Auterives, C., 2007. Hydrological and hydrochemical setting of a peatland connected to a regional aquifer: Contentińs peatlands in Normandy, NW-France (In French).
Auterives C., Aquilina L., Bour O., Davranche M., Paquereau V. Contribution of climatic and anthropogenic effects to the hydric deficit of peatlands. Hydrol Process 2011, 25.
Baize, S., 1998. Tectonique, eustatisme et climat dans un sytème géomorphologique cotier. Le Nord-Ouest de la France au Plio-Pléistocène: exemple du Cotentin.
Barron O., et al. Climate change effects on water-dependent ecosystems in south-western Australia. J. Hydrol. 2012, 434-435:95-109.
Boé J., Terray L., Martin E., Habets F. Projected changes in components of the hydrological cycle in French river basins during the 21st century. Water Resour. Res. 2009, 45(8). W08426-W08426.
Botch M.S., Kobak K.I., Vinson T.S., Kolchugina T.P. Carbon pools and accumulation in peatlands of the former Soviet Union. Global Biogeochem. Cycles 1995, 9(1). 37-37.
Bougon N., Auterives C., Aquilina L. Nitrate and sulphate dynamics in peat subjected to different hydrological conditions: Batch experiments and field comparison. J. Hydrol. 2011, 411:12-24.
Bouillon-Launay, E., 1992. Intérêt des indicateurs hydropédologiques dans la gestion raisonnée des zones humides. PhD Thesis, Université de Caen.
Bradley C. Simulation of the annual water table dynamics of a floodplain wetland, Narborough Bog, UK. J. Hydrol. 2002, 261:150-172.
Candela L., von Igel W., Javier Elorza F., Aronica G. Impact assessment of combined climate and management scenarios on groundwater resources and associated wetland (Majorca, Spain). J. Hydrol. 2009, 376(3-4):510-527.
Christensen N.S., Wood A.W., Voisin N. The effects of climate change on the hydrology and water resources of the Colorado River basin. Climatic Change 2004, 62(1-3):337-363.
De Ridder, J., Aquilina, L., Francez, A.J., Davranche, M., Nunes, F., 2012. Sulphate release under draining-rewetting constraints in peat. Submitted manuscript.
Ducharne, A., Habets, F., Déqué, M., Evaux, L., 2009. Projet RExHySS: Impact du changement climatique sur les Ressources en eau et les Extrêmes Hydrologiques dans les bassins de la Seine et la Somme.
Ebel B.A., Mirus B.B., Heppner C.S., VanderKwaak J.E., Loague K. First-order exchange coefficient coupling for simulating surface water-groundwater interactions: parameter sensitivity and consistency with a physics-based approach. Hydrol. Process. 2009, 23(13):1949-1959.
Fowler H.J., Blenkinsop S., Tebaldi C. Linking climate change modelling to impacts studies : recent advances in downscaling techniques for hydrological. 2007, 1578:1547-1578.
Fowler H.J., Blenkinsop S., Tebaldi C. Linking climate change modelling to impacts studies: recent advances in downscaling techniques for hydrological modelling. Int. J. Climatol. 2007, 27(12):1547-1578.
Frei S., Lischeid G., Fleckenstein J.H. Effects of micro-topography on surface-subsurface exchange and runoff generation in a virtual riparian wetland - A modeling study. Adv. Water Resour. 2010, 33(11):1388-1401.
Goderniaux P., et al. Large scale surface-subsurface hydrological model to assess climate change impacts on groundwater reserves. J. Hydrol. 2009, 373(1-2):122-138.
Goderniaux P., et al. Modeling climate change impacts on groundwater resources using transient stochastic climatic scenarios. Water Resour. Res. 2011, 47(12). W12516-W12516.
Goderniaux P., Davy P., Bresciani E., De Dreuzy J.R., Le Borgne T. Partitioning a regional groundwater flow system into shallow local and deep regional flow compartments. Water Resour. Res. 2013, 49(4):2274-2286.
Grapes T.R., Bradley C., Petts G.E. Hydrodynamics of floodplain wetlands in a chalk catchment: The River Lambourn, UK. J Hydrol 2006, 320(3-4):324-341.
Green T.R., et al. Beneath the surface of global change: Impacts of climate change on groundwater. J. Hydrol. 2011, 405(3-4):532-560.
Harbaugh, A.W., 2005. MODFLOW-2005: The US Geological Survey Modular Ground-water Model-the Ground-water Flow Process.
Hemond H.F., Benoit J. Cumulative impacts on water quality functions of wetlands. Environ. Manage. 1988, 12(5):639-653.
Herrera-Pantoja M., Hiscock K.M. The effects of climate change on potential groundwater recharge in Great Britain. Hydrol. Process. 2008, 22(1):73-86.
Herrera-Pantoja M., Hiscock K.M., Boar R.R. The potential impact of climate change on groundwater-fed wetlands in eastern england. Ecohydrology 2012, 5(4):401-413.
Hill M.C. The practical use of simplicity in developing ground water models. GroundWater 2006, 44(6):775-810.
Holden J., Chapman P.J., Labadz J.C. Artificial drainage of peatlands: hydrological and hydrochemical process and wetland restoration. Prog. Phys. Geogr. 2004, 28:95-123.
Holman I.P., Allen D.M., Cuthbert M.O., Goderniaux P. Towards best practice for assessing the impacts of climate change on groundwater. Hydrogeol. J. 2011, 20(1):1-4.
Hunt R.J., Zheng C. Debating Complexity in Modeling. Eos, Transactions American Geophysical Union 1999, 80(3):29.
Johnson G.A.L., Dunham K.C. The geology of Moorhouse: a national nature reserve in north-east Westmoorland 1963, HMSO, London.
Johnston C.A. Sediment and nutrient retention by freshwater wetlands: Effects on surface water quality. Crit. Rev. Environ. Control 1991, 21(5-6):491-565.
Jones J.P., Sudicky E.A., McLaren R.G. Application of a fully-integrated surface-subsurface flow model at the watershed-scale: A case study. Water Resour. Res. 2008, 44(3).
Kasimir-Klemedtsson Å., et al. Greenhouse gas emissions from farmed organic soils: a review. Soil Use Manage. 1997, 13(4):245-250.
Liggett J.E., Knowling M.J., Werner A.D., Simmons C.T. On the implementation of the surface conductance approach using a block-centred surface-subsurface hydrology model. J. Hydrol. 2013, 496:1-8.
Lischeid G., et al. Assessing coupling between lakes and layered aquifers in a complex Pleistocene landscape based on water level dynamics. Adv. Water Res. 2010, 33(11, SI):1331-1339.
Mouelhi S., Michel C., Perrin C., Andréassian V. Stepwise development of a two-parameter monthly water balance model. J. Hydrol. 2006, 318(1-4):200-214.
Nash J.E., Sutcliffe J.V. River flow forecasting through conceptual models part I - A discussion of principles. J. Hydrol. 1970, 10(3):282-290.
Oudin L., Andréassian V., Mathevet T., Perrin C., Michel C. Dynamic averaging of rainfall-runoff model simulations from complementary model parameterizations. Water Resour. Res. 2006, 42(7). W07410-W07410.
Pagé, C., Terray, L., Boé, J., 2009. dsclim: A software package to downscale climate scenarios at regional scale using a weather-typing based statistical methodology.
Prigent C., et al. Changes in land surface water dynamics since the 1990s and relation to population pressure. Geophys. Res. Lett. 2012, 39(8):2-6.
Reeve A.S., Siegel D.I., Glaser P.H. Simulating vertical flow in large peatlands. J. Hydrol. 2000, 227(1-4):: 207-217.
Refsgaard J.C., van der Sluijs J.P., Brown J., van der Keur P. A framework for dealing with uncertainty due to model structure error. Adv. Water Resour. 2006, 29(11):1586-1597.
Roulet N.T. Peatlands, carbon storage, greenhouse gases, and the Kyoto Protocol: Prospects and significance for Canada. Wetlands 2000, 20(4):605-615.
Scibek J., Allen D.M., Cannon A.J., Whitfield P.H. Groundwater-surface water interaction under scenarios of climate change using a high-resolution transient groundwater model. J. Hydrol. 2007, 333(2-4):165-181.
Silins U., Rothwell R.L. Forest Peatland drainage and subsidence affect soil water retention and transport properties in an alberta Peatland. Soil Sci. Soc. Am. J. 1998, 62(4):1048-1056.
Solomon, S. et al., 2007. Climate Change 2007 - The Physical Science Basis: Working Group I Contribution to the Fourth Assessment Report of the IPCC, Cambridge, UK and New York, NY, USA.
Thompson J.R., Gavin H., Refsgaard A., Sorenson H.R., Gowing D.J. Modelling the hydrological impacts of climate change on UK lowland wet grassland. Wetlands Ecol. Manage. 2009, 17(5):503-523.
Turunen J., Tomppo E., Tolonen K., Reinikainen A. Estimating carbon accumulation rates of undrained mires in Finland - application to boreal and subarctic regions. The Holocene 2002, 12(1):69-80.
van Roosmalen L., Sonnenborg T.O., Jensen K.H. Impact of climate and land use change on the hydrology of a large-scale agricultural catchment. Water Resour. Res. 2009, 45(45). W00A15-W00A15.
Wilsnack M.M., Welter D.E., Montoya A.M., Restrepo J.I., Obeysekera J. Simulating flow in regional wetlands with the modflow wetlands package. J. Am. Water Res. Assoc. 2001, 37(3):655-674.
Winter T.C. Relation of streams, lakes, and wetlands to groundwater flow systems. Hydrogeol. J. 1999, 28-45. (September 1998).
Woldeamlak S.T., Batelaan O., De Smedt F. Effects of climate change on the groundwater system in the Grote-Nete catchment, Belgium. Hydrogeol. J. 2007, 15(5):891-901.