F. Abbasi, J. Simunek-jirka, J. Feyen, J. Shouse, and P. , Simultaneous Inverse Estimation of Soil Hydraulic and Solute Transport Parameters from Transient Field Experiments: Homogeneous Soil, Transactions of the ASAE, 2003.

W. Aeschbach and T. Gleeson, Regional strategies for the accelerating global problem of groundwater depletion, Nat. Geosci, vol.5, pp.853-861, 2012.

,

J. Albergel, P. Perez, and M. Vaksmann, Amélioration des modèles du bilan hydrique sur parcelle par la prise en considération des états de surface, Soil Water Balance in the Sudano-Sahelian Zone : International Worshop, pp.483-496, 0199.

P. A. Allen, Earth surface processes, Blackwell Sciences, 1997.

D. A. Angers and J. Caron, Plant-induced Changes in Soil Structure: Processes and Feedbacks, Biogeochemistry, vol.42, pp.55-72, 1998.

,

L. Araguás-araguás, K. Froehlich, and K. Rozanski, Deuterium and Oxygen-18 Isotope Composition of Precipitation and Atmospheric Moisture, Hydrol. Process, vol.14, issue.8, pp.1341-1355, 2000.

L. Araguás-araguás, K. Rozanski, R. Gonfiantini, and D. Louvat, Isotope effects accompanying vacuum extraction of soil water for stable isotope analyses, J. Hydrol, vol.168, pp.159-171, 1995.

R. Arsenault and F. Brissette, Multi-model averaging for continuous streamflow prediction in ungauged basins, Hydrol. Sci. J, vol.61, pp.2443-2454, 2016.

, Task force on effect of urban development on flood discharges, committee on flood control, J Hydraul Division, vol.95, issue.HY1, pp.287-309, 1969.

D. Baer, J. B. Paul, M. Gupta, and A. O'keefe, Sensitive Absorption Measurements in the Near-infrared Region using Off-axis Integrated-cavityoutput Spectroscopy, Applied Physics B, 2002.

B. Barbecot, F. Guillon, S. Pili, E. Larocque, M. Gibert-brunet et al., Using Water Stable Isotopes in the Unsaturated Zone to Quantify Recharge in Two Contrasted Infiltration Regimes. Vadose Zo, J, vol.17, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01856039

M. S. Batalha, M. C. Barbosa, B. Faybishenko, M. T. Genuchten, and . Van, Effect of temporal averaging of meteorological data on predictions of groundwater recharge, J. Hydrol. Hydromechanics, vol.66, pp.143-152, 2018.

,

F. Benavides, M. E. Solarte, V. Pabón, A. Ordoñez, E. Beltrán et al., The variation of infiltration rates and physical-chemical soil properties across a land cover and land use gradient in a Paramo of southwestern Colombia, J. Soil Water Conserv, vol.73, pp.400-410, 2018.

,

J. Bear, Dynamics of Fluids In Porous Media, vol.1, p.764, 1972.

E. S. Berman, N. E. Levin, A. Landais, S. Li, and T. Owano, Measurement of delta18O, delta17O, and 17O-excess in water by off-axis integrated cavity output spectroscopy and isotope ratio mass spectrometry, Anal. Chem, vol.85, pp.10392-10398, 2013.

M. Besbes and G. De-marsily, From infiltration to recharge: use of a parametric transfer function, J. Hydrol, vol.74, pp.271-293, 1984.

, , pp.90019-90021

K. Beven, A manifesto for the equifinality thesis, J. Hydrol, vol.320, pp.18-36, 2006.

M. F. Bierkens, P. Finke, and P. Willigen, Upscaling and Downscaling Methods for Environmental Research, Dev. Plant Soil Sci, vol.88, pp.190-88, 2000.

G. Blöschl and M. Sivapalan, Scale issues in hydrological modelling: A review, Hydrol. Process, vol.9, pp.251-290, 1995.

G. Brundtland, Notre Avenir à Tous -Rapport de la commission mondiale sur l'Environnement et le Développement, Les Editions du Fleuve, 1987.

W. Brutsaert and H. Stricker, Advection-aridity approach to estimate actual regional evapotranspiration, Water Resour. Res, vol.15, pp.443-450, 1979.

,

E. Buckingham, Studies on the Movement of Soil Moisture. USDepartment of Agriculture, Bureau of Soils, issue.38, 1907.

M. Bukovsky and D. Karoly, A Brief Evaluation of Precipitation from the North American Regional Reanalysis, J. Hydrometeorol. -J HYDROMETEOROL, vol.8, 2007.

,

F. Campolongo, J. Cariboni, and A. Saltelli, An effective screening design for sensitivity analysis of large models, Environ. Model. Softw, vol.22, pp.1509-1518, 2007.

D. R. Cameron, C. Shaykewich, E. Dejong, D. Chanasyk, M. Green et al., Physical aspects of soil degradation In: Agricultural land -our disappearing heritage -a symposium, Proceedings of the 18th annual Alberta Soil Science workshop, pp.186-255, 1981.

J. F. Carter and V. Barwick, Good Practice Guide for Isotope Ratio Mass Spectrometry. FIRMS, 2011.

G. Castany and J. Margat, Dictionnaire français d'hydro-géologie BRGM, p.249, 1977.

G. Chen, K. Auerswald, and H. Schnyder, 2H and 18O depletion of water close to organic surfaces, Biogeosciences, vol.13, pp.3175-3186, 2016.

W. Choi, S. J. Kim, P. Rasmussen, and A. Moore, Use of the North American Regional Reanalysis for Hydrological Modelling in Manitoba, Can. Water Resour. J, vol.34, pp.17-36, 2009.

J. Chorover, R. Kretzschmar, F. Garica-pichel, and D. L. Sparks, Soil biogeochemicial processes within the critical zone, Elements, vol.3, issue.5, pp.321-326, 2007.

I. Clark and P. Fritz, Environmental Isotopes in Hydrogeology Lewis, 1997.

D. L. Corwin, J. Hopmans, and G. H. De-rooij, From Field-to Landscape-Scale Vadose Zone Processes: Scale Issues, Modelling, and Monitoring. Vadose Zo, J, vol.5, pp.129-139, 2006.

C. Cosandey, Une méthode d'étude de la réserve agricole par humidimètre à neutrons. Rev. Géographique l'Est, tome 15, n°1-2, Janvier-juin 1975. Modalités l'écoulement étiages fluviaux en milieux tempérés, 1975.

A. Court, Reliability of hourly precipitation data, J. Geophys. Res, vol.65, pp.4017-4024, 1960.

H. Craig, Isotopic Variations in Meteoric Waters. Science (80-. ), vol.133, pp.1702-1703, 1961.

H. Craig and L. I. Gordon, Deuterium and oxygen-18 variations in the ocean and the marine atmosphere, Proceedings of a Conference on Stable Isotopes in Oceanographic Studies and Paleotemperatures, pp.9-130, 1965.

E. Crosson, K. Ricci, B. Richman, F. Chilese, T. Owano et al., , p.160

M. Bibliographie, J. Glasser, A. Kachanov, B. Paldus, T. Spence et al., Stable Isotope Ratios Using Cavity Ring-Down Spectroscopy: Determination of, 2002.

, C/ 12 C for Carbon Dioxide in Human Breath, Analytical chemistry

A. Croteau, M. Nastev, and R. Lefebvre, Groundwater Recharge Assessment in the Chateauguay River Watershed, Can. Water Resour. J. / Rev. Can. des ressources hydriques, vol.35, pp.451-468, 2010.

E. Custodio, Aquifer overexploitation: what does it mean?, Hydrogeol. J, vol.10, pp.254-277, 2002.

W. Dansgaard, Stable isotopes in precipitation, Tellus, vol.16, pp.436-468, 1964.

H. Delottier, Quantification et réduction des incertitudes associées aux modèles hydrodynamiques de gestion quantitative des eaux souterraines. Sciences de la Terre, 2017.

D. Marsily and G. , Quantitative hydrogeology, 1986.

J. De-vries and I. Simmers, Groundwater recharge: An overview of process and challenges, Hydrogeology Journal, 2002.

I. Delpla, A. Jung, E. Baures, M. Clement, and O. Thomas, Impacts of climate change on surface water quality in relation to drinking water production, Environ. Int, vol.35, pp.1225-1233, 2009.

,

W. R. Dripps and K. R. Bradbury, A simple daily soil-water balance model for estimating the spatial and temporal distribution of groundwater recharge in temperate humid areas, Hydrogeol. J, vol.15, pp.433-444, 2007.

,

W. Dripps and K. R. Bradbury, The spatial and temporal variability of groundwater recharge in a forested basin in northern Wisconsin, Hydrological Processes, vol.24, 2009.

M. Esteller and C. Díaz-delgado, Environmental Effects of Aquifer Overexploitation: A Case Study in the Highlands of Mexico, Environ. Manage, vol.29, pp.266-278, 2002.

S. Evett, A. Warrick, and A. D. Matthias, Wall Material and Capping Effects on Microlysimeter Temperatures and Evaporation, Soil Sci. Soc. Am. J, vol.59, 1995.

S. J. Famiglietti, The global groundwater crisis, Nat. Clim. Chang, vol.4, pp.945-948, 2014.

M. W. Farthing and F. L. Ogden, Numerical Solution of Richards' Equation: A Review of Advances and Challenges, Soil Sci. Soc. Am. J, vol.81, pp.1257-1269, 2017.

,

R. A. Feddes, P. Kowalik, K. Kolinska-malinka, and H. Zaradny, Simulation of field water uptake by plants using a soil water dependent root extraction function, J. Hydrol, vol.31, issue.76, pp.90017-90019, 1976.

E. Ferrieu, Variabilité des gradients altitudinaux de la signature isotopique des eaux de pluie à l'échelle de la France Métropolitaine, 2012.

C. W. Fetter, Applied Hydrogeology, 1994.

C. Filippi, F. Milville, and D. Thiéry, Evaluation de la recharge naturelle des aquifères en climat Soudano-Sahelien par modelisation hydrologique globale: Application a dix sites au Burkina Faso, Hydrol. Sci. J, vol.35, pp.29-48, 1990.

M. Filippini, C. Stumpp, I. Nijenhuis, H. H. Richnow, and A. Gargini, Evaluation of aquifer recharge and vulnerability in an alluvial lowland using environmental tracers, J. Hydrol, vol.529, pp.1657-1668, 2015.

A. L. Flint, L. E. Flint, E. M. Kwicklis, J. T. Fabryka-martin, and G. S. Bodvarsson, Estimating recharge at Yucca Mountain, Nevada, USA: comparison of methods, Hydrogeol. J, vol.10, pp.180-204, 2002.

N. Flipo, Modélisation des hydrosystèmes continentaux pour une gestion durable de la ressource en eau, 2013.

C. Folke, T. Hahn, P. Olsson, and J. Norberg, Adaptive Governance of Social-Ecological Systems, Annu. Rev. Environ. Resour, vol.15, pp.441-473, 2005.

,

R. L. Folk and W. C. Ward, A Study in the Significance of Grain-Size Parameters, Journal of Sedimentary Petrology, vol.27, pp.3-26, 1957.

J. C. Fontes, M. Yousfi, and G. B. Allison, Estimation of long-term, diffuse groundwater discharge in the northern Sahara using stable isotope profiles in soil water, J. Hydrol, vol.86, pp.315-327, 1986.

, , pp.90170-90178

F. Fournier, Climat et érosion, vol.194, 1960.

B. Fu, L. Chen, K. Ma, H. Zhou, and J. Wang, The relationships between land use and soil conditions in the hilly area of the loess plateau in northern Shaanxi, China. CATENA, vol.39, pp.69-78, 2000.

, , pp.84-87

M. Gaj, S. Kaufhold, and J. J. Mcdonnell, Potential limitation of cryogenic 162 Bibliographie vacuum extractions and spiked experiments, Rapid Commun. Mass Spectrom, vol.31, pp.821-823, 2017.

P. Galvão, R. Hirata, and B. Conicelli, Estimating groundwater recharge using GIS-based distributed water balance model in an environmental protection area in the city of Sete Lagoas (MG), Brazil. Environ. Earth Sci, vol.77, 2018.

J. Garvelmann, C. Külls, and M. Weiler, A porewater-based stable isotope approach for the investigation of subsurface hydrological processes, Hydrol. Earth Syst. Sci, vol.16, pp.631-640, 2012.

J. Gat, Stable Isotopes of Fresh and Saline Lakes BT -Physics and Chemistry of Lakes, 1995.

H. Springer-berlin, , pp.139-165

,

S. Gebler, H. Franssen, T. Pütz, H. Post, M. Schmidt et al., Actual evapotranspiration and precipitation measured by lysimeters: A comparison with eddy covariance and tipping bucket, Hydrology and Earth System Sciences, 2015.

J. C. Gehrels, J. E. Peeters, J. J. Vries, and M. Dekkers, The mechanism of soil water movement as inferred from 18O stable isotope studies, Hydrol. Sci. J, vol.43, pp.579-594, 1998.

J. J. Gibson, S. J. Birks, and T. W. Edwards, Global prediction of ?A and ?2H-?18O evaporation slopes for lakes and soil water accounting for seasonality, Global Biogeochem. Cycles, vol.22, 2008.

P. Goblet, Simulation d'écoulement et de transport miscible en milieu poreux et fracturé, 2010.

R. Gonfiantini, The Terrestrial Environment, B, Handbook of Environmental Isotope Geochemistry, LAKE STUDIES, pp.113-168, 1986.

R. Gonfiantini, L. I. Wassenaar, L. Araguas-araguas, and P. K. Aggarwal, A unified Craig-Gordon isotope model of stable hydrogen and oxygen isotope fractionation during fresh or saltwater evaporation, Geochim. Cosmochim. Acta, vol.235, pp.224-236, 2018.

B. Gralher, B. Herbstritt, M. Weiler, L. Wassenaar, and C. Stumpp, Correcting Laser-Based Water Stable Isotope Readings Biased by Carrier Gas Changes, Environmental science & technology, 2016.

R. J. Granger, An examination of the concept of potential evaporation, J. Hydrol, vol.111, pp.9-19, 1989.

M. M. Gribb, I. Forkutsa, A. Hansen, D. G. Chandler, and J. P. Mcnamara, The 163, 2009.

, Effect of Various Soil Hydraulic Property Estimates on Soil Moisture SimulationsAll rights reserved. No part of this periodical may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, . Vadose Zo, J, vol.8, pp.321-331

,

J. J. Gril and J. Dorioz, Des bassins versants de recherche aux bassins opérationnels : quels bassins versants pour connaître et maîtriser les pollutions diffuses agricoles ? Ingénieries -E A T, 2004.

J. Groh, H. Puhlmann, and K. Wilpert, Calibration of a soil-water balance model with a combined objective function for the optimization of the water retention curve, Hydrologie und Wasserbewirtschaftung, pp.4-5, 2013.

J. Groh, C. Stumpp, A. Lücke, T. Pütz, J. Vanderborght et al., Inverse Estimation of Soil Hydraulic and Transport Parameters of Layered Soils from Water Stable Isotope and Lysimeter Data. Vadose Zo, J, vol.17, 2018.

M. Gröning, H. O. Lutz, Z. Roller-lutz, M. Kralik, L. Gourcy et al., A simple rain collector preventing water re-evaporation dedicated for ?18O and ?2H analysis of cumulative precipitation samples, J. Hydrol, vol.448, issue.449, 0200.

H. V. Gupta, H. Kling, K. K. Yilmaz, and G. F. Martinez, Decomposition of the mean squared error and NSE performance criteria: Implications for improving hydrological modelling, J. Hydrol, vol.377, pp.80-91, 2009.

,

E. M. Haacker, A. D. Kendall, and D. W. Hyndman, Water Level Declines in the High Plains Aquifer: Predevelopment to Resource Senescence, Groundwater, vol.54, pp.231-242, 2016.

H. G. Hargreaves and Z. A. Samani, Estimating Potential Evapotranspiration, Journal of the Irrigation & Drainage Division -ASCE, 1982.

R. J. Haynes and R. Naidu, Influence of lime, fertilizer and manure applications on soil organic matter content and soil physical conditions: a review, Nutr. Cycl. Agroecosystems, vol.51, pp.123-137, 1998.

R. W. Healy, Estimating Groundwater Recharge, 2010.

R. W. Healy and P. G. Cook, Using groundwater levels to estimate recharge, Hydrogeol. J, vol.10, pp.91-109, 2002.

M. J. Hendry, S. L. Barbour, K. Novakowski, and L. I. Wassenaar, Paleohydrogeology of the Cretaceous sediments of the Williston Basin using stable isotopes of water, Water Resour. Res, vol.49, pp.4580-4592, 2013.

M. J. Bibliographie-hendry, E. Schmeling, L. I. Wassenaar, S. L. Barbour, and D. Pratt, Determining the stable isotope composition of pore water from saturated and unsaturated zone core: improvements to the direct vapour equilibration laser spectrometry method, Hydrol. Earth Syst. Sci, vol.19, pp.4427-4440, 2015.

,

B. Herbstritt, B. Gralher, and M. Weiler, Continuous in situ measurements of stable isotopes in liquid water, Water Resour. Res, vol.48, 2012.

D. Hillel, Infiltration and runoff as affected by soil conditions, 1974.

M. Hoffmann, R. Schwartengräber, G. Wessolek, and A. Peters, Comparison of simple rain gauge measurements with precision lysimeter data, Atmos. Res. 174, vol.175, pp.120-123, 2016.

,

L. Hongxia, Z. Yongqiang, H. S. Francis, and C. X. Shiguo, Predicting runoff in ungauged catchments by using Xinanjiang model with MODIS leaf area index, J. Hydrol, vol.370, pp.155-162, 2009.

J. Horita, K. Rozanski, and S. Cohen, Isotope effects in the evaporation of water: a status report of the Craig-Gordon model, Isotopes Environ. Health Stud, vol.44, pp.23-49, 2008.

J. Horita and D. J. Wesolowski, Liquid-vapor fractionation of oxygen and hydrogen isotopes of water from the freezing to the critical temperature, Geochim. Cosmochim. Acta, vol.58, pp.3425-3437, 1994.

,

R. E. Horton, The Rôle of infiltration in the hydrologic cycle, Eos Trans. AGU, vol.14, issue.1, pp.446-460, 1933.

M. Hrachowitz, H. H. Savenije, G. Blöschl, J. J. Mcdonnell, M. Sivapalan et al., A decade of Predictions in Ungauged Basins (PUB)-a review, Hydrol. Sci. J, vol.58, pp.1198-1255, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01209127

M. Huet, R. Chesnaux, M. Boucher, and C. Poirier, Comparing various approaches for assessing groundwater recharge at a regional scale in the Canadian Shield, Hydrol. Sci. J, vol.61, pp.2267-2283, 2015.

,

B. Ibrahim, D. Wisser, T. Fowe, B. Barry, and A. Aduna, Hydrological predictions for small ungauged watersheds in the Sudanian zone of the Volta basin in West Africa, J. Hydrol. Reg. Stud, vol.4, pp.386-397, 2015.

,

A. Ignatev, T. Velivetckaia, A. Sugimoto, and A. Ueta, A soil water distillation technique using He-purging for stable isotope analysis, Journal of Hydrology, 2013.

. Ipcc, The Fourth Assessment Report of the Intergovernmental Panel on Climate Change, 2007.

A. Isch, D. Montenach, F. Hammel, P. Ackerer, and Y. Coquet, A Comparative Study of Water and Bromide Transport in a Bare Loam Soil Using Lysimeters and Field Plots, p.1199, 2019.
URL : https://hal.archives-ouvertes.fr/insu-02262291

A. J. Jakeman, O. Barreteau, R. J. Hunt, J. Rinaudo, A. Ross et al., Integrated Groundwater Management: An Overview of Concepts and Challenges, pp.3-20, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02606123

W. A. Jury and K. Roth, Transfer functions and solute movement through soil: theory and applications, vol.226, 1990.

I. Jyrkama and F. Sykes, The impact of climate change on spatially varying groundwater recharge in the Grand River watershed (Ontario), Journal of Hydrology, 2007.

N. B. Kavalanekar, S. C. Sharma, and K. R. Rushton, Over-exploitation of an alluvial aquifer in Gujarat, India. Hydrol. Sci. J, vol.37, pp.329-346, 1992.

E. R. Kerstel, R. Q. Iannone, M. Chenevier, S. Kassi, H. Jost et al., A water isotope ( 2 H, 17 O, and 18 O) spectrometer based on optical feedback cavity-enhanced absorption for in situ airborne applications, Appl Phys B, vol.85, issue.2, pp.397-406, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01103473

J. Kim and R. Jackson, A Global Analysis of Groundwater Recharge for Vegetation, Climate, and Soils. Vadose Zo, J, vol.11, 2012.

H. Kling, M. Fuchs, and M. Paulin, Runoff conditions in the upper Danube basin under an ensemble of climate change scenarios, J. Hydrol, vol.424, issue.425, pp.264-277, 2012.

P. Koeniger, M. Gaj, M. Beyer, and T. Himmelsbach, Review on soil water isotope-based groundwater recharge estimations, Hydrol. Process, vol.30, pp.2817-2834, 2016.

P. Koeniger, C. Leibundgut, T. Link, and J. D. Marshall, Stable isotopes applied as water tracers in column and field studies, Org. Geochem, vol.41, pp.31-40, 2010.

J. Bibliographie-kool, J. Parker, and M. Van-genuchten, Determining Soil Hydraulic Properties from One-step Outflow Experiments by Parameter Estimation: I. Theory and Numerical Studies1, Soil Sci. Soc. Am. J, vol.49, pp.1348-1354, 1985.

N. Kresic, Hydrogeology and groundwater modelling. Second Edition, CRC Presse, vol.828, p.p, 2007.

B. Kumar and R. P. Nachiappan, On the sensitivity of Craig and Gordon Model for the estimation of the isotopic composition of lake evaporates, Water Resour. Res, vol.35, pp.1689-1691, 1999.

Z. W. Kundzewicz and P. Döll, Will groundwater ease freshwater stress under climate change?, Hydrol. Sci. J, vol.54, pp.665-675, 2009.

,

N. Kurita, B. D. Newman, L. J. Araguas-araguas, and P. Aggarwal, On the calibration of continuous, high-precision ?18O and ?2H measurements using an off-axis integrated cavity output spectrometer, Atmos. Meas. Tech, vol.5, pp.2069-2080, 2012.

W. P. Kustas, A. Rango, and R. Uijlenhoet, A simple energy budget algorithm for the snowmelt runoff model, Water Resour. Res, vol.30, pp.1515-1527, 1994.

M. K. Landon, G. N. Delin, S. C. Komor, and C. P. Regan, Comparison of the stable-isotopic composition of soil water collected from suction lysimeters, wick samplers, and cores in a sandy unsaturated zone, J. Hydrol, vol.224, pp.45-54, 1999.

M. Larocque, G. Meyzonnat, M. A. Ouellet, M. H. Graveline, S. Gagné et al., Projet de connaissance des eaux souterraines de la zone de VaudreuilSoulanges -Rapport scientifique, 2015.

G. W. Leeper and N. C. Uren, Soil Science, an Introduction, 1993.

C. Leibundgut, P. Maloszewski, and C. Külls, , 2010.

F. J. Leij, W. B. Russel, and S. M. Lesch, Closed form expressions for water retention conductivity data, Ground Water, vol.35, pp.848-858, 1997.

D. N. Lerner, Groundwater recharge in urban areas, Atmos. Environ. Part B. Urban Atmos, vol.24, pp.29-33, 1990.

D. N. Lerner, O. M. Saether, and P. D. Caritat, Groundwater Recharge, Geochemical Processes, Weathering and Groundwater Recharge in Catchments, pp.109-150, 1997.

H. Li, Y. Zhang, F. Chiew, and S. Xu, Predicting runoff in ungauged catchments 167 by using Xinanjiang model with MODIS leaf area index, J. Hydrol, vol.370, pp.155-162, 2009.

H. Loáiciga, Sustainable ground-water exploitation, International Geology Review, vol.44, issue.12, pp.1115-1121, 2002.

A. Loukas and L. Vasiliades, Streamflow simulation methods for ungauged and poorly gauged watersheds, Nat. Hazards Earth Syst. Sci, vol.14, pp.1641-1661, 2014.

X. Lu, M. Jin, M. T. Van-genuchten, and B. Wang, Groundwater Recharge at Five Representative Sites in the Hebei Plain, China. Groundwater, vol.49, pp.286-294, 2011.

J. F. Lutz and R. W. Leamer, Pore-size distribution as related to the permeability of soils, Proc. Soil Sci. Soc. Am, vol.1939, issue.4, pp.28-31, 1940.

M. Maimone, Defining and Managing Sustainable Yield, vol.42, pp.809-814, 2004.

M. Majoube, Fractionnement en oxygène 18 et en deutérium entre l'eau et sa vapeur, J. Chim. Phys, vol.68, pp.1423-1436, 1971.

G. F. Makking, Testing the Penman formula by means of lysimeters, J. Inst. Water Eng, vol.11, pp.277-288, 1957.

P. Maloszewski and A. Zuber, Lumped parameter models for the interpretation of environmental tracer data, User's guide of Flowpc program, GSF-Inst. Für Hydrol, vol.52, 1994.

P. Maloszewski and A. Zuber, Lumped parameter models for the interpretation of environmental tracer data, Manual on Mathematical Models in Isotope Hydrogeology, IAEA-TECDOC-910, pp.9-58, 1996.

T. Mannschatz and P. Dietrich, Model Input Data Uncertainty and Its Potential Impact on Soil Properties, Sensitivity Analysis in Earth Observation Modelling, pp.25-52, 2017.

P. .. Martin and E. Frind, Modelling a complex multi aquifer system: the Waterloo moraine, Groundwater, vol.36, pp.679-690, 1998.

P. Martin, Y. Le-bissonnais, H. Benkhadra, L. Ligneau, and J. Ouvry, Mesures du ruissellement et de l'érosion diffuse engendrés par les pratiques culturales en Pays de Caux (Normandie)/Measurement of runoff and interrill erosion generated by cultivation practices in the, 1997.

, Géomorphologie Reli. Process. environnement, Juin, vol.3, 1997.

A. Mattei, F. Barbecot, S. Guillon, P. Goblet, J. Hélie et al., Improved accuracy and precision of water stable isotope measurements using the direct vapour equilibration method, Rapid Communications in Mass Spectrometry, 2019.

B. Mckay, M. D. Beckman, R. J. Conover, and W. J. , A Comparison of Three Methods for Selecting Values of Input Variables in the Analysis of Output from a Computer Code, Technometrics, vol.21, pp.239-245, 1979.

,

A. Melayah, L. Bruckler, and T. Bariac, Modeling the Transport of Water Stable Isotopes in Unsaturated Soils Under Natural Conditions: 1. Theory, Water Resour. Res, vol.32, issue.7, pp.2047-2054, 1996.
URL : https://hal.archives-ouvertes.fr/hal-02685704

A. Mermoud and D. Xu, Comparative Analysis of Three Methods to Generate Soil Hydraulic Functions, Soil Tillage Res, vol.87, pp.89-100, 2006.

,

J. Mertens, R. Stenger, and G. F. Barkle, Multiobjective Inverse Modelling for Soil Parameter Estimation and Model Verification, Vadose Zo. J, vol.5, pp.917-933, 2006.

R. Merz and G. Blöschl, Regionalisation of Catchment Model Parameters, J. Hydrol, vol.287, pp.95-123, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00304814

F. Mesinger, G. Dimego, E. Kalnay, K. Mitchell, P. C. Shafran et al., North American Regional Reanalysis, Bull. Am. Meteorol. Soc, vol.87, pp.343-360, 2006.

F. I. Morton, Operational estimates of areal evapo-transpiration and their significance to the science and practice of hydrology, J. Hydrol, vol.66, pp.1-76, 1983.

Y. Mualem, A new model for predicting the hydraulic conductivity of unsaturated porous media, Water Resour. Res, vol.12, pp.513-522, 1976.

,

M. H. Mueller, A. Alaoui, C. Kuells, H. Leistert, K. Meusburger et al., Tracking water pathways in steep hillslopes by ?18O depth profiles of soil water, J. Hydrol, vol.519, pp.340-352, 2014.

R. Myneni, Y. Knyazikhin, and T. Park, MCD15A3H MODIS/Terra+Aqua Leaf Area Index/FPAR 4-day L4 Global 500m SIN Grid V006, NASA EOSDIS Land Processes DAAC, 2015.

E. Oerter, K. Finstad, J. Schaefer, G. R. Goldsmith, T. Dawson et al., Oxygen isotope fractionation effects in soil water via interaction with cations (Mg, Ca, K, Na) adsorbed to phyllosilicate clay minerals, J. Hydrol, vol.515, pp.1-9, 2014.

E. J. Oerter, A. Perelet, E. Pardyjak, and G. Bowen, Membrane inlet laser spectroscopy to measure H and O stable isotope compositions of soil and sediment pore water with high sample throughput, Rapid Commun. Mass Spectrom, vol.31, pp.75-84, 2017.

, Intercomparison of models of snowmelt runoff, World Meteorological Organisation, issue.23, 1986.

J. R. O'neil and A. H. Truesdell, Oxygen isotope fractionation studies of solutewater interactions. Stable Isotope Geochem, p.17, 1991.

N. Orlowski, H. Frede, N. Brüggemann, and L. Breuer, Validation and application of a cryogenic vacuum extraction system for soil and plant water extraction for isotope analysis, J. Sens. Sens. Syst, vol.2, pp.179-193, 2013.

N. Orlowski, D. Pratt, and J. Mcdonnell, Intercomparison of soil pore water extraction methods for stable isotope analysis, Hydrological Processes, 2016.

N. Orlowski, L. Breuer, N. Angeli, P. Boeckx, C. Brumbt et al., Inter-laboratory comparison of cryogenic water extraction systems for stable isotope analysis of soil water, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01890692

, Hydrol. Earth Syst. Sci, vol.22, pp.3619-3637

L. Oudin, V. Andréassian, C. Perrin, C. Michel, and N. Le-moine, Spatial proximity, physical similarity, regression and ungaged catchments: A comparison of regionalization approaches based on 913 French catchments, Water Resour. Res, vol.44, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02590551

L. Oudin, A. Kay, V. Andréassian, and C. Perrin, Are seemingly physically similar catchments truly hydrologically similar?, Water Resour. Res, vol.46, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02594598

Y. Pachepsky, K. Smettem, J. Vanderborght, M. Herbst, H. Vereecken et al., Reality and fiction of models and data in soil hydrology, 2004.

C. Paniconi and M. Putti, Physically based modelling in catchment hydrology at 50: Survey and outlook, Water Resour. Res, vol.51, pp.7090-7129, 2015.

J. Parajka, A. Viglione, M. Rogger, J. L. Salinas, M. Sivapalan et al., Comparative assessment of predictions in ungauged basins – Part 1: Runoff-hydrograph studies, Hydrol. Earth Syst. Sci. Discuss, vol.17, pp.1783-1795, 2013.

R. J. Patterson, S. K. Frape, L. S. Dykes, and R. A. Mcleod, A coring and squeezing technique for the detailed study of subsurface water chemistry, Can. J. Earth Sci, vol.15, pp.162-169, 1978.

H. Penman, The role of vegetation in meteorology, soil mechanics and hydrology, Br. J. Appl. Phys, vol.2, p.145, 1951.

H. L. Penman, Natural evaporation from open water, bare soil and grass, Proc. R. Soc. London A Math. Phys. Eng. Sci, vol.193, pp.120-145, 1948.

,

C. Perrin, C. Michel, and V. Andréassian, Improvement of a Parsimonious Model for Streamflow Simulation, J. Hydrol, vol.279, pp.275-289, 2003.
URL : https://hal.archives-ouvertes.fr/hal-02581740

, , pp.225-232

C. Perrin, C. Michel, and V. Andréassian, Modèles hydrologiques du Génie Rural (GR), rapport, Cemagref, vol.16, p.p, 2007.

C. Peters-lidard, M. Mocko, D. Garcia, M. Santanello, J. et al., Role of precipitation uncertainty in the estimation of hydrologic soil properties using remotely sensed soil moisture in a semiarid environment, Water Resource Research, 2008.

O. Petit, La surexploitation des eaux souterraines : enjeux et gouvernance, Natures Sci. Sociétés, vol.12, pp.146-156, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00387211

C. H. Priestley and R. J. Taylor, On the Assessment of Surface Heat Flux and Evaporation Using Large-Scale Parameters, Mon. Weather Rev, vol.100, pp.81-92, 1972.

K. Revesz and P. H. Woods, A method to extract soil water for stable isotope analysis, J. Hydrol, vol.115, pp.397-406, 1990.

R. C. Rice, R. S. Bowman, and D. B. Jaynes, Percolation of Water Below an Irrigated Field1, Soil Sci. Soc. Am. J, vol.50, pp.855-859, 1986.

,

T. Richard, L. Mercury, M. Massault, and J. Michelot, Experimental study of D/H isotopic fractionation factor of water adsorbed on porous silica tubes, Geochim. Cosmochim. Acta, vol.71, pp.1159-1169, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00377067

,

L. A. Richards, CAPILLARY CONDUCTION OF LIQUIDS THROUGH POROUS MEDIUMS, Physics (College. Park. Md), vol.1, pp.318-333, 1931.

C. Risi, Les isotopes stables de l'eau: Applications à l'étude du cycle de l'eau et des variations du climat, 2009.

J. Ritchie, A Model for Predicting Evaporation From a Low Crop With Incomplete Cover, Water Resour. Res. -WATER RESOUR RES, vol.8, 1972.

A. Ritter, F. Hupet, R. Muñoz-carpena, S. Lambot, and M. Vanclooster, Using inverse methods for estimating soil hydraulic properties from field data as an alternative to direct methods, Agric. Water Manag, vol.59, pp.77-96, 2003.

, , pp.160-169

R. B. Salama, P. Farrington, G. A. Bartle, and G. D. Watson, Distribution of recharge and discharge areas in a first-order catchment as interpreted from water level patterns, J. Hydrol, vol.143, pp.259-277, 1993.

,

A. Saltelli, Sensitivity Analysis for Importance Assessment, Risk Anal, vol.22, pp.579-590, 2002.

B. R. Scanlon, R. W. Healy, and P. G. Cook, Choosing appropriate techniques for quantifying groundwater recharge, Hydrogeol. J, vol.10, pp.18-39, 2002.

,

B. Scharnagl, J. A. Vrugt, H. Vereecken, and M. Herbst, Inverse modelling of in situ soil water dynamics: investigating the effect of different prior distributions of the soil hydraulic parameters, Hydrol. Earth Syst. Sci, vol.15, pp.3043-3059, 2011.

M. Schmidt, K. Maseyk, C. Lett, P. Biron, P. Richard et al., Concentration effects on laser-based 18 O and 2 H measurements and implications for the calibration of vapour data with liquid standards, Rapid Commun Mass Spectrom, vol.24, pp.3553-3561, 2010.

S. Seeger and M. Weiler, Reevaluation of transit time distributions, mean transit times and their relation to catchment topography, Hydrol. Earth Syst. Sci, vol.18, pp.4751-4771, 2014.

M. Shamsudduha, R. G. Taylor, and L. Longuevergne, Monitoring groundwater storage changes in the highly seasonal humid tropics: Validation of GRACE measurements in the Bengal Basin, Water Resour. Res, vol.48, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00708224

M. L. Sharma, Measurement and prediction of natural groundwater recharge an overview, J. Hydrol, vol.25, pp.49-56, 1986.

E. M. Shaw, . Chapman, . Hall, U. K. London, and I. Simmers, Estimation of Natural Groundwater Recharge, 1983.

J. Simunek-jirka, H. Saito, M. Sakai, and M. Van-genuchten, The HYDRUS-1D Software Package for Simulating the One-Dimensional Movement of Water, Heat, and Multiple Solutes in Variably, 2008.

M. Sivapalan, K. Takeuchi, S. W. Franks, V. K. Gupta, H. Karambiri et al., Shaping an exciting future for the hydrological sciences, IAHS Decade on Predictions in Ungauged Basins (PUB), vol.48, pp.857-880, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00711790

,

G. Skrzypek, A. Myd?owski, S. Dogramaci, P. Hedley, J. J. Gibson et al., Estimation of evaporative loss based on the stable isotope composition of water using Hydrocalculator, J. Hydrol, vol.523, pp.781-789, 2015.

,

G. I. Smith, I. Friedman, H. Klieforth, and K. Hardcastle, Areal Distribution of Deuterium in Eastern California Precipitation, 1968-1969, J. Appl. Meteorol, vol.18, pp.172-188, 1979.

I. M. Sobol?, Global sensitivity indices for nonlinear mathematical models and their Monte Carlo estimates, Math. Comput. Simul, vol.55, pp.270-276, 2001.

M. Sophocleous, The Origin and Evolution of Safe-Yield Policies in the Kansas Groundwater Management Districts, Nat. Resour. Res, vol.9, pp.99-110, 2000.

R. Souchez, . Lorrain-r, and J. L. Tison, Stable water isotopes and the physical environment, Belgeo, vol.2, pp.133-144, 2002.

M. Sprenger, B. Herbstritt, and M. Weiler, Established methods and new opportunities for pore water stable isotope analysis, Hydrol. Process, vol.29, pp.5174-5192, 2015.

M. Sprenger, H. Leistert, K. Gimbel, and M. Weiler, Illuminating hydrological processes at the soil-vegetation-atmosphere interface with water stable isotopes, Rev. Geophys, vol.54, pp.674-704, 2016.

M. Sprenger, S. Seeger, T. Blume, and M. Weiler, Travel times in the vadose zone: Variability in space and time, Water Resour. Res, vol.52, pp.5727-5754, 2016.

M. Sprenger, D. Tetzlaff, J. Buttle, H. Laudon, H. Leistert et al., Measuring and Modelling Stable Isotopes of Mobile and Bulk Soil Water. Vadose Zo, p.17, 2018.

M. Sprenger, T. H. Volkmann, T. Blume, and M. Weiler, Estimating flow and transport parameters in the unsaturated zone with pore water stable isotopes, Hydrol. Earth Syst. Sci, vol.19, pp.2617-2635, 2015.

,

C. Stumpp, N. Brüggemann, and L. Wingate, Stable Isotope Approaches in Vadose Zone Research. Vadose Zo, J, vol.17, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02621833

C. Stumpp and M. J. Hendry, Spatial and temporal dynamics of water flow and solute transport in a heterogeneous glacial till: The application of highresolution profiles of ?18O and ?2H in pore waters, J. Hydrol, vol.438, pp.203-214, 2012.

C. Stumpp, P. Maloszewski, W. Stichler, and S. Maciejewski, Quantification of the heterogeneity of the unsaturated zone based on environmental deuterium 173 observed in lysimeter experiments, Hydrol. Sci. J, vol.52, pp.748-762, 2007.

C. Stumpp, W. Stichler, M. Kandolf, and J. ?im?nek, Effects of Land Cover and Fertilization Method on Water Flow and Solute Transport in Five Lysimeters: A Long-Term Study Using Stable Water Isotopes. Vadose Zo, J, vol.11, 2012.

S. Sutanto, J. Wenninger, M. Coenders-gerrits, and S. Uhlenbrook, Partitioning of evaporation into transpiration, soil evaporation and interception: A comparison between isotope measurements and a HYDRUS-1D model, Hydrology and Earth System Sciences, 2012.

R. Taylor, B. Scanlon, P. Doell, M. Rodell, R. Van-beek et al., Ground water and climate change, Nat. Clim. Chang, vol.3, pp.322-329, 2013.

R. Therrien, R. G. Mclaren, E. A. Sudicky, and S. M. Panday, HydroGeoSphere: a three-dimensional numerical model describing fully-integrated subsurface and surface flow and solute transport, 2010.

C. W. Thornthwaite and J. R. Mather, Water balance publication in climatology, Drexel Ins. of Tech, vol.8, issue.1, 1955.

C. W. Thornthwaite and D. Todd, An Approach toward a Rational Classification of Climate, Geographical Review, vol.38, issue.1, pp.55-94, 1948.

G. Tremoy, F. Vimeux, O. Cattani, S. Mayaki, I. Souley et al., Measurements of water vapor isotope ratios with wavelength-scanned cavity ring-down spectroscopy technology: New insights and important caveats for deuterium excess measurements in tropical areas in comparison with isotoperatio mass spectrometry, Rapid communications in mass spectrometry, 2011.

J. J. Tromble, K. G. Renard, and A. P. Thatcher, Infiltration for three rangeland soil-vegetation complexes, Journal of Range Management, vol.27, pp.318-321, 1974.

W. Usher, J. Herman, and C. Mutel, Contains Sobol, Morris, Fractional Factorial and FAST methods, 2015.

,

A. Valéry, Modélisation précipitations -débit sous influence nivale 174, 2010.

, Bibliographie Elaboration d'un module neige et évaluation sur 380 bassins versants, p.405

M. Van-genuchten, A Closed-form Equation for Predicting the Hydraulic Conductivity of Unsaturated Soils1, Soil Science Society of America Journal, 1980.

M. Van-genuchten and P. J. Wierenga, Mass Transfer Studies in Sorbing Porous Media I. Analytical Solutions, Soil Sci. Soc. Am. J, vol.40, pp.473-480, 1976.

M. T. Van-genuchten and P. J. Wierenga, Mass Transfer Studies in Sorbing Porous Media: II. Experimental Evaluation with Tritium (3H2O)1, Soil Sci. Soc. Am. J, vol.41, pp.272-278, 1977.

,

J. Vanderborght and H. Vereecken, One-Dimensional Modelling of Transport in Soils with Depth-Dependent Dispersion, Sorption and Decay. Vadose Zo, J, vol.6, pp.140-148, 2007.

J. A. Velázquez, J. Schmid, S. Ricard, M. J. Muerth, G. St-denis et al., An ensemble approach to assess hydrological models' contribution to uncertainties in the analysis of climate change impact on water resources, Hydrol. Earth Syst. Sci, vol.17, pp.565-578, 2013.

H. Vereecken, J. A. Huisman, H. Bogena, J. Vanderborght, J. A. Vrugt et al., On the value of soil moisture measurements in vadose zone hydrology: A review, Water Resour. Res, vol.44, 2008.

H. Vereecken, M. Weynants, M. Javaux, Y. Pachepsky, G. Schaap et al., Using Pedotransfer Functions to Estimate the van Genuchten-Mualem Soil Hydraulic Properties: A Review. Vadose Zo, J, vol.9, pp.795-820, 2010.

T. H. Volkmann and M. Weiler, Continual in situ monitoring of pore water stable isotopes in the subsurface, Hydrol. Earth Syst. Sci, vol.18, pp.1819-1833, 2014.

J. A. Vrugt, C. J. Ter-braak, M. P. Clark, J. M. Hyman, and B. A. Robinson, Treatment of input uncertainty in hydrologic modelling: Doing hydrology backward with Markov chain Monte Carlo simulation, Water Resour. Res, vol.44, 2008.

Y. Wada, L. P. Van-beek, C. M. Van-kempen, J. W. Reckman, S. Vasak et al., Global depletion of groundwater resources, Geophys. Res. Lett, vol.37, 2010.

T. Wagener, S. Wheater, and H. , Parameter Estimation and Regionalization for Continuous Rainfall-Runoff Models Including Uncertainty, J. Hydrol, vol.320, pp.132-175, 2006.

,

L. Wang, K. K. Caylor, and D. Dragoni, On the calibration of continuous, highprecision ?18O and ?2H measurements using an off-axis integrated cavity output spectrometer, Rapid Commun. Mass Spectrom, vol.23, pp.530-536, 2009.

T. Wang, T. E. Franz, W. Yue, J. Szilagyi, V. A. Zlotnik et al., Feasibility analysis of using inverse modelling for estimating natural groundwater recharge from a large-scale soil moisture monitoring network, J. Hydrol, vol.533, pp.250-265, 2016.

,

A. L. Ward and G. W. Gee, Performance Evaluation of a Field-Scale Surface Barrier, J. Environ. Qual, vol.26, pp.694-705, 1997.

,

L. Wassenaar, M. Hendry, V. Chostner, and G. Lis, High resolution pore water delta2H and delta18O measurements by H2O(liquid)-H2O(vapor) equilibration laser spectroscopy, Environ. Sci. Technol, vol.42, pp.9262-9267, 2008.

S. Westenbroek, V. Kelson, W. Dripps, R. Hunt, and K. Bradbury, SWB--a Modified Thornthwaite-Mather Soil-Water-Balance Code for Estimating Groundwater Recharge, US Geol. Surv. Tech. Methods Rep, p.79, 2009.

B. R. Whelan and N. J. Barrow, A Study of a Method for Displacing Soil Solution by Centrifuging with an Immiscible Liquid1, J. Environ. Qual, vol.9, pp.315-319, 1980.

T. Wöhling, J. A. A4--vrugt, G. F. A4--barkle, T. A. , and -. , Comparison of Three Multiobjective Optimization Algorithms for Inverse Modelling of Vadose Zone Hydraulic Properties, Soil Sci. Soc. Am. J. v, vol.72, issue.2, pp.305-319, 2008.

T. Wöhling and J. A. Vrugt, Multiresponse multilayer vadose zone model calibration using Markov chain Monte Carlo simulation and field water retention data, Water Resour. Res, vol.47, 2011.

M. K. Wood and W. Blackburn, Grazing systems: their influence on infiltration rates in the rolling Plains of Texas, Journal of Range Management, vol.34, pp.331-335, 1981.

C. Xu and D. Chen, Comparison of seven models for estimation of evapotranspiration and groundwater recharge using lysimeter measurement data in Germany, Hydrol. Process, vol.19, pp.3717-3734, 2005.

,

U. Zimmermann, K. O. Münnich, and W. Roether, Downward Movement of Soil Moisture Traced by Means of Hydrogen Isotopes, in: Isotope Techniques in the Hydrologic Cycle, pp.28-36, 2013.

, Mode liquide *10 injections ont été réalisées pour chaque concentration en H2O testés. Ici la moyenne des 5 dernières injections est présentée

, Comparaisons mensuelles des précipitations mesurées à la station Coteau-du-Lac et estimées par le modèle de réanalyse NARR pour les années 2016, vol.4, 2017.

, Présentation des résultats préliminaires dans la région d, vol.8, 2018.

, Les précipitations sont présentées en bleu et la composition isotopique de l'eau porale en marron