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(2017)
Global Network of Isotopes in Precipitation. The GNIP Database
D. Penna, M. Engel, L. Mao, A. Dell'Agnese, G. Bertoldi, F. Comiti (2014)
Tracer-based analysis of spatial and temporal variations of water sources in a glacierized catchmentHydrology and Earth System Sciences, 18
M. Zappa, T. Vitvar, A. Rücker, G. Melikadze, L. Bernhard, V. David, M. Jans-Singh, N. Zhukova, M. Šanda (2015)
A Tri-National program for estimating the link between snow resources and hydrological droughts, 369
(1974)
The underground runoff separation method making use of the observation of groundwater table. (In Czech with English abstract)
M. Šanda, T. Vitvar, A. Kulasová, J. Jankovec, M. Císlerová (2014)
Run‐off formation in a humid, temperate headwater catchment using a combined hydrological, hydrochemical and isotopic approach (Jizera Mountains, Czech Republic)Hydrological Processes, 28
C. Maulé, D. Chanasyk, K. Muehlenbachs (1994)
Isotopic determination of snow-water contribution to soil water and groundwaterJournal of Hydrology, 155
W. Darling, A. Bath, J. Talbot (2003)
The O and H stable isotope composition of freshwaters in the British Isles. 2. Surface waters and groundwaterHydrology and Earth System Sciences, 7
IAEA (2017)
Global Network of Isotopes in Precipitation The Accessible at http www iaea org waterDatabase
Jasechko
to late shifts in global precipitation δHolocene Past, 18
M. O’Driscoll, D. Dewalle, K. McGuire, W. Gburek (2005)
Seasonal 18O variations and groundwater recharge for three landscape types in central Pennsylvania, USAJournal of Hydrology, 303
J. Turner, D. Macpherson, R. Stokes (1987)
The mechanisms of catchment flow processes using natural variations in deuterium and oxygen-18Journal of Hydrology, 94
J. Votrubova, M. Dohnal, T. Vogel, M. Šanda, M. Tesař (2017)
Episodic runoff generation at Central European headwater catchments studied using water isotope concentration signalsJournal of Hydrology and Hydromechanics, 65
C. Soulsby, D. Tetzlaff, M. Hrachowitz (2010)
Spatial distribution of transit times in montane catchments: conceptualization tools for managementHydrological Processes, 24
M. Demlie, S. Wohnlich, Birhanu Gizaw, W. Stichler (2007)
Groundwater recharge in the Akaki catchment, central Ethiopia: evidence from environmental isotopes (δ18O, δ2H and 3H) and chloride mass balanceHydrological Processes, 21
Demlie (2007)
Groundwater recharge in the Akaki Catchment Central Evidence from Environmental Isotopes δ δ chloride mass balanceProc, 18
J. Jankovec, T. Vitvar, M. Šanda, Takuya Matsumoto, Liangfeng Han (2017)
Groundwater recharge and residence times evaluated by isotopes of hydrogen and oxygen, noble gases and CFCs in a mountain catchment in the Jizera Mts., northern Czech RepublicGeochemical Journal, 51
IAEA (2017)
Global Network of Isotopes in Rivers The Accessible at http www iaea org waterDatabase
L. Pfister, N. Martínez-Carreras, C. Hissler, J. Klaus, G. Carrer, Michael Stewart, J. McDonnell (2017)
Bedrock geology controls on catchment storage, mixing, and release: A comparative analysis of 16 nested catchmentsHydrological Processes, 31
M. Hrachowitz, C. Soulsby, D. Tetzlaff, J. Dawson, I. Malcolm (2009)
Regionalization of transit time estimates in montane catchments by integrating landscape controlsWater Resources Research, 45
Antonín Nikodem, R. Kodešová, L. Bubeníčková (2013)
Simulation of the influence of rainfall redistribution in spruce and beech forest on the leaching of Al and SO4 2- from forest soils, 61
F. Fenicia, H. Savenije, P. Matgen, L. Pfister (2005)
Is the groundwater reservoir linear? Learning from data in hydrological modellingHydrology and Earth System Sciences, 10
Michael Reddy, P. Schuster, C. Kendall, M. Reddy (2006)
Characterization of surface and ground water δ18O seasonal variation and its use for estimating groundwater residence timesHydrological Processes, 20
J. Arnold, P. Allen, R. Muttiah, Gilbert Bernhardt (1995)
Automated Base Flow Separation and Recession Analysis TechniquesGround Water, 33
Holko (2014)
odtok horskom povodí Jaloveckého potoka hydrologických rokochActa, 15
M. Hrnčíř, M. Šanda, A. Kulasová, M. Císlerová (2010)
Runoff formation in a small catchment at hillslope and catchment scalesHydrological Processes, 24
M. O’Driscolla, D. DeWalleb, K. McGuirec, W. Gburekd (2005)
Seasonal 18 O variations and groundwater recharge for three landscape types in central Pennsylvania , USA
D. Lapworth, A. MacDonald, M. Tijani, W. Darling, D. Gooddy, H. Bonsor, L. Araguás‐Araguás (2013)
Residence times of shallow groundwater in West Africa: implications for hydrogeology and resilience to future changes in climateHydrogeology Journal, 21
Vitvar (2016)
and isotopic tracing of runoff generation in the small mountainous catchment Uhlířská Republic using the Netpath approachActa, 17
Jeffrey McDonnell, Kevin McGuire, Pradeep Aggarwal, Keith Beven, Daniela Biondi, Georgia Destouni, Sarah Dunn, April James, James Kirchner, Philipp Kraft, Steve Lyon, P. Maloszewski, B. Newman, Laurent Pfister, Andrea Rinaldo, A. Rodhe, Takahiro Sayama, Jan Seibert, K. Solomon, C. Soulsby, Michael Stewart, D. Tetzlaff, C. Tobin, Peter Troch, M. Weiler, A. Western, A. Wörman, S. Wrede (2010)
How old is streamwater? Open questions in catchment transit time conceptualization, modelling and analysisHydrological Processes, 24
S. Jasechko, A. Lechler, F. Pausata, P. Fawcett, T. Gleeson, D. Cendón, J. Galewsky, A. Legrande, C. Risi, Z. Sharp, J. Welker, M. Werner, K. Yoshimura (2015)
Late-glacial to late-Holocene shifts in global precipitation δ 18 OClimate of The Past, 11
A. Loon, S. Ploum, J. Parajka, A. Fleig, E. Garnier, G. Laaha, H. Lanen (2015)
Hydrological drought types in cold climates: quantitative analysis of causing factors and qualitative survey of impactsHydrology and Earth System Sciences, 19
T. Vitvar, M. Šanda, A. Marx, Elena Hubert, J. Jankovec, J. Barth (2017)
HYDROCHEMICAL AND ISOTOPIC TRACING OF RUNOFF GENERATION IN THE SMALL MOUNTAINOUS CATCHMENT UHLÍŘSKÁ (CZECH REPUBLIC), USING THE NETPATH APPROACH
A. Loon, G. Laaha (2015)
Hydrological drought severity explained by climate and catchment characteristicsJournal of Hydrology, 526
S. Jasechko, S. Birks, T. Gleeson, Y. Wada, P. Fawcett, Z. Sharp, J. McDonnell, J. Welker (2014)
The pronounced seasonality of global groundwater rechargeWater Resources Research, 50
(2014)
Základný odtok v horskom povodí Jaloveckého potoka v hydrologických rokoch 1988–2013
(2015)
Lateglacial to late-Holocene shifts in global precipitation δ18O
T. Sayama, J. McDonnell, A. Dhakal, K. Sullivan (2011)
How much water can a watershed store?Hydrological Processes, 25
V. Hale, J. McDonnell (2016)
Effect of bedrock permeability on stream base flow mean transit time scaling relations: 1. A multiscale catchment intercomparisonWater Resources Research, 52
M. Dósa, L. Holko, Z. Kostka (2011)
Estimation of the mean transit times using isotopes and hydrograph recessions
(2017)
Global Network of Isotopes in Rivers. The GNIR Database
J. Kirchner (2015)
Aggregation in environmental systems – part 2: catchment mean transit times and young water fractions under hydrologic nonstationarityHydrology and Earth System Sciences, 20
S. Earman, A. Campbell, F. Phillips, B. Newman (2006)
Isotopic exchange between snow and atmospheric water vapor: Estimation of the snowmelt component of groundwater recharge in the southwestern United StatesJournal of Geophysical Research, 111
W. Darling, A. Bath, J. Talbot (1996)
194 O & H stable isotopic composition of fresh waters in the British Isles. 2. Surface waters and groundwater
Kliner (1974)
The underground runoff separation method making use of the observation of groundwater table In with abstractEnglish Hydrol Hydromech, 22
Journal of Hydrology and Hydromechanics – de Gruyter
Published: Mar 1, 2019
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