Articles | Volume 21, issue 12
https://doi.org/10.5194/hess-21-6153-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/hess-21-6153-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
The potamochemical symphony: new progress in the high-frequency acquisition of stream chemical data
Paul Floury
CORRESPONDING AUTHOR
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
UR HBAN, Institut national de recherche en sciences et technologies
pour l'environnement et l'agriculture, Antony (IRSTEA), France
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
Eric Gayer
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
Julien Bouchez
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
Gaëlle Tallec
UR HBAN, Institut national de recherche en sciences et technologies
pour l'environnement et l'agriculture, Antony (IRSTEA), France
Patrick Ansart
UR HBAN, Institut national de recherche en sciences et technologies
pour l'environnement et l'agriculture, Antony (IRSTEA), France
Frédéric Koch
Endress+Hauser SAS, Huningue, France
Caroline Gorge
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
Arnaud Blanchouin
UR HBAN, Institut national de recherche en sciences et technologies
pour l'environnement et l'agriculture, Antony (IRSTEA), France
Jean-Louis Roubaty
Institut de Physique du Globe de Paris (IPGP), CNRS and
Université Sorbonne Paris-Cité, 1 rue Jussieu, 75238 Paris, France
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31 citations as recorded by crossref.
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- A combined mixing model for high-frequency concentration–discharge relationships J. Tunqui Neira et al. 10.1016/j.jhydrol.2020.125559
- Improving the Spectral Analysis of Hydrological Signals to Efficiently Constrain Watershed Properties J. Schuite et al. 10.1029/2018WR024579
- Making waves: Time for chemical surface water quality monitoring to catch up with its technical potential J. Arndt et al. 10.1016/j.watres.2022.118168
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- Characterization of Export Regimes in Concentration–Discharge Plots via an Advanced Time-Series Model and Event-Based Sampling Strategies A. Gonzalez-Nicolas et al. 10.3390/w13131723
- Technical note: A two-sided affine power scaling relationship to represent the concentration–discharge relationship J. Tunqui Neira et al. 10.5194/hess-24-1823-2020
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- Reflections on Earth surface research I. Alcántara-Ayala et al. 10.1038/s43017-020-00125-9
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- High-frequency data reveal differential dissolved and suspended solids behavior from a mixed restored prairie and agricultural catchment A. Miller et al. 10.1016/j.scitotenv.2020.141731
- Advances in Catchment Science, Hydrochemistry, and Aquatic Ecology Enabled by High-Frequency Water Quality Measurements M. Bieroza et al. 10.1021/acs.est.2c07798
- The response of Li and Mg isotopes to rain events in a highly-weathered catchment D. Fries et al. 10.1016/j.chemgeo.2019.04.023
- Isotope Ratio – Discharge Relationships of Solutes Derived From Weathering Reactions J. Druhan & P. Benettin 10.2475/001c.84469
- Fast motion view of a headwater creek—A hydrological year seen through time‐lapse photography L. Pfister et al. 10.1002/hyp.15026
- Hydrological Perspectives on Integrated, Coordinated, Open, Networked (ICON) Science B. Acharya et al. 10.1029/2022EA002320
- Sampling frequency, load estimation and the disproportionate effect of storms on solute mass flux in rivers J. Wang et al. 10.1016/j.scitotenv.2023.167379
- Linking Dynamic Water Storage and Subsurface Geochemical Structure Using High‐Frequency Concentration‐Discharge Records P. Floury et al. 10.1029/2022WR033999
- Chemical weathering and CO2 consumption rate in a multilayered‐aquifer dominated watershed under intensive farming: The Orgeval Critical Zone Observatory, France P. Floury et al. 10.1002/hyp.13340
- Resiliency of Silica Export Signatures When Low Order Streams Are Subject to Storm Events N. Fernandez et al. 10.1029/2021JG006660
28 citations as recorded by crossref.
- Freshwater pearl mussels as a stream water stable isotope recorder L. Pfister et al. 10.1002/eco.2007
- Regional coupled surface–subsurface hydrological model fitting based on a spatially distributed minimalist reduction of frequency domain discharge data N. Flipo et al. 10.5194/gmd-16-353-2023
- Building the information system of the French Critical Zone Observatories network: Theia/OZCAR-IS I. Braud et al. 10.1080/02626667.2020.1764568
- High-Frequency Monitoring to Estimate Loads and Identify Nutrient Transport Dynamics in the Little Auglaize River, Ohio S. Pace et al. 10.3390/su142416848
- Automated Analyte Separation by Ion Chromatography Using a Cobot Applied to Geological Reference Materials for Li Isotope Composition M. Kuessner et al. 10.1111/ggr.12295
- Using high-frequency solute synchronies to determine simple two-end-member mixing in catchments during storm events N. Brekenfeld et al. 10.5194/hess-28-4309-2024
- Estimating Hydrothermal Properties and High-Frequency Fluxes From Geophysical Measurements in the Hyporheic Zone K. Cucchi et al. 10.3389/frwa.2021.700274
- Long and short-term trends of stream hydrochemistry and high frequency surveys as indicators of the influence of climate change, agricultural practices and internal processes (Aurade agricultural catchment, SW France) V. Ponnou-Delaffon et al. 10.1016/j.ecolind.2019.105894
- Multi‐objective fitting of concentration‐discharge relationships J. Tunqui Neira et al. 10.1002/hyp.14428
- Flow partitioning modelling using high-resolution electrical conductivity data during variable flow conditions in a tropical montane catchment P. Lazo et al. 10.1016/j.jhydrol.2022.128898
- A combined mixing model for high-frequency concentration–discharge relationships J. Tunqui Neira et al. 10.1016/j.jhydrol.2020.125559
- Improving the Spectral Analysis of Hydrological Signals to Efficiently Constrain Watershed Properties J. Schuite et al. 10.1029/2018WR024579
- Making waves: Time for chemical surface water quality monitoring to catch up with its technical potential J. Arndt et al. 10.1016/j.watres.2022.118168
- HUM: A review of hydrochemical analysis using ultraviolet-visible absorption spectroscopy and machine learning J. Carter et al. 10.1016/j.scitotenv.2023.165826
- Perspectives on Water Quality Monitoring Approaches for Behavioral Change Research P. Jordan & R. Cassidy 10.3389/frwa.2022.917595
- A simple mixing model using electrical conductivity yields robust hydrograph separation in a tropical montane catchment P. Lazo et al. 10.1016/j.jhydrol.2024.131632
- Characterization of Export Regimes in Concentration–Discharge Plots via an Advanced Time-Series Model and Event-Based Sampling Strategies A. Gonzalez-Nicolas et al. 10.3390/w13131723
- Technical note: A two-sided affine power scaling relationship to represent the concentration–discharge relationship J. Tunqui Neira et al. 10.5194/hess-24-1823-2020
- The concentration-discharge slope as a tool for water quality management M. Bieroza et al. 10.1016/j.scitotenv.2018.02.256
- Reflections on Earth surface research I. Alcántara-Ayala et al. 10.1038/s43017-020-00125-9
- Revisiting the Hydrograph Separation Issue Using High-Frequency Chemical Information J. Tunqui Neira et al. 10.1007/s10666-024-09963-z
- High-frequency data reveal differential dissolved and suspended solids behavior from a mixed restored prairie and agricultural catchment A. Miller et al. 10.1016/j.scitotenv.2020.141731
- Advances in Catchment Science, Hydrochemistry, and Aquatic Ecology Enabled by High-Frequency Water Quality Measurements M. Bieroza et al. 10.1021/acs.est.2c07798
- The response of Li and Mg isotopes to rain events in a highly-weathered catchment D. Fries et al. 10.1016/j.chemgeo.2019.04.023
- Isotope Ratio – Discharge Relationships of Solutes Derived From Weathering Reactions J. Druhan & P. Benettin 10.2475/001c.84469
- Fast motion view of a headwater creek—A hydrological year seen through time‐lapse photography L. Pfister et al. 10.1002/hyp.15026
- Hydrological Perspectives on Integrated, Coordinated, Open, Networked (ICON) Science B. Acharya et al. 10.1029/2022EA002320
- Sampling frequency, load estimation and the disproportionate effect of storms on solute mass flux in rivers J. Wang et al. 10.1016/j.scitotenv.2023.167379
3 citations as recorded by crossref.
- Linking Dynamic Water Storage and Subsurface Geochemical Structure Using High‐Frequency Concentration‐Discharge Records P. Floury et al. 10.1029/2022WR033999
- Chemical weathering and CO2 consumption rate in a multilayered‐aquifer dominated watershed under intensive farming: The Orgeval Critical Zone Observatory, France P. Floury et al. 10.1002/hyp.13340
- Resiliency of Silica Export Signatures When Low Order Streams Are Subject to Storm Events N. Fernandez et al. 10.1029/2021JG006660
Discussed (preprint)
Latest update: 14 Dec 2024
Short summary
We present a new prototype
lab in the fieldnamed River Lab (RL) designed for water quality monitoring to perform a complete analysis at sub-hourly frequency of major dissolved species in river water. The article is an analytical paper to present the proof of concept, its performances and improvements. Our tests reveal a significant improvement of reproducibility compared to conventional analysis in the laboratory. First results are promising for understanding the critical zone.
We present a new prototype
lab in the fieldnamed River Lab (RL) designed for water quality...