Search

Your search keyword '"Bogena Heye, Reemt"' showing total 27 results
Start Over Author "Bogena Heye, Reemt" Search Limiters Full Text
27 results on '"Bogena Heye, Reemt"'

10. Evaluation of Three Soil Moisture Profile Sensors Using Laboratory and Field Experiments.

Author

Nieberding, Felix, Huisman, Johan Alexander, Huebner, Christof, Schilling, Bernd, Weuthen, Ansgar, and Bogena, Heye Reemt

Subjects
FIELD research, DIELECTRIC measurements, DETECTORS, DIELECTRIC properties, SOIL profiles
Abstract

Soil moisture profile sensors (SMPSs) have a high potential for climate-smart agriculture due to their easy handling and ability to perform simultaneous measurements at different depths. To date, an accurate and easy-to-use method for the evaluation of long SMPSs is not available. In this study, we developed laboratory and field experiments to evaluate three different SMPSs (SoilVUE10, Drill&Drop, and SMT500) in terms of measurement accuracy, sensor-to-sensor variability, and temperature stability. The laboratory experiment features a temperature-controlled lysimeter to evaluate intra-sensor variability and temperature stability of SMPSs. The field experiment features a water level-controlled sandbox and reference TDR measurements to evaluate the soil water measurement accuracy of the SMPS. In both experiments, a well-characterized fine sand was used as measurement medium to ensure homogeneous dielectric properties in the measurement domain of the sensors. The laboratory experiments with the lysimeter showed that the Drill&Drop sensor has the highest temperature sensitivity with a decrease of 0.014 m3 m−3 per 10 °C, but at the same time showed the lowest intra- and inter-sensor variability. The field experiment with the sandbox showed that all three SMPSs have a similar performance (average RMSE ≈ 0.023 m3 m−3) with higher uncertainties at intermediate soil moisture contents. The presented combination of laboratory and field tests were found to be well suited to evaluate the performance of SMPSs and will be used to test additional SMPSs in the future. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

11. COSMOS-Europe: a European network of cosmic-ray neutron soil moisture sensors

Author

Bogena, Heye Reemt, Schrön, Martin, Jakobi, Jannis, Ney, Patrizia, Zacharias, Steffen, Andreasen, Mie, Baatz, Roland, Boorman, David, Duygu, Mustafa Berk, Eguibar-Galán, Miguel Angel, Fersch, Benjamin, Franke, Till, Geris, Josie, González Sanchis, María, Kerr, Yann, Korf, Tobias, Mengistu, Zalalem, Mialon, Arnaud, Nasta, Paolo, Nitychoruk, Jerzy, Pisinaras, Vassilios, Rasche, Daniel, Rosolem, Rafael, Said, Hami, Schattan, Paul, Zreda, Marek, Achleitner, Stefan, Albentosa-Hernández, Eduardo, Akyürek, Zuhal, Blume, Theresa, del Campo, Antonio, Canone, Davide, Dimitrova-Petrova, Katya, Evans, John G., Ferraris, Stefano, Frances, Félix, Gisolo, Davide, Güntner, Andreas, Herrmann, Frank, Iwema, Joost, Jensen, Karsten H., Kunstmann, Harald, Lidón, Antonio, Looms, Majken Caroline, Oswald, Sascha, Panagopoulos, Andreas, Patil, Amol, Power, Daniel, Rebmann, Corinna, Romano, Nunzio, Scheiffele, Lena, Seneviratne, Sonia, Weltin, Georg, Vereecken, Harry, Bogena, Heye Reemt, Schrön, Martin, Jakobi, Jannis, Ney, Patrizia, Zacharias, Steffen, Andreasen, Mie, Baatz, Roland, Boorman, David, Duygu, Mustafa Berk, Eguibar-Galán, Miguel Angel, Fersch, Benjamin, Franke, Till, Geris, Josie, González Sanchis, María, Kerr, Yann, Korf, Tobias, Mengistu, Zalalem, Mialon, Arnaud, Nasta, Paolo, Nitychoruk, Jerzy, Pisinaras, Vassilios, Rasche, Daniel, Rosolem, Rafael, Said, Hami, Schattan, Paul, Zreda, Marek, Achleitner, Stefan, Albentosa-Hernández, Eduardo, Akyürek, Zuhal, Blume, Theresa, del Campo, Antonio, Canone, Davide, Dimitrova-Petrova, Katya, Evans, John G., Ferraris, Stefano, Frances, Félix, Gisolo, Davide, Güntner, Andreas, Herrmann, Frank, Iwema, Joost, Jensen, Karsten H., Kunstmann, Harald, Lidón, Antonio, Looms, Majken Caroline, Oswald, Sascha, Panagopoulos, Andreas, Patil, Amol, Power, Daniel, Rebmann, Corinna, Romano, Nunzio, Scheiffele, Lena, Seneviratne, Sonia, Weltin, Georg, and Vereecken, Harry

Abstract

Climate change increases the occurrence and severity of droughts due to increasing temperatures, altered circulation patterns, and reduced snow occurrence. While Europe has suffered from drought events in the last decade unlike ever seen since the beginning of weather recordings, harmonized long-term datasets across the continent are needed to monitor change and support predictions. Here we present soil moisture data from 66 cosmic-ray neutron sensors (CRNSs) in Europe (COSMOS-Europe for short) covering recent drought events. The CRNS sites are distributed across Europe and cover all major land use types and climate zones in Europe. The raw neutron count data from the CRNS stations were provided by 24 research institutions and processed using state-of-the-art methods. The harmonized processing included correction of the raw neutron counts and a harmonized methodology for the conversion into soil moisture based on available in situ information. In addition, the uncertainty estimate is provided with the dataset, information that is particularly useful for remote sensing and modeling applications. This paper presents the current spatiotemporal coverage of CRNS stations in Europe and describes the protocols for data processing from raw measurements to consistent soil moisture products. The data of the presented COSMOS-Europe network open up a manifold of potential applications for environmental research, such as remote sensing data validation, trend analysis, or model assimilation. The dataset could be of particular importance for the analysis of extreme climatic events at the continental scale. Due its timely relevance in the scope of climate change in the recent years, we demonstrate this potential application with a brief analysis on the spatiotemporal soil moisture variability. The dataset, entitled “Dataset of COSMOS-Europe: A European network of Cosmic-Ray Neutron Soil Moisture Sensors”, is shared via Forschungszentrum Jülich: https://doi.org/10.34731/x9s3-kr48 (B

Published
2022

12. COSMOS-Europe:a European network of cosmic-ray neutron soil moisture sensors

Author

Bogena, Heye Reemt, Schrön, Martin, Jakobi, Jannis, Ney, Patrizia, Zacharias, Steffen, Andreasen, Mie, Baatz, Roland, Boorman, David, Duygu, Mustafa Berk, Eguibar-galán, Miguel Angel, Fersch, Benjamin, Franke, Till, Geris, Josie, González Sanchis, María, Kerr, Yann, Korf, Tobias, Mengistu, Zalalem, Mialon, Arnaud, Nasta, Paolo, Nitychoruk, Jerzy, Pisinaras, Vassilios, Rasche, Daniel, Rosolem, Rafael, Said, Hami, Schattan, Paul, Zreda, Marek, Achleitner, Stefan, Albentosa-hernández, Eduardo, Akyürek, Zuhal, Blume, Theresa, Del Campo, Antonio, Canone, Davide, Dimitrova-petrova, Katya, Evans, John G., Ferraris, Stefano, Frances, Félix, Gisolo, Davide, Güntner, Andreas, Herrmann, Frank, Iwema, Joost, Jensen, Karsten H., Kunstmann, Harald, Lidón, Antonio, Looms, Majken Caroline, Oswald, Sascha, Panagopoulos, Andreas, Patil, Amol, Power, Daniel, Rebmann, Corinna, Romano, Nunzio, Scheiffele, Lena, Seneviratne, Sonia, Weltin, Georg, Vereecken, Harry, Bogena, Heye Reemt, Schrön, Martin, Jakobi, Jannis, Ney, Patrizia, Zacharias, Steffen, Andreasen, Mie, Baatz, Roland, Boorman, David, Duygu, Mustafa Berk, Eguibar-galán, Miguel Angel, Fersch, Benjamin, Franke, Till, Geris, Josie, González Sanchis, María, Kerr, Yann, Korf, Tobias, Mengistu, Zalalem, Mialon, Arnaud, Nasta, Paolo, Nitychoruk, Jerzy, Pisinaras, Vassilios, Rasche, Daniel, Rosolem, Rafael, Said, Hami, Schattan, Paul, Zreda, Marek, Achleitner, Stefan, Albentosa-hernández, Eduardo, Akyürek, Zuhal, Blume, Theresa, Del Campo, Antonio, Canone, Davide, Dimitrova-petrova, Katya, Evans, John G., Ferraris, Stefano, Frances, Félix, Gisolo, Davide, Güntner, Andreas, Herrmann, Frank, Iwema, Joost, Jensen, Karsten H., Kunstmann, Harald, Lidón, Antonio, Looms, Majken Caroline, Oswald, Sascha, Panagopoulos, Andreas, Patil, Amol, Power, Daniel, Rebmann, Corinna, Romano, Nunzio, Scheiffele, Lena, Seneviratne, Sonia, Weltin, Georg, and Vereecken, Harry

Published
2022

13. COSMOS-Europe: a European network of cosmic-ray neutron soil moisture sensors

Author

Bogena, Heye Reemt, primary, Schrön, Martin, additional, Jakobi, Jannis, additional, Ney, Patrizia, additional, Zacharias, Steffen, additional, Andreasen, Mie, additional, Baatz, Roland, additional, Boorman, David, additional, Duygu, Mustafa Berk, additional, Eguibar-Galán, Miguel Angel, additional, Fersch, Benjamin, additional, Franke, Till, additional, Geris, Josie, additional, González Sanchis, María, additional, Kerr, Yann, additional, Korf, Tobias, additional, Mengistu, Zalalem, additional, Mialon, Arnaud, additional, Nasta, Paolo, additional, Nitychoruk, Jerzy, additional, Pisinaras, Vassilios, additional, Rasche, Daniel, additional, Rosolem, Rafael, additional, Said, Hami, additional, Schattan, Paul, additional, Zreda, Marek, additional, Achleitner, Stefan, additional, Albentosa-Hernández, Eduardo, additional, Akyürek, Zuhal, additional, Blume, Theresa, additional, del Campo, Antonio, additional, Canone, Davide, additional, Dimitrova-Petrova, Katya, additional, Evans, John G., additional, Ferraris, Stefano, additional, Frances, Félix, additional, Gisolo, Davide, additional, Güntner, Andreas, additional, Herrmann, Frank, additional, Iwema, Joost, additional, Jensen, Karsten H., additional, Kunstmann, Harald, additional, Lidón, Antonio, additional, Looms, Majken Caroline, additional, Oswald, Sascha, additional, Panagopoulos, Andreas, additional, Patil, Amol, additional, Power, Daniel, additional, Rebmann, Corinna, additional, Romano, Nunzio, additional, Scheiffele, Lena, additional, Seneviratne, Sonia, additional, Weltin, Georg, additional, and Vereecken, Harry, additional

Published
2022
Full Text
View/download PDF

14. Seasonal crop yield prediction with SEAS5 long-range meteorological forecasts in a land surface modelling approach.

Author

Boas, Theresa, Bogena, Heye Reemt, Dongryeol Ryu, Vereecken, Harry, Western, Andrew, and Franssen, Harrie-Jan Hendricks

Abstract

Long-range weather forecasts provide predictions of atmospheric, ocean and land surface conditions that can potentially be used in land surface and hydrological models to predict the water and energy status of the land surface or in crop growth models to predict yield for water resources or agricultural planning. However, the coarse spatial and temporal resolutions of available forecast products have hindered their widespread use in such modelling applications that usually require high resolution input data. In this study, we applied sub-seasonal (up to 4 months) and seasonal (7 months) weather forecasts from the latest European Centre for Medium-Range Weather Forecasts (ECMWF) seasonal forecasting system (SEAS5) in a land surface modelling approach using the Community Land Model version 5.0 (CLM5). Simulations were conducted for 2017-2020 forced with subseasonal and seasonal weather forecasts over two different domains with contrasting climate and cropping conditions: the German state of North Rhine-Westphalia and the Australian state of Victoria. We found that, after pre-processing of the forecast products (temporal downscaling of precipitation and incoming shortwave radiation), the simulations forced with seasonal and sub-seasonal forecasts were able to generate a model system response very close to reference simulation results forced by reanalysis data. Differences between seasonal and sub-seasonal experiments were insignificant. The forecast experiments were able to satisfactorily capture recorded inter-annual variations of crop yield. In addition, they also reproduced the generally higher inter-annual variability in crop yield across the Australian domain (approximately 50 % inter-annual variability in recorded yields and up to 17 % in simulated yields) compared to the German domain (approximately 15 % inter-annual variability in recorded yields and up to 5 % in simulated yields). The high and low yield seasons (2020 and 2018) among the four simulated years were clearly reproduced in forecast simulation results. Furthermore, sub-seasonal and seasonal simulations reflected the early harvest in the drought year of 2018 in the German domain. However, the simulated inter-annual yield variability was lower in all simulations compared to the official statistics. While general soil moisture trends, such as the European drought in 2018, were captured by the seasonal experiments, we found systematic over- and underestimations in both the forecast and the reference simulations compared to the Soil Moisture Active Passive Level-3 soil moisture product (SMAP L3) and the Soil Moisture Climate Change Initiative Combined dataset from the European Space Agency's (ESA CCI). These observed biases of soil moisture as well as the low inter-annual variability of simulated crop yield indicate the need to improve the representation of these variables in CLM5 to increase the model sensitivity to drought stress and other crop stressors. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

15. The Impact of Partial Deforestation on Solute Fluxes and Stream Water Ionic Composition in a Headwater Catchment.

Author

Płaczkowska, Eliza, Mostowik, Karolina, Bogena, Heye Reemt, and Leuchner, Michael

Subjects
LAND cover, DEFORESTATION, WATERSHEDS, SOIL erosion, ENVIRONMENTAL monitoring, CHEMICAL denudation
Abstract

To ensure the good chemical status of surface water across Europe, it is necessary to increase research on the comprehensive impact of land use and land cover changes, i.e., deforestation, on the natural environment. For this reason, we used data from 9-year environmental monitoring in the Wüstebach experimental catchment of the TERENO (Terrestrial Environmental Observatories) network to determine the impact of partial deforestation on solute fluxes and stream water ionic composition. In 2013, a partial deforestation experiment was conducted in the study area using a cut-to-length logging method. To this end, two headwater catchments were compared: one partially deforested (22% of the catchment area) and one untreated control catchment. The concentrations of ions in stream water, groundwater, and precipitation were analyzed: Ca2+, Mg2+, Na+, K+, Al3+, Fetot, Mn2+, NO3, SO4, and Cl. Most of the ions (Na+, Ca2+, Mg2+, Cl, and SO4) showed decreasing trends in concentrations after deforestation, indicating a dilution effect in stream water due to the reduction of the supply of solutes with precipitation in the open deforested area. The fluxes of these ions decreased by 5–7% in the first year after deforestation, although the stream runoff increased by 5%. In the second year, the decrease in ion fluxes was greater, from 6% to 24%. This finding confirms that only limited soil erosion occurred after the deforestation because the soil was well protected during logging works by covering harvester lanes with branches. Only K+ and NO3 ions showed increasing trends in both concentrations and fluxes in the partially deforested catchment in the first two to three years after deforestation. Spruce die-offs, common in Europe, may decrease the concentration and fluxes of base cations in surface water in a nutrient-limited environment. However, the simultaneous planting of young broad-leaved trees with post-harvesting regrowth could create a nutrient sink that protects the catchment area from nutrient depletion. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

23. Effective Calibration of Low-Cost Soil Water Content Sensors.

Author

Bogena, Heye Reemt, Huisman, Johan Alexander, Schilling, Bernd, Weuthen, Ansgar, and Vereecken, Harry

Subjects
*CALIBRATION, *SOIL moisture, *ECOHYDROLOGY, *SPATIO-temporal variation, *ELECTROMAGNETIC actuators
Abstract

Soil water content is a key variable for understanding and modelling ecohydrological processes. Low-cost electromagnetic sensors are increasingly being used to characterize the spatio-temporal dynamics of soil water content, despite the reduced accuracy of such sensors as compared to reference electromagnetic soil water content sensing methods such as time domain reflectometry. Here, we present an effective calibration method to improve the measurement accuracy of low-cost soil water content sensors taking the recently developed SMT100 sensor (Truebner GmbH, Neustadt, Germany) as an example. We calibrated the sensor output of more than 700 SMT100 sensors to permittivity using a standard procedure based on five reference media with a known apparent dielectric permittivity (1 < Ka < 34.8). Our results showed that a sensor-specific calibration improved the accuracy of the calibration compared to single "universal" calibration. The associated additional effort in calibrating each sensor individually is relaxed by a dedicated calibration setup that enables the calibration of large numbers of sensors in limited time while minimizing errors in the calibration process. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

24. Anthropogenic impact on solute fluxes in a headwater catchment in Western Germany.

Author

PŁACZKOWSKA, Eliza, BOGENA, Heye Reemt, and LEUCHNER, Michael

Subjects
*WATERSHEDS, *TOTAL dissolved solids, *ENVIRONMENTAL monitoring
Abstract

Headwaters are a source of fresh water and material transported to the downstream sections of river channels. In most regions of Europe, the natural environment of headwaters has been significantly transformed by human activities, which is reflected in the quality of surface waters and the rate of solute fluxes. The aim of the study was to determine the anthropogenic impact on solute fluxes in a headwater catchment in Germany. The study area (Wüstebach experimental catchment) is located in the Eifel Mountains and is part of the TERENO (Terrestrial Environmental Observatories) network. The catchment is currently subject to the following anthropogenic pressures: the use of de-icing salts on the motorway running through the catchment and the logging of 22% of the forest area in 2013 by the National Park to promote the regeneration of near-natural beech forest. We used data from almost 13 years (June 2009-April 2022) of environmental monitoring in the Wüstebach catchment to calculate monthly and annual rates of solute fluxes. The concentrations of ions in stream water and precipitation were determined: Ca2+, Mg2+, Na+, K+, Al3+, Fetot, Mn2+, NH4+, NO3−, SO4−, and Cl−. Data from the Wüstebach catchment were compared with data from the control (untreated) catchment. The average annual rate of total dissolved solids in the Wüstebach catchment was 83 t/km2/a. Only the loads of four ions performed a significant difference after deforestation (SO4−, NH4+, Al3+, Fetot). However, total dissolved solids and loads of most of the ions did not show any significant differences after deforestation, which indicates a slight impact of logging on the chemical denudation. This resulted from the limited soil erosion that followed deforestation as the soil was well protected during logging works by covering harvester lanes with branches. However, there is a significant impact of road salting on the solute fluxes in the headwater catchment. Assuming that the control catchment is not affected by using de-icing salts, the road salting inputs in the Wüstebach catchment calculated based on the precipitation share for Na+, Ca2+, Mg2+, K+, and Cl− ions were, on average, 88%, 53%, 18%, 53%, and 90%, respectively, of the original ion loads. The input with road salting was so large that elevated concentrations of Na+ and Cl− were noted throughout the study period with slight seasonal fluctuations. This proves the subsurface build-up of salt due to the long-term application of de-icing salt. Without the input of de-icing salts, the average annual rate of chemical denudation in the catchment would be about 19 t/km2/a. Thus, on average, this ion storage effect in the soil has increased the total dissolved solids rate by 62%. In summary, it can be concluded that long-term intensive road salting in winter has a greater impact on the solute fluxes than the clear-cut of 22% of the catchment area. [ABSTRACT FROM AUTHOR]

Published
2023

25. Effects of Deforestation on Water Flow in the Vadose Zone.

Author

Wiekenkamp, Inge, Huisman, Johan Alexander, Bogena, Heye Reemt, and Vereecken, Harry

Subjects
HYDRAULICS, ZONE of aeration, DEFORESTATION, GROUNDWATER flow, SOIL moisture
Abstract

The effects of land use change on the occurrence and frequency of preferential flow (fast water flow through a small fraction of the pore space) and piston flow (slower water flow through a large fraction of the pore space) are still not fully understood. In this study, we used a five year high resolution soil moisture monitoring dataset in combination with a response time analysis to identify factors that control preferential and piston flow before and after partial deforestation in a small headwater catchment. The sensor response times at 5, 20 and 50 cm depths were classified into one of four classes: (1) non-sequential preferential flow, (2) velocity based preferential flow, (3) sequential (piston) flow, and (4) no response. The results of this analysis showed that partial deforestation increased sequential flow occurrence and decreased the occurrence of no flow in the deforested area. Similar precipitation conditions (total precipitation) after deforestation caused more sequential flow in the deforested area, which was attributed to higher antecedent moisture conditions and the lack of interception. At the same time, an increase in preferential flow occurrence was also observed for events with identical total precipitation. However, as the events in the treatment period (after deforestation) generally had lower total, maximum, and mean precipitation, this effect was not observed in the overall occurrence of preferential flow. The results of this analysis demonstrate that the combination of a sensor response time analysis and a soil moisture dataset that includes pre- and post-deforestation conditions can offer new insights in preferential and sequential flow conditions after land use change. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

27. COSMOS-Europe: a European network of cosmic-ray neutron soil moisture sensors

Author

Heye Reemt Bogena, Martin Schrön, Jannis Jakobi, Patrizia Ney, Steffen Zacharias, Mie Andreasen, Roland Baatz, David Boorman, Mustafa Berk Duygu, Miguel Angel Eguibar-Galán, Benjamin Fersch, Till Franke, Josie Geris, María González Sanchis, Yann Kerr, Tobias Korf, Zalalem Mengistu, Arnaud Mialon, Paolo Nasta, Jerzy Nitychoruk, Vassilios Pisinaras, Daniel Rasche, Rafael Rosolem, Hami Said, Paul Schattan, Marek Zreda, Stefan Achleitner, Eduardo Albentosa-Hernández, Zuhal Akyürek, Theresa Blume, Antonio del Campo, Davide Canone, Katya Dimitrova-Petrova, John G. Evans, Stefano Ferraris, Félix Frances, Davide Gisolo, Andreas Güntner, Frank Herrmann, Joost Iwema, Karsten H. Jensen, Harald Kunstmann, Antonio Lidón, Majken Caroline Looms, Sascha Oswald, Andreas Panagopoulos, Amol Patil, Daniel Power, Corinna Rebmann, Nunzio Romano, Lena Scheiffele, Sonia Seneviratne, Georg Weltin, Harry Vereecken, Bogena, Heye Reemt, Schrön, Martin, Jakobi, Janni, Ney, Patrizia, Zacharias, Steffen, Andreasen, Mie, Baatz, Roland, Boorman, David, Duygu, Mustafa Berk, Eguibar-Galán, Miguel Angel, Fersch, Benjamin, Franke, Till, Geris, Josie, González Sanchis, María, Kerr, Yann, Korf, Tobia, Mengistu, Zalalem, Mialon, Arnaud, Nasta, Paolo, Nitychoruk, Jerzy, Pisinaras, Vassilio, Rasche, Daniel, Rosolem, Rafael, Said, Hami, Schattan, Paul, Zreda, Marek, Achleitner, Stefan, Albentosa-Hernández, Eduardo, Akyürek, Zuhal, Blume, Theresa, del Campo, Antonio, Canone, Davide, Dimitrova-Petrova, Katya, Evans, John G., Ferraris, Stefano, Frances, Félix, Gisolo, Davide, Güntner, Andrea, Herrmann, Frank, Iwema, Joost, Jensen, Karsten H., Kunstmann, Harald, Lidón, Antonio, Looms, Majken Caroline, Oswald, Sascha, Panagopoulos, Andrea, Patil, Amol, Power, Daniel, Rebmann, Corinna, Romano, Nunzio, Scheiffele, Lena, Seneviratne, Sonia, Weltin, Georg, Vereecken, Harry, Centre d'études spatiales de la biosphère (CESBIO), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Midi-Pyrénées (OMP), and Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects
Water en Landgebruik, Water and Land Use, soil moisture, cosmic-ray neutron sensor, climate change, drought, European network, Soil moisture, cosmic ray, COSMOS-Europe, COSMOS-Europe, Bodem, Water en Landgebruik, Soil, Earth sciences, Bodem, Soil, Water and Land Use, Agriculture and Soil Science, [SDU]Sciences of the Universe [physics], ddc:550, General Earth and Planetary Sciences, Life Science, Soil moisture, Hydrology, cosmic ray
Abstract

Climate change increases the occurrence and severity of droughts due to increasing temperatures, altered circulation patterns, and reduced snow occurrence. While Europe has suffered from drought events in the last decade unlike ever seen since the beginning of weather recordings, harmonized long-term datasets across the continent are needed to monitor change and support predictions. Here we present soil moisture data from 66 cosmic-ray neutron sensors (CRNSs) in Europe (COSMOS-Europe for short) covering recent drought events. The CRNS sites are distributed across Europe and cover all major land use types and climate zones in Europe. The raw neutron count data from the CRNS stations were provided by 24 research institutions and processed using state-of-the-art methods. The harmonized processing included correction of the raw neutron counts and a harmonized methodology for the conversion into soil moisture based on available in situ information. In addition, the uncertainty estimate is provided with the dataset, information that is particularly useful for remote sensing and modeling applications. This paper presents the current spatiotemporal coverage of CRNS stations in Europe and describes the protocols for data processing from raw measurements to consistent soil moisture products. The data of the presented COSMOS-Europe network open up a manifold of potential applications for environmental research, such as remote sensing data validation, trend analysis, or model assimilation The dataset could be of particular importance for the analysis of extreme climatic events at the continental scale. Due its timely relevance in the scope of climate change in the recent years, we demonstrate this potential application with a brief analysis on the spatiotemporal soil moisture variability. The dataset, entitled "Dataset of COSMOS-Europe: A European network of Cosmic-Ray Neutron Soil Moisture Sensors", is shared via Forschungszentrum Julich: https://doi.org/10.34731/x9s3-kr48 (Bogena and Ney, 2021)., Earth System Science Data, 14 (3), ISSN:1866-3516, ISSN:1866-3508

Published
2022

Catalog

Books, media, physical & digital resources
See catalog results