Données dans des articles scientifiques

Données dans des articles scientifiques

Publications Hplus

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, 2023. [ DOI | Data ]

I. Osorio-Leon, C. Bouchez, E. Chatton, N. Lavenant, L. Longuevergne, and T. Le Borgne. Hydrological and Geological Controls for the Depth Distribution of Dissolved Oxygen and Iron in Silicate Catchments. Water Resources Research, 59:e2023WR034986, 2023. [ DOI | Data ]

2022

S. D. Carrière, and K. Chalikakis. Hydrogeophysical monitoring of intense rainfall infiltration in the karst critical zone: A unique electrical resistivity tomography data set. Data in Brief, 40:107762, 2022. [ DOI | Data ]

L. Guillaumot, L. Longuevergne, J. Marçais, N. Lavenant, and O. Bour. Frequency domain water table fluctuations reveal recharge in fractured aquifers depends on both intense and seasonal rainfall and unsaturated zone thickness. Hydrology and Earth System Sciences, 201:1-38, 2022. [ DOI | Data ]

R. Hoffmann, J.-C. Maréchal, A. Selles, A. Dassargues, and P. Goderniaux. Heat Tracing in a Fractured Aquifer with Injection of Hot and Cold Water. Groundwater, 60(2):192–209, 2022. [ DOI | Data ]

I. Osorio-Leon, C. Bouchez, E. Chatton, N. Lavenant, L. Longuevergne, and T. Le Borgne. Hydrological and geological controls for the joint evolution of dissolved oxygen and iron in crystalline rocks. ESS Open Archive, 2022. [ DOI | Data ]

N. Simon, and O. Bour. An ADTS toolbox for automatically interpreting Active Distributed Temperature Sensing measurements. Groundwater, 2022. [ DOI | Data ]

2021

A.-K. Cooke, C. Champollion, and N. Le Moigne. First evaluation of an absolute quantum gravimeter (AQG#B01) for future field  experiments. Geoscientific Instrumentation, Methods and Data Systems, 10:65–79, 2021. [ DOI | Data ]

B. Pouladi, O. Bour, L. Longuevergne, J. de La Bernardie, and N. Simon. Modelling borehole flows from Distributed Temperature Sensing data to monitor groundwater dynamics in fractured media. Journal of Hydrology, 598:126450, 2021. [ DOI | Data ]

N. Simon, O. Bour, N. Lavenant, G. Porel, B. Nauleau, B. Pouladi, L. Longuevergne, and A. Crave. Numerical and experimental validation of the applicability of active-dts experiments to estimate thermal conductivity and groundwater flux in porous media. Water Resources Research, e2020WR028078, 2021. [ DOI | Data ]

2020

L. Blazevic, L. Bodet, S. Pasquet, N. Linde, D. Jougnot, and L. Longuevergne. Time-lapse seismic and electrical monitoring of the vadose zone during a controlled infiltration experiment at the Ploemeur hydrological observatory, France. Water, 12(5):1230, 2020. [ DOI | Data ]

O. Bochet, L. Bethencourt, A. Dufresne, J. Farasin, M. Pédrot, T. Labasque, E. Chatton, N. Lavenant, C. Petton, B. W. Abbott, L. Aquilina, and T. Le Borgne. Iron-oxidizer hotspots formed by intermittent oxic–anoxic fluid mixing in fractured rocks. Nature Geoscience, 13:149–155, 2020. [ DOI | Data ]

2018

J. de La Bernardie, O. Bour, T. Le Borgne, N. Guihéneuf, E. Chatton, T. Labasque, H. Le Lay, and M.-F. Gerard. Thermal attenuation and lag time in fractured rock: Theory and field measurements from joint heat and solute tracer tests. Water Resources Research, 54(12):10,053–10,075, 2018. [ DOI | Data ]

2017

A. Shakas, N. Linde, L. Baron, J. Selker, M.-F. Gerard, N. Lavenant, O. Bour, and T. Le Borgne. Neutrally buoyant tracers in hydrogeophysics: Field demonstration in fractured rock. Geophysical Research Letters, 44(8):3663–3671, 2017. [ DOI | Data ]

2016

A. Shakas, N. Linde, L. Baron, O. Bochet, O. Bour, and T. Le Borgne. Hydrogeophysical characterization of transport processes in fractured rock by combining push-pull and single-hole ground penetrating radar experiments. Water Resources Research, 52(2):938–953, 2016. [ DOI | Data ]

2015

P. K. Kang, T. Le Borgne, M. Dentz, O. Bour, and R. Juanes. Impact of velocity correlation and distribution on transport in fractured media: Field evidence and theoretical model. Water Resources Research, 51(2):940–959, 2015. [ DOI | Data ]

S. Pasquet, L. Bodet, L. Longuevergne, A. Dhemaied, C. Camerlynck, F. Rejiba, and R. Guérin. 2D characterization of near-surface: surface-wave dispersion inversion versus refraction tomography. Near Surface Geophysics, 13(4):315–332, 2015. [ DOI | Data ]

J. L. Mari, G. Porel, and B. Bourbiaux. From 3D seismic to 3D reservoir deterministic model thanks to logging data: The case study of a near surface heterogeneous aquifer. Oil & Gas Science and Technology – Rev. IFP, 64(2):119–131, 2009. [ DOI | .pdf | Data ]

Publications des sites associés

2022

Q. Chaffaut, N. Lesparre, F. Masson, J. Hinderer, D. Viville, J-D. Bernard, G. Ferhat, and S. Cotel. Hybrid Gravimetry to Map Water Storage Dynamics in a Mountain Catchment. Frontiers in Water, 3:715298, 2022. [ DOI | Data ]

2021

R. Hoffmann, P. Goderniaux, P. Jamin, P. Orban, S. Brouyère, and A. Dassargues. Differentiated influence of the double porosity of the chalk on solute and heat transport. Geological Society, London, Special Publications, SP517-2020-170, 2021. [ DOI | Data ]

J. Molron, N. Linde, P. Davy, L. Baron, C. Darcel, J.-O. Selroos, T. Le Borgne, and D. Doolaeghe. GPR-inferred fracture aperture widening in response to a high-pressure tracer injection test at the Äspö hardrock laboratory, Sweden. Engineering Geology, 292:106249, 2021. [ DOI | Data ]

2020

R. Hoffmann, P. Goderniaux, P. Jamin, E. Chatton, J. de la Bernardie, T. Labasque, T. Le Borgne, and A. Dassargues. Continuous dissolved gas tracing of fracture-matrix exchanges. Geophysical Research Letters, 47:e2020GL088944, 2020. [ DOI | Data ]

N. Lesparre, J.-F. Girard, B. Jeannot, S. Weill, M. Dumont, M. Boucher, D. Viville, M.-C. Pierret, A. Legchenko, and F. Delay. Magnetic resonance sounding dataset of a hard-rock headwater catchment for assessing the vertical distribution of water contents in the subsurface. Data in Brief, 31:105708, 2020. [ DOI | Data ]

N. Lesparre, J.-F. Girard, B. Jeannot, S. Weill, M. Dumont, M. Boucher, D. Viville, M.-C. Pierret, A. Legchenko, and F. Delay. Magnetic resonance sounding measurements as posterior information to condition hydrological model parameters: Application to a hard-rock headwater catchment. Journal of Hydrology, 587:124941, 2020. [ DOI | Data ]

J. Molron, N. Linde, L. Baron, J.-O. Selroos, C. Darcel, and P. Davy. Which fractures are imaged with ground penetrating radar? Results from an experiment in the Äspö hardrock laboratory, Sweden. Engineering Geology, 273:105674, 2020. [ DOI | Data ]

A. Palacios, J. J. Ledo, N. Linde, L. Luquot, F. Bellmunt, A. Folch, A. Marcuello, P. Queralt, P. A. Pezard, L. Martínez, L. del Val, D. Bosch, and J. Carrera. Time-lapse cross-hole electrical resistivity tomography (CHERT) for monitoring seawater intrusion dynamics in a mediterranean aquifer. Hydrology and Earth System Sciences, 24(4):2121–2139, 2020. [ DOI | Data ]

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