Multi-dimensional hydrogeological system characterization and monitoring
A list of datasets for multi-dimensional hydrogeological system characterization and monitoring is given in the table below with the links to corresponding datasets.
It is published in Hydrology and Earth System Sciences by Hermans et al (2023):
T. Hermans, P. Goderniaux, D. Jougnot, J. Fleckenstein, P. Brunner, F. Nguyen, N. Linde, J. A. Huisman, O. Bour, J. Lopez-Alvis, R. Hoffmann, A. Palacios, A-K. Cooke, Á.Pardo-Álvarez, L. Blazevic, B. Pouladi, P. Haruzi, M. Kenshilikova, P. Davy, and T. Le Borgne. Advancing measurements and representations of subsurface heterogeneity and dynamic processes: towards 4D hydrogeology. Hydrology and Earth System Sciences, 27, 255–287, 2023. [ DOI ]
The data may be downloaded from the links listed in the table below by creating an account in the H+ database at https://hplus.ore.fr/en/database/acces-database.
If you would like to contribute to these datasets with a new related data, for any questions please contact:
- tanguy.le-borgne@univ-rennes1.fr
- camille.bouchez@univ-rennes1.fr
- meruyert.kenshilkova@univ-rennes1.fr
| Dimension | Dataset | Site | Link to dataset | Publications |
|---|---|---|---|---|
| A. 3D + time | A.1 Time-lapse geophysical monitoring of heat transport: 2D time-lapse ERT cross-sections + 3D multiple nested wells data during heat tracer test | Hermalle, Belgium | https://hplus.ore.fr/en/hermalle/ | Hermans et al. (2015b, 2018) Hoffmann et al. (2019) |
| A.2 Time-lapse geophysical monitoring of hyporheic zone processes: 2D surface Electromagnetic Inuction + 2D time-lapse ERT (section) | Theis site, Ohio, USA | https://doi.org/10.4211/hs.69204f1ee49c4176a8aab5f4832c7b76 | McGarr et al. (2021) | |
| B. 2D + time | B.1 Time-lapse geophysical monitoring of water infiltration in the vadose zone: 2D time-lapse ERT and seismic cross-sections + TDR monitoring of water content during irrigation | Ploemeur, France | https://hplus.ore.fr/en/blazevic-et-al-2020-water-data | Blazevic et al. (2020) |
| B.2 GPR imaging of fracture opening during hydraulic test: Borehole and surface GPR+ optical televiewer + core logging during high pressure injection test | Aspö hard rock laboratory, Sweden | https://hplus.ore.fr/en/molron-et-al-2021-eg-data https://hplus.ore.fr/en/molron-et-al-2020-eg-data | Molron et al. (2020, 2021) | |
| B.3 GPR imaging of tracer transport in fractured media: Borehole GPR + conductivity and fluorescence monitoring during tracer test | Ploemeur, France | https://hplus.ore.fr/en/shakas-et-al-2017-grl-data | Shakas et al. (2016, 2017) | |
| B.4 Use of Vp/Vs ratio to monitor subsurface water content: 2D time-lapse seismic cross-sections P- and surface-wave survey, SH-wave refraction acquisition, travel-time tomography | Ploemeur, France | https://hplus.ore.fr/en/pasquet-et-al-2015-nsg-data | Pasquet et al. (2015) Dangeard et al. (2018) | |
| B.5 Time-lapse geophysical monitoring of water infiltration in karstic environment: 2D time-lapse ERT cross-sections during rainfall events | LSBB, France | https://hplus.ore.fr/en/carriere-et-al-2022-dib-data | Carrière et al. (2015, 2022) | |
| B.6 Time-lapse geophysical monitoring of seawater intrusion: 2D time-lapse cross-hole ERT in coastal aquifer | Argentona, Spain | https://hplus.ore.fr/en/palacios-et-al-2020-HESS-data | Palacios et al. (2020) | |
| C. 1D + time | C.1 Magnetic resonance sounding monitoring of water in a headwater catchments: Time-lapse magnetic resonance sounding | Strengbach, France | https://hplus.ore.fr/en/lesparre-et-al-2020-joh-data | Lesparre et al. (2020) |
| C.2 Fiber optic DTS monitoring for estimating thermal conductivity and groundwater flux in porous media: Fiber optic DTS and heat tracer experiments in a sand tank | Poitiers, France | https://hplus.ore.fr/en/simon-et-al-2020-wrr-data | Simon et al. (2020, 2022) | |
| C.3 Fiber-optic monitoring of heat transfer in fractured media: Fiber optic-DTS monitoring during thermal and solute tracer tests | Ploemeur, France | https://hplus.ore.fr/en/delabernardie-et-al-2018-wrr-data | De La Bernardie et al. (2018) | |
| C.4 Use of gravimeter time series for hydrological model calibration in a karst aquifer: Ten years gravimetry time series using iGrav superconducting gravimeter | Larzac, France | https://hplus.ore.fr/en/igrav-gravity-dataset | Fores et al. (2018, 2017) | |
| C.5 Time-lapse absolute quantum gravity measurements to monitor water storage in karstic environments: Gravimeter time series | Larzac, France | https://zenodo.org/record/4279110#.YicgCpbjJPZ | Cooke et al. (2021) | |
| C.6 Self-potential monitoring of natural rainfall and saline tracer infiltrations at the agricultural test site (HOBE network): Self-potential, time series | Voulund, Denmark | https://data.mendeley.com/datasets/6r8898657w/1 | Hu et al. (2020) | |
| C.7 Fiber-optic and borehole temperature monitoring of heat transfer in stream valleys: Fiber optic-DTS and borehole temperature monitoring of naturally occurring temperature fluctuations in groundwater upwelling areas in wetlands | Holtum stream lowlands, Denmark | https://hplus.ore.fr/en/evi-1/ https://water.columbia.edu/people/upmanu-lall | Tirado-Conde et al. (2019) | |
| D. High resolution imaging of heterogeneity combined with tracer tests | D.1 3D Seismic imaging of a karstic aquifer combined with multiple cross borehole tracer tests: 3D seismic bloc and tracer tests | Poitiers, France | https://hplus.ore.fr/en/mari-et-al-2009-ogst-data https://hplus.ore.fr/en/poitiers/ | Mari et al. (2009) |
| D.2 GPR Imaging of sand layered aquifer with multiple 2D profiles and tracer tests: Crosshole GPR and tracer tests | Krauthausen, Germany | https://teodoor.icg.kfa-juelich.de/geonetwork/srv/fre/login.form | Gueting et al. (2015, 2017) | |
| E. Multiple tracer experiments | E.1 Solute and heat tracer tests for characterizing heat transfer in fractured granite: Convergent and push-pull tests with injection of hot water, cold water and salt | Choutuppal, India | https://hplus.ore.fr/en/hoffmann-et-al-2021-groundwater-data | Hoffmann et al. (2021b) |
| E.2 Solute and dissolved gaz tracer tests for characterizing transport in Chalk: Convergent and push-pull tests with heat, helium, argon, xenon and uranine | Mons, Belgium | https://hplus.ore.fr/en/hoffmann-et-al-2020-hydrogeology-of-the-chalk-data https://hplus.ore.fr/en/hoffmann-et-al-2020-grl-data | Hoffmann et al. (2020, 2021a) | |
| E.3 Salt and dissolved oxygen tracer tests for characterizing transport and transit-times in a riparian zone: Time-series of EC, dissolved oxygen, and water temperature and stage | Selke River, Falkenstein, Germany | https://www.hydroshare.org/resource/51b3933c4987427e94e51e3339237755/ https://www.hydroshare.org/resource/476a188d9f894a77a3ed404949680cab/ | Nogueira et al. (2021a, 2021b) |