in complex terrain. Scientifically, this campaign focused on resolving the mountain boundary layer and valley wind systems on multiple scales. Through the combined effort of six institutions the pre-campaign can be deemed successful. A detailed description of the setup at each sub-target area is given. Due to the spatial distribution of instruments and their spatio-temporal resolution, atmospheric processes and phenomena like valley winds have been investigated at different locations and on different scales. Furthermore, scale interactions were detected and are discussed in detail in two example cases. Additionally, observational gaps were determined which should be closed for the TOC. Data of the pre-campaign are publicly available online and can be used for process studies, demonstrating the utility of new observation methods, model verification, and for data assimilation.
format Preprint
id arxiv_https___arxiv_org_abs_2401_06500
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The TEAMx-PC22 Alpine field campaign -- Objectives, instrumentation, and observed phenomena
Pfister, Lena
Gohm, Alexander
Kossmann, Meinolf
Wieser, Andreas
Babić, Nevio
Handwerker, Jan
Wildmann, Norman
Vogelmann, Hannes
Baumann-Stanzer, Kathrin
Alexa, Almut
Lapo, Karl
Paunović, Ivan
Leinweber, Ronny
Sedlmeier, Katrin
Lehner, Manuela
Hieden, Alexander
Speidel, Johannes
Federer, Maria
Rotach, Mathias W.
Atmospheric and Oceanic Physics
The multi-scale transport and exchange processes in the atmosphere over mountains -- programme and experiment (TEAMx) wants to advance the understanding of transport and exchange processes over mountainous terrain as well as to collect unique multi-scale datasets that can be used, e.g., for process studies, model development and model evaluation. The TEAMx Observational Campaign (TOC) is planned to take place between 2024 and 2025. In summer 2022 a TEAMx pre-campaign (TEAMx-PC22) was conducted in the Inn Valley and one of its tributaries, the Weer Valley, to test the suitability and required logistics of measurement sites, to evaluate their value for the main campaign, and to test new observation techniques in complex terrain. Scientifically, this campaign focused on resolving the mountain boundary layer and valley wind systems on multiple scales. Through the combined effort of six institutions the pre-campaign can be deemed successful. A detailed description of the setup at each sub-target area is given. Due to the spatial distribution of instruments and their spatio-temporal resolution, atmospheric processes and phenomena like valley winds have been investigated at different locations and on different scales. Furthermore, scale interactions were detected and are discussed in detail in two example cases. Additionally, observational gaps were determined which should be closed for the TOC. Data of the pre-campaign are publicly available online and can be used for process studies, demonstrating the utility of new observation methods, model verification, and for data assimilation.
title The TEAMx-PC22 Alpine field campaign -- Objectives, instrumentation, and observed phenomena
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2401.06500