A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany

A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany

<p>Monitoring soil moisture is still a challenge: it varies strongly in space and time and at various scales while conventional sensors typically suffer from small spatial support. With a sensor footprint up to several hectares, cosmic-ray neutron sensing (CRNS) is a modern technology to addre...

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Main Authors: B. Fersch, T. Francke, M. Heistermann, M. Schrön, V. Döpper, J. Jakobi, G. Baroni, T. Blume, H. Bogena, C. Budach, T. Gränzig, M. Förster, A. Güntner, H.-J. Hendricks Franssen, M. Kasner, M. Köhli, B. Kleinschmit, H. Kunstmann, A. Patil, D. Rasche, L. Scheiffele, U. Schmidt, S. Szulc-Seyfried, J. Weimar, S. Zacharias, M. Zreda, B. Heber, R. Kiese, V. Mares, H. Mollenhauer, I. Völksch, S. Oswald
Format: Article
Language:English
Published: Copernicus Publications 2020-09-01
Series:Earth System Science Data
Online Access:https://essd.copernicus.org/articles/12/2289/2020/essd-12-2289-2020.pdf
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author B. Fersch
T. Francke
M. Heistermann
M. Schrön
V. Döpper
J. Jakobi
G. Baroni
G. Baroni
T. Blume
H. Bogena
C. Budach
T. Gränzig
M. Förster
A. Güntner
A. Güntner
H.-J. Hendricks Franssen
M. Kasner
M. Köhli
M. Köhli
B. Kleinschmit
H. Kunstmann
H. Kunstmann
A. Patil
D. Rasche
D. Rasche
L. Scheiffele
U. Schmidt
S. Szulc-Seyfried
J. Weimar
S. Zacharias
M. Zreda
B. Heber
R. Kiese
V. Mares
H. Mollenhauer
I. Völksch
S. Oswald
spellingShingle B. Fersch
T. Francke
M. Heistermann
M. Schrön
V. Döpper
J. Jakobi
G. Baroni
G. Baroni
T. Blume
H. Bogena
C. Budach
T. Gränzig
M. Förster
A. Güntner
A. Güntner
H.-J. Hendricks Franssen
M. Kasner
M. Köhli
M. Köhli
B. Kleinschmit
H. Kunstmann
H. Kunstmann
A. Patil
D. Rasche
D. Rasche
L. Scheiffele
U. Schmidt
S. Szulc-Seyfried
J. Weimar
S. Zacharias
M. Zreda
B. Heber
R. Kiese
V. Mares
H. Mollenhauer
I. Völksch
S. Oswald
A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
Earth System Science Data
author_facet B. Fersch
T. Francke
M. Heistermann
M. Schrön
V. Döpper
J. Jakobi
G. Baroni
G. Baroni
T. Blume
H. Bogena
C. Budach
T. Gränzig
M. Förster
A. Güntner
A. Güntner
H.-J. Hendricks Franssen
M. Kasner
M. Köhli
M. Köhli
B. Kleinschmit
H. Kunstmann
H. Kunstmann
A. Patil
D. Rasche
D. Rasche
L. Scheiffele
U. Schmidt
S. Szulc-Seyfried
J. Weimar
S. Zacharias
M. Zreda
B. Heber
R. Kiese
V. Mares
H. Mollenhauer
I. Völksch
S. Oswald
author_sort B. Fersch
title A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
title_short A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
title_full A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
title_fullStr A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
title_full_unstemmed A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in Germany
title_sort dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-alpine headwater catchment in germany
publisher Copernicus Publications
series Earth System Science Data
issn 1866-3508
1866-3516
publishDate 2020-09-01
description <p>Monitoring soil moisture is still a challenge: it varies strongly in space and time and at various scales while conventional sensors typically suffer from small spatial support. With a sensor footprint up to several hectares, cosmic-ray neutron sensing (CRNS) is a modern technology to address that challenge.</p> <p>So far, the CRNS method has typically been applied with single sensors or in sparse national-scale networks. This study presents, for the first time, a dense network of 24 CRNS stations that covered, from May to July 2019, an area of just 1&thinsp;km<span class="inline-formula"><sup>2</sup></span>: the pre-Alpine Rott headwater catchment in Southern Germany, which is characterized by strong soil moisture gradients in a heterogeneous landscape with forests and grasslands. With substantially overlapping sensor footprints, this network was designed to study root-zone soil moisture dynamics at the catchment scale. The observations of the dense CRNS network were complemented by extensive measurements that allow<span id="page2290"/> users to study soil moisture variability at various spatial scales: roving (mobile) CRNS units, remotely sensed thermal images from unmanned areal systems (UASs), permanent and temporary wireless sensor networks, profile probes, and comprehensive manual soil sampling. Since neutron counts are also affected by hydrogen pools other than soil moisture, vegetation biomass was monitored in forest and grassland patches, as well as meteorological variables; discharge and groundwater tables were recorded to support hydrological modeling experiments.</p> <p>As a result, we provide a unique and comprehensive data set to several research communities: to those who investigate the retrieval of soil moisture from cosmic-ray neutron sensing, to those who study the variability of soil moisture at different spatiotemporal scales, and to those who intend to better understand the role of root-zone soil moisture dynamics in the context of catchment and groundwater hydrology, as well as land–atmosphere exchange processes. The data set is available through the EUDAT Collaborative Data Infrastructure and is split into two subsets: <a href="https://doi.org/10.23728/b2share.282675586fb94f44ab2fd09da0856883">https://doi.org/10.23728/b2share.282675586fb94f44ab2fd09da0856883</a> <span class="cit" id="xref_paren.1">(<a href="#bib1.bibx20">Fersch et al.</a>, <a href="#bib1.bibx20">2020</a><a href="#bib1.bibx20">a</a>)</span> and <a href="https://doi.org/10.23728/b2share.bd89f066c26a4507ad654e994153358b">https://doi.org/10.23728/b2share.bd89f066c26a4507ad654e994153358b</a> <span class="cit" id="xref_paren.2">(<a href="#bib1.bibx21">Fersch et al.</a>, <a href="#bib1.bibx21">2020</a><a href="#bib1.bibx21">b</a>)</span>.</p>
url https://essd.copernicus.org/articles/12/2289/2020/essd-12-2289-2020.pdf
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spelling doaj-1bbc538edc804a569837147742f8e6092020-11-25T01:29:00ZengCopernicus PublicationsEarth System Science Data1866-35081866-35162020-09-01122289230910.5194/essd-12-2289-2020A dense network of cosmic-ray neutron sensors for soil moisture observation in a highly instrumented pre-Alpine headwater catchment in GermanyB. Fersch0T. Francke1M. Heistermann2M. Schrön3V. Döpper4J. Jakobi5G. Baroni6G. Baroni7T. Blume8H. Bogena9C. Budach10T. Gränzig11M. Förster12A. Güntner13A. Güntner14H.-J. Hendricks Franssen15M. Kasner16M. Köhli17M. Köhli18B. Kleinschmit19H. Kunstmann20H. Kunstmann21A. Patil22D. Rasche23D. Rasche24L. Scheiffele25U. Schmidt26S. Szulc-Seyfried27J. Weimar28S. Zacharias29M. Zreda30B. Heber31R. Kiese32V. Mares33H. Mollenhauer34I. Völksch35S. Oswald36Karlsruhe Institute of Technology, Campus Alpin (IMK-IFU), Kreuzeckbahnstraße 19, 82467 Garmisch-Partenkirchen, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyDepartment of Monitoring and Exploration Technologies, UFZ – Helmholtz Centre for Environmental Research GmbH, Permoserstr. 15, 04318, Leipzig, GermanyGeoinformation for Environmental Planning Lab, Technical University of Berlin, Straße des 17. Juni 135, 10623 Berlin, GermanyAgrosphere IBG-3, Forschungszentrum Jülich GmbH (FZJ), Leo-Brandt-Straße, 52425 Jülich, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyDepartment of Agricultural and Food Sciences, University of Bologna, Viale Fanin 50, 40127 Bologna, ItalySection 4.4: Hydrology, German Research Centre for Geosciences (GFZ), Telegrafenberg, 14473 Potsdam, GermanyAgrosphere IBG-3, Forschungszentrum Jülich GmbH (FZJ), Leo-Brandt-Straße, 52425 Jülich, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyGeoinformation for Environmental Planning Lab, Technical University of Berlin, Straße des 17. Juni 135, 10623 Berlin, GermanyGeoinformation for Environmental Planning Lab, Technical University of Berlin, Straße des 17. Juni 135, 10623 Berlin, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanySection 4.4: Hydrology, German Research Centre for Geosciences (GFZ), Telegrafenberg, 14473 Potsdam, GermanyAgrosphere IBG-3, Forschungszentrum Jülich GmbH (FZJ), Leo-Brandt-Straße, 52425 Jülich, GermanyDepartment of Monitoring and Exploration Technologies, UFZ – Helmholtz Centre for Environmental Research GmbH, Permoserstr. 15, 04318, Leipzig, GermanyPhysikalisches Institut, Heidelberg University, Im Neuenheimer Feld 226, 69120 Heidelberg, GermanyPhysikalisches Institut, University of Bonn, Nussallee 12, 53115 Bonn, GermanyGeoinformation for Environmental Planning Lab, Technical University of Berlin, Straße des 17. Juni 135, 10623 Berlin, GermanyKarlsruhe Institute of Technology, Campus Alpin (IMK-IFU), Kreuzeckbahnstraße 19, 82467 Garmisch-Partenkirchen, GermanyInstitute of Geography, University of Augsburg, Alter Postweg 118, 86159 Augsburg, GermanyInstitute of Geography, University of Augsburg, Alter Postweg 118, 86159 Augsburg, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanySection 4.4: Hydrology, German Research Centre for Geosciences (GFZ), Telegrafenberg, 14473 Potsdam, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyPhysikalisches Institut, Heidelberg University, Im Neuenheimer Feld 226, 69120 Heidelberg, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, GermanyPhysikalisches Institut, Heidelberg University, Im Neuenheimer Feld 226, 69120 Heidelberg, GermanyDepartment of Monitoring and Exploration Technologies, UFZ – Helmholtz Centre for Environmental Research GmbH, Permoserstr. 15, 04318, Leipzig, GermanyDepartment of Hydrology and Atmospheric Sciences, University of Arizona, 1133 E. James E. Rogers Way, 85721-0011 Tucson, Arizona, USAInstitute of Experimental and Applied Physics, University of Kiel, Leibnizstraße 11, 24118 Kiel, GermanyKarlsruhe Institute of Technology, Campus Alpin (IMK-IFU), Kreuzeckbahnstraße 19, 82467 Garmisch-Partenkirchen, GermanyHelmholtz Zentrum München, Institute of Radiation Medicine, Ingolstädter Landstraße 1, 85764 Neuherberg, GermanyDepartment of Monitoring and Exploration Technologies, UFZ – Helmholtz Centre for Environmental Research GmbH, Permoserstr. 15, 04318, Leipzig, GermanyKarlsruhe Institute of Technology, Campus Alpin (IMK-IFU), Kreuzeckbahnstraße 19, 82467 Garmisch-Partenkirchen, GermanyInstitute of Environmental Science and Geography, University of Potsdam, Karl-Liebknecht-Straße 24–25, 14476 Potsdam, Germany<p>Monitoring soil moisture is still a challenge: it varies strongly in space and time and at various scales while conventional sensors typically suffer from small spatial support. With a sensor footprint up to several hectares, cosmic-ray neutron sensing (CRNS) is a modern technology to address that challenge.</p> <p>So far, the CRNS method has typically been applied with single sensors or in sparse national-scale networks. This study presents, for the first time, a dense network of 24 CRNS stations that covered, from May to July 2019, an area of just 1&thinsp;km<span class="inline-formula"><sup>2</sup></span>: the pre-Alpine Rott headwater catchment in Southern Germany, which is characterized by strong soil moisture gradients in a heterogeneous landscape with forests and grasslands. With substantially overlapping sensor footprints, this network was designed to study root-zone soil moisture dynamics at the catchment scale. The observations of the dense CRNS network were complemented by extensive measurements that allow<span id="page2290"/> users to study soil moisture variability at various spatial scales: roving (mobile) CRNS units, remotely sensed thermal images from unmanned areal systems (UASs), permanent and temporary wireless sensor networks, profile probes, and comprehensive manual soil sampling. Since neutron counts are also affected by hydrogen pools other than soil moisture, vegetation biomass was monitored in forest and grassland patches, as well as meteorological variables; discharge and groundwater tables were recorded to support hydrological modeling experiments.</p> <p>As a result, we provide a unique and comprehensive data set to several research communities: to those who investigate the retrieval of soil moisture from cosmic-ray neutron sensing, to those who study the variability of soil moisture at different spatiotemporal scales, and to those who intend to better understand the role of root-zone soil moisture dynamics in the context of catchment and groundwater hydrology, as well as land–atmosphere exchange processes. The data set is available through the EUDAT Collaborative Data Infrastructure and is split into two subsets: <a href="https://doi.org/10.23728/b2share.282675586fb94f44ab2fd09da0856883">https://doi.org/10.23728/b2share.282675586fb94f44ab2fd09da0856883</a> <span class="cit" id="xref_paren.1">(<a href="#bib1.bibx20">Fersch et al.</a>, <a href="#bib1.bibx20">2020</a><a href="#bib1.bibx20">a</a>)</span> and <a href="https://doi.org/10.23728/b2share.bd89f066c26a4507ad654e994153358b">https://doi.org/10.23728/b2share.bd89f066c26a4507ad654e994153358b</a> <span class="cit" id="xref_paren.2">(<a href="#bib1.bibx21">Fersch et al.</a>, <a href="#bib1.bibx21">2020</a><a href="#bib1.bibx21">b</a>)</span>.</p>https://essd.copernicus.org/articles/12/2289/2020/essd-12-2289-2020.pdf

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