12 References

Roger E. Diamond

12 References

Abouelmagd, A., M. Sultan, A. Milewski, A.E. Kehew, N.C. Sturchio, F. Soliman, R.V. Krishnamurthy, and E. Cutrim, 2012, Toward a better understanding of palaeoclimatic regimes that recharged the fossil aquifers in North Africa: Inferences from stable isotopes and remote sensing data. Palaeogeography, Palaeoclimatology, Palaeoecology, volume 329-330, 13 pages, doi:10.1016/j.palaeo.2012.02.024.

Adar, E.M., A. Dody, M.A. Geyh, A. Yair, A. Yakirevich, and A.S. Issar, 1998, Distribution of stable isotopes in arid storms I. Relation between the distribution of isotopic composition in rainfall and in consequent runoff. Hydrogeology Journal, volume 6, 16 pages, doi:10.1007/s100400050133.

Al-Charideh, A. and B. Kattaa, 2016, Isotope hydrology of deep groundwater in Syria: renewable and non-renewable groundwater and paleoclimate impact. Hydrogeology Journal, volume 24, 20 pages, doi:10.1007/s10040–015–1324–4.

Al Faitouri, M. and W.E. Sanford, 2015, Stable and radio-isotope analysis to determine recharge timing and paleoclimate of sandstone aquifers in central and southeast Libya. Hydrogeology Journal, volume 23, 11 pages, doi:10.1007/s10040–015–1232–7.

Alison, G.B. and M.W. Hughes, 1983, The use of natural tracers as indicators of soil-water movement in a temperate semi-arid region. Journal of Hydrology, volume 60, 17 pages, doi:10.1016/0022–1694(83)90019–7.

Andrews, J.E., 2006, Palaeoclimatic records from stable isotopes in riverine tufas: Synthesis and reviews. Earth Science Reviews, volume 75, 20 pages, doi:10.1016/j.earscirev.2005.08.002.

Antunes, P., D.F. Boutt, and F.C. Rodrigues, 2019, Orographic distillation and spatio-temporal variations of stable isotopes in precipitation in the North Atlantic. Hydrological Processes, volume 33, 19 pages, doi:10.1002/hyp.13362.

Araguás-Araguás, L., K. Froehlich, and K. Rozanski, 1998, Stable isotope composition of precipitation over southeast Asia. Journal of Geophysical Research, volume 103, number D22, 22 pages, doi:10.1029/98JD02582.

Araguás-Araguás, L., K. Froehlich, and K. Rozanski, 2000, Deuterium and oxygen-18 isotope composition of precipitation and atmospheric moisture. Hydrological Processes, volume 14, 15 pages, doi:10.1002/1099–1085(20000615)14:8<1341::AID–HYP983>3.0.CO;2–Z.

Baloyi, R.S. and R.E. Diamond, 2019, Variable water quality of domestic wells emphasizes the need for groundwater quality monitoring and protection: Stinkwater, Hammanskraal, Gauteng. Water SA, volume 45, 9 pages, doi:10.4314/wsa.v45i2.08.

Beven, K.J., 2001, Rainfall-Runoff Modelling – The Primer. John Wiley and Sons, Ltd., New York, 488 pages.

Biggs, T.W., C.T. Lai, P. Chandan, R.M. Lee, A. Messina, R.S. Lesher, and N. Khatoon, 2015, Evaporative fractions and elevation effects on stable isotopes of high elevation lakes and streams in arid western Himalaya. Journal of Hydrology, volume 522, 11 pages, doi:10.1016/j.jhydrol.2014.12.023.

Blarasin, M., A. Cabrera, I. Matiatos, V. Lutri, L. Maldonado, D. Giacobone, E. Matteoda, F.B. Quinodoz, J.G. Albo, C.E. Felizzia, and J. Felizzia, 2020, Application of isotope techniques to enhance the conceptual hydrogeological model and to assess groundwater sustainability in the Pampean Plain in Cordoba, Argentina. Isotopes in Environmental and Health Studies, volume 56, 16 pages, doi:10.1080/10256016.2020.1796658.

Bodé, S., L. de Wispelaere, A. Hemp, D. Verschuren, and P. Boeckx, 2019, Water-isotope ecohydrology of Mount Kilimanjaro. Ecohydrology, volume 13, issue 1, 19 pages, doi:10.1002/eco.2171.

Boschetti, T., J. Cifuentes, P. Iacumin, and E. Selmo, 2019, Local meteoric water line of northern Chile (18-30°S): An application of error-in-variables regression to the oxygen and hydrogen stable isotope ratio of precipitation. Water, volume 11, issue 4, 791 pages, doi:10.3390/w11040791.

Bosman, H.H., 1981, Raingauges: Quality pays. Water SA, volume 7, 2 pages.

Camacho Suarez, V.V., A.M. Saraiva Okello, J.W. Wenninger, and S. Uhlenbrook, 2015, Understanding runoff processes in a semi-arid environment through isotope and hydrochemical hydrograph separations. Hydrology and Earth System Sciences, volume 19, 17 pages, doi:10.5194/hess–19–4183–2015.

Canavan, R.R., B. Carrapa, M.T. Clementz, J. Quade, P.G. DeCelles, and L.M. Schoenbohm, 2014, Early Cenozoic uplift of the Puna Plateau, Central Andes, based on stable isotope paleoaltimetry of hydrated volcanic glass. Geology, volume 42, 4 pages, doi:10.1130/G35239.1.

Chacko, T., D.R. Cole, and J. Horita, 2001, Equilibrium oxygen, hydrogen and carbon isotope fractionation factors applicable to geological systems, editors, Valley J.W. and D.R. Cole, Stable Isotope Geochemistry, Reviews in Mineralogy and Geochemistry, volume 43, 81 pages, doi:10.2138/gsrmg.43.1.1.

Chandrajith, R., J.A. Barth, N.D. Subasinghe, D. Merten, and C.B. Dissanayake, 2012, Geochemical and isotope characterisation of geothermal spring waters in Sri Lanka: Evidence for steeper than expected geothermal gradients. Journal of Hydrology, volume 476, 10 pages, doi:10.1016/j.jhydrol.2012.11.004.

Cherry, J.A., B.L. Parker, and C. Keller, 2007, A new depth-discrete multilevel monitoring approach for fractured rock. Groundwater Monitoring and Remediation, volume 27, 14 pages, doi:10.1111/j.1745–6592.2007.00137.x.

Clark, I., 2015, Groundwater Geochemistry and Isotopes, CRC Press, Boca Raton, 456 pages, doi:10.1201/b18347.

Clark, I.D. and P. Fritz, 1997, Environmental Isotopes in Hydrogeology, CRC Press, Boca Raton, 342 pages, doi:10.1201/9781482242911.

Cook, P., 2020, Introduction to isotopes and environmental tracers as indicators of groundwater flow. The Groundwater Project, Guelph, Ontario, Canada, 74 pages, https://gw–project.org/books/introduction–to–isotopes–and–environmental–tracers–as–indicators–of–groundwater–flow/.

Cook, P.G. and A.P. O’Grady, 2006, Determining soil and groundwater use of vegetation from heat pulse, water potential and stable isotope data. Oecologia, volume 148, 11 pages, doi:10.1007/s00442–005–0353–4.

Craig, H., 1961, Isotopic variations in meteoric waters. Science, volume 133, 2 pages, doi:10.1126/science.133.3465.1702.

Craig, H. and L.I. Gordon, 1965, Deuterium and oxygen 18 variations in the ocean and the marine atmosphere, editor, Tongiorgi, E., Stable Isotopes in Oceanographic Studies and Palaeotemperatures. Proceedings of the Spoleto Conferences in Nuclear Geology, Pisa, 122 pages.

D’Amore, F. and C. Panichi, 1985, Geochemistry in geothermal exploration. Energy Research, volume 9, 22 pages, doi:10.1002/er.4440090307.

Daniele, L., M. Taucare, B. Viguier, G. Arancibia, D. Aravena, T. Roquer, J. Sepúlveda, E. Molina, A. Delgado, M. Muñoz, and D. Morata, 2020, Exploring the shallow geothermal resources in the Chilean Southern Volcanic Zone: Insight from the Liquiñe thermal springs. Journal of Geochemical Exploration, volume 218, 15 pages, doi:10.1016/j.gexplo.2020.106611.

Dansgaard, W., 1964, Stable Isotopes in Precipitation. Tellus, volume 16, 33 pages, doi:10.3402/tellusa.v16i4.8993.

Das, P., A. Mukherjee, S.A. Hussain, M.S. Jamal, K. Das, A. Shaw, M.K. Layek, and P. Sengupta, 2020, Stable isotope dynamics of groundwater interactions with Ganges River. Hydrological Processes 2021, volume 35, issue 1, 15 pages, doi:10.1002/hyp.14002.

Dawson, T.E. and J.R. Ehleringer, 1991, Streamside trees that do not use stream water. Nature, volume 350, 3 pages, doi:10.1038/350335a0.

Dawson, T.E., S. Mambelli, A.H. Plamboeck, P.H. Templer, and K.P. Tu, 2002, Stable isotopes in plant ecology. Annual Review of Ecology and Systematics, volume 33, 53 pages, doi:10.1146/annurev.ecolsys.33.020602.095451.

Diamond, R.E. and C. Harris, 1997, Oxygen and hydrogen isotope composition of Western Cape meteoric water. South African Journal of Science, volume 93, 4 pages, https://hdl.handle.net/10520/AJA00382353_74.

Diamond, R.E. and C. Harris, 2000, Oxygen and hydrogen isotope geochemistry of thermal springs of the Western Cape, South Africa: recharge at high altitude?. Journal of African Earth Sciences, volume 31, 15 pages, doi:10.1016/S0899–5362(00)80002–0.

Diamond, R.E. and C. Harris, 2019, Annual shifts in O- and H-isotope composition as measures of recharge: the case of the Table Mountain Springs, Cape Town, South Africa. Hydrogeology Journal, volume 27, 16 pages, doi:10.1007/s10040–019–02045–5.

Diamond, R.E. and S. Jack, 2018, Evaporation and abstraction determined from stable isotopes during normal flow on the Gariep River, South Africa. Journal of Hydrology, volume 559, 16 pages, doi:10.1016/j.jhydrol.2018.02.059.

Dogramaci, S., G. Skrzypek, W. Dodson, and P.F. Grierson, 2012, Stable isotope and hydrochemical evolution of groundwater in the semi-arid Hamersley Basin of subtropical northwest Australia. Journal of Hydrology, volume 475, 13 pages, doi:10.1016/j.jhydrol.2012.10.004.

Dogramaci, S., G. Firmani, P. Hedley, G. Skrzypek, and P.F. Grierson, 2015, Evaluating recharge to an ephemeral dryland stream using a hydraulic model and water, chloride and isotope mass balance. Journal of Hydrology, volume 521, 13 pages, doi:10.1016/j.jhydrol.2014.12.017.

Druhan, J.L. and K. Maher, 2017, The influence of mixing on stable isotope ratios in porous media: A revised Rayleigh model. Water Resources Research, volume 53, 24 pages, doi:10.1002/2016WR019666.

Durowoju, O.S., M. Butler, G.E. Ekosse, and J.O. Odiyo, 2019, Hydrochemical processes and isotopic study of geothermal springs within Soutpansberg, Limpopo Province, South Africa. Applied Sciences, volume 9, issue 8, 18 pages, doi:10.3390/app9081688.

Ehleringer, J.R. and T.E. Dawson, 1992, Water uptake by plants: perspectives from stable isotope composition. Plant, Cell and Environment, volume 15, 10 pages, doi:10.1111/j.1365–3040.1992.tb01657.x.

Ellsworth, P.Z. and D.G. Williams, 2007, Hydrogen isotope fractionation during water uptake by woody xerophytes. Plant Soil, volume 291, 15 pages, doi:10.1007/s11104–006–9177–1.

Emiliani, C., 1987, Dictionary of the Physical Sciences. Oxford University Press, New York.

Epstein, S. and T. Mayeda, 1953, Variation of ¹⁸O content of waters from natural sources. Geochimica et Cosmochimica Acta, volume 4, 12 pages, doi:10.1016/0016–7037(53)90051–9.

Fontes, J.Ch., 1981, Palaeowaters, editors, Gat J.R. and R. Gonfiantini, Stable Isotope Hydrology, Technical Reports Series 210, International Atomic Energy Agency, Vienna, 30 pages, http://www–naweb.iaea.org/napc/ih/documents/IAEA%20Monographs/TRS%20210%20Stable%20Isotope%20Hydrology1981.pdf.

Friedman, I., 1953, Deuterium content of natural waters and other substances. Geochimica et Cosmochimica Acta, volume 4, 15 pages, doi:10.1016/0016–7037(53)90066–0.

Gat, J.R., 1981, Historical Introduction, editors, Gat J.R. and R. Gonfiantini, Stable Isotope Hydrology, Technical Reports Series 210, International Atomic Energy Agency, Vienna, 6 pages, http://www–naweb.iaea.org/napc/ih/documents/IAEA%20Monographs/TRS%20210%20Stable%20Isotope%20Hydrology1981.pdf.

Gat, J.R., 1996, Oxygen and hydrogen isotopes in the hydrological cycle. Annual Reviews in Earth and Planetary Sciences, volume 24, 38 pages, doi:10.1146/annurev.earth.24.1.225.

Gat, J.R. and E. Matsui, 1991, Atmospheric water balance in the Amazon Basin: an isotopic evapotranspiration model. Journal of Geophysical Research, volume 96, issue D7, 10 pages, doi:10.1029/91JD00054.

Gat, J.R., D. Yakir, G. Goodfriend, P. Fritz, P. Trimborn, J. Lipp, I. Gev, E. Adar, and Y. Waisel, 2007, Stable isotope composition of water in desert plants. Plant Soil, volume 298, 15 pages, doi:10.1007/s11104–007–9321–6.

Gillespie, J., S.T. Nelson, A.L. Mayo, and D.G. Tingey, 2012, Why conceptual groundwater flow models matter: a trans-boundary example from the arid Great Basin, western USA. Hydrogeology Journal, volume 20, 15 pages, doi:10.1007/s10040–012–0848–0.

Goldsmith, G.R., S.T. Allen, S. Braun, N. Engbersen, C.R. González-Quijano, J.R. Kirchner, and R.T. Siegwolf, 2018, Spatial variation in throughfall, soil, and plant water isotopes in a temperate forest. Ecohydrology, volume 12, 11 pages, doi:10.1002/eco.2059.

Gonfiantini, R., 1981, The notation and the mass-spectrometric measurement techniques, editors, Gat J.R. and R. Gonfiantini, Stable Isotope Hydrology, International Atomic Energy Agency, Technical Reports Series #210, Vienna. Chapter 4, 50 pages, https://inis.iaea.org/collection/NCLCollectionStore/_Public/13/677/13677657.pdf?r=1.

Gonfiantini, R., M.A. Roche, J.C. Olivry, J.C. Fontes, and G.M. Zuppi, 2001, The altitude effect on the isotopic composition of tropical rains. Chemical Geology, volume 181, 21 pages, doi:10.1016/S0009–2541(01)00279–0.

Grimmeisen, F., M.F. Lehmann, T. Liesch, N. Goeppert, J. Klinger, J. Zopfi, and N. Goldscheider, 2017, Isotopic constraints on water source mixing, network leakage and contamination in an urban groundwater system. Science of the Total Environment, volume 583, 12 pages, doi:10.1016/j.scitotenv.2017.01.054.

Gröning, M., H.O. Lutz, Z. Roller-Lutz, M. Kralik, L. Gourcy, and L. Pöltenstein, 2012, A simple rain collector preventing water re-evaporation dedicated for delta O-18 and delta H-2 analysis of cumulative precipitation samples. Journal of Hydrology, volume 448, 6 pages, doi:10.1016/j.jhydrol.2012.04.041.

Han, T., M. Zhang, S. Wang, D. Qu, and Q. Du, 2020, Sub-hourly variability of stable isotopes in precipitation in the marginal zone of East Asian monsoon. Water, volume 12, issue 8, 14 pages , doi:10.3390/w12082145.

Harris, C., C. Burgers, J. Miller, and F. Rawoot, 2010, O- and H-isotope record of Cape Town rainfall from 1996 to 2008, and its application to recharge studies of Table Mountain groundwater, South Africa. South African Journal of Geology, volume 113, 24 pages, doi:10.2113/gssajg.113.1.33.

Harris, C., W.D. Stock, and J. Lanham, 1997, Stable isotope constraints on the origin of CO₂ gas exhalations at Bongwan, Natal. South African Journal of Geology, volume 100, 6 pages, https://journals.co.za/doi/pdf/10.10520/EJC–92945afa1.

Hayes, J.M., 2004, An Introduction to Isotopic Calculations. Woods Hole Oceanographic Institution, Woods Hole, Massachusetts, USA, 10 pages, https://www.whoi.edu/cms/files/jhayes/2005/9/IsoCalcs30Sept04_5183.pdf.

Hooper, R.P. and C.A. Shoemaker, 1986, A comparison of chemical and isotopic hydrograph separation. Water Resources Research, volume 22, 11 pages.

Horibe, Y. and M. Kobayakawa, 1960, Deuterium abundance of natural waters. Geochimica et Cosmochimica Acta, volume 20, 11 pages, doi:10.1016/0016–7037(60)90078–8.

Hu, M., Y. Zhang, K. Wu, H. Shen, M. Yao, R.A. Dahlgren, and D. Chen, 2020, Assessment of streamflow components and hydrologic transit times using stable isotopes of oxygen and hydrogen in waters of a subtropical watershed in eastern China. Journal of Hydrology, volume 589, 11 pages, doi:10.1016/j.jhydrol.2020.125363.

Hughes, C.E. and J. Crawford, 2012, A new precipitation weighted method for determining meteoric water line for hydrological applications demonstrated using Australia and global GNIP data. Journal of Hydrology, volume 465, 8 pages, doi:10.1016/j.jhydrol.2012.07.029.

Husain, M.M., J.A. Cherry, and S.K. Frape, 2004, The persistence of a large stagnation zone in a developed regional aquifer, southwestern Ontario. Canadian Geotechnical Journal, volume 41, 16 pages, doi:10.1139/t04–040.

IPCC, 2014, Intergovernmental Panel on Climate Change, Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, editors, Pachauri R.K. and L.A. Meyer]. IPCC, Geneva, Switzerland, 151 pages, https://archive.ipcc.ch/pdf/assessment–report/ar5/syr/SYR_AR5_FINAL_full_wcover.pdf.

Iqbal, M.Z., 1998, Application of environmental isotopes in storm-discharge analysis of two contrasting stream channels in a watershed. Water Research, volume 32, 10 pages, doi:10.1016/S0043–1354(98)00070–0.

Jasecko, S., 2019, Global Isotope Hydrogeology – Review. Reviews of Geophysics, volume 57, 101 pages, doi:10.1029/2018RG000627.

Jasecko, S., Z.D. Sharp, J.J. Gibson, S.J. Birks, Y. Yi, and P.J. Fawcett, 2013, Terrestrial water fluxes dominated by transpiration. Nature, volume 496, 4 pages, doi:10.1038/nature11983.

Kirchner, J.W., 2003, A double paradox in catchment hydrology and geochemistry. Hydrological Processes, volume 17, 4 pages, doi:10.1002/hyp.5108.

Klaus, J. and J.J. McDonnell, 2013, Hydrograph separation using stable isotopes: Review and evaluation. Journal of Hydrology, volume 505, 18 pages, doi:10.1016/j.jhydrol.2013.09.006.

Ladouche, B., A. Luc, and D. Nathalie, 2009, Chemical and isotopic investigation of rainwater in southern France (1996-2002): Potential use as input signal for karst functioning investigation. Journal of Hydrology, volume 367, 15 pages, doi:10.1016/j.jhydrol.2009.01.012.

Laonamsai, J., K. Ichiyanagi, K. Kamdee, A. Putthividhya, and M. Tanoue, 2020, Spatial and temporal distributions of stable isotopes in precipitation over Thailand. Hydrological Processes, volume 35, 15 pages, doi:10.1002/hyp.13995.

Lasagna, M. and D.A. De Luca, 2016, The use of multilevel sampling techniques for determining shallow aquifer nitrate profiles. Environmental Science Pollution Research, volume 23, 18 pages, doi:10.1007/s11356–016–7264–2.

Laudon, H. and O. Slaymaker, 1997, Hydrograph separation using stable isotopes, silica and electrical conductivity: an alpine example. Journal of Hydrology, volume 201, 20 pages, doi:10.1016/S0022–1694(97)00030–9.

Lelli, M., T.G. Kretzschmar, J. Cabassi, M. Doveri, J.I. Sanchez-Avila, F. Gherardi, G. Magro, and F. Norelli, 2021, Fluid geochemistry of the Los Humeros geothermal field (LHGF – Puebla, Mexico): New constraints for the conceptual model. Geothermics, volume 90, 17 pages, doi:10.1016/j.geothermics.2020.101983.

Li, J., Z. Pang, Y. Kong, S. Wang, G. Bai, H. Zhao, D. Zhou, F. Sun, and Z. Yang, 2018, Groundwater isotopes biased toward heavy rainfall events and implications on the local meteoric water line. Journal of Geophysical Research: Atmospheres, volume 123, 8 pages, doi:0.1029/2018JD028413.

Los Gatos Research, 2020, Off-Axis Integrated Cavity Output Spectroscopy, http://www.lgrinc.com/advantages.

Lyon, S.W., S.L. Desilets, and P.A. Troch, 2009, A tale of two isotopes: differences in hydrograph separation for a runoff event when using D and ¹⁸O. Hydrological Processes, volume 23, 7 pages, doi:10.1002/hyp.7326.

Ma, Y.Z., 2019, Quantitative Geosciences: Data Analytics, Geostatistics, Reservoir Characterization and Modeling. Springer, Cham, Switzerland, 401 pages, doi:10.1007/978–3–030–17860–4.

Mahindawansha, A., N. Orlowski, P. Kraft, Y. Rothfuss, H. Racela, and L. Breuer, 2018, Quantification of plant water uptake by water stable isotopes in rice paddy systems. Plant Soil, volume 429, 22 pages, doi:10.1007/s11104–018–3693–7.

Malov, A.I. and I.V. Tokarev, 2019, Using stable isotopes to characterize the conditions of groundwater formation on the eastern slope of the Baltic Shield (NW Russia). Journal of Hydrology, volume 578, 10 pages, doi:10.1016/j.jhydrol.2019.124130.

Maurya, A.S., M. Shah, R.D. Deshpande, R.M. Bhardwaj, A. Prasad, and S.K. Gupta, 2011, Hydrograph separation and precipitation source identification using stable water isotopes and conductivity: River Ganga at Himalayan foothills. Hydrological Processes, volume 25, 10 pages, doi:10.1002/hyp.7912.

McIntosh, J.C. and L.M. Walter, 2006, Paleowaters in Silurian-Devonian carbonate aquifers: Geochemical evolution of groundwater in the Great Lakes region since the Late Pleistocene. Geochimica et Cosmochimica Acta, volume 70, 26 pages, doi:10.1016/j.gca.2006.02.002.

Merlivat, L. and J. Jouzel, 1979, Global climatic interpretation of the deuterium-oxygen 18 relationship from precipitation. Journal of Geophysical Research, volume 84, C8, 5 pages, doi:10.1029/JC084iC08p05029.

Midgley, J.J. and D.F. Scott, 1994, The use of stable isotopes of water (D and ¹⁸O) in hydrological studies in the Jonkershoek Valley. WaterSA, volume 20, 4 pages, https://researchspace.csir.co.za/dspace/bitstream/handle/10204/805/Midgley_1994.pdf?sequence=1&isAllowed=y.

Mix, H.T., S.P. Reilly, A. Martin, and G. Cornwell, 2019, Evaluating the roles of rainout and post-condensation processes in a landfalling atmospheric river with stable isotopes in precipitation and water vapor. Atmosphere, volume 10, issue 2, 86 pages, doi:10.3390/atmos10020086.

Muller, C.L., A. Baker, I.J. Fairchild, C. Kidd, and I. Boomer, 2015. Intra-event trends in stable isotopes: Exploring midlattitude precipitation using a vertically pointing micro rain radar. Journal of Hydrometeorology, volume 16, 20 pages, doi:10.1175/JHM–D–14–0038.1.

Mulligan, B.M., M.C. Ryan, and T.P. Cámbara, 2011, Delineating volcanic aquifer recharge areas using geochemical and isotopic tools. Hydrogeology Journal, volume 19, 13 pages, doi:10.1007/s10040–011–0766–6.

Munksgaard, N.C., C.M. Wurster, A. Bass, and M.I. Bird, 2012, Extreme short-term stable isotope variability revealed by continuous rainwater analysis. Hydrological Processes, volume 26, 5 pages, doi:10.1002/hyp.9505.

Nehemy, M.F., P. Benettin, M. Asadollahi, D. Pratt, A. Rinaldo, and J.J. McDonell, 2020, Tree water deficit and dynamic source water partitioning. Hydrological Processes, volume 35, 22 pages, doi:10.1002/hyp.14004.

O’Keefe, A. and D. Deacon, 1988, Cavity ringdown optical spectrometer for absorption measurements using pulsed laser sources. Review of Scientific Instruments, volume 59, 8 pages, doi:10.1063/1.1139895.

Orlowski, N., P. Kraft, J. Pferdmenges, and L. Breuer, 2016, Exploring water cycle dynamics by sampling multiple water isotope pools in a developed landscape in Germany. Hydrology and Earth System Sciences, volume 20, 22 pages, doi:10.5194/hess–20–3873–2016.

Pan, Y-X., X-P. Wang, X-Z. Ma, Y-F. Zhang, and R. Hu, 2020, The stable isotopic composition variation characteristics of desert plants and water sources in an artificial revegetation ecosystem in northwest China. Catena, volume 189, 10 pages, doi:10.1016/j.catena.2020.104499.

Panichi, C. and R. Gonfiantini, 1981, Geothermal Waters, editors, Gat J.R. and R. Gonfiantini, Stable Isotope Hydrology, Technical Reports Series No 210, International Atomic Energy Agency, Vienna, 32 pages, http://www–naweb.iaea.org/napc/ih/documents/IAEA%20Monographs/TRS%20210%20Stable%20Isotope%20Hydrology1981.pdf.

Paul, D., G. Skrzypek, and I. Fórizs, 2007, Normalization of measured stable isotopic compositions to isotope reference scales – a review. Rapid Communications in Mass Spectrometry, volume 21, 9 pages, doi:10.1002/rcm.3185.

Paulsson and Widerland, 2020, Pit lake oxygen and hydrogen isotopic composition in subarctic Sweden: A comparison to the local meteoric water line. Applied Geochemistry, volume 118, 10 pages, doi:10.1016/j.apgeochem.2020.104611.

Peixoto, J.P. and A.H. Oort, 1983, The atmospheric branch of the hydrological cycle and climate. In: Variations in the Global Water Budget, Street-Perrott, et al (editors), D Reidel Publishing Company, 61 pages, doi:10.1007/978–94–009–6954–4_2.

Penna, D., J. Geris, L. Hopp, and F. Scandellari, 2020, Water sources for root water uptake: using stable isotopes of hydrogen and oxygen as a research tool in agricultural and agroforestry systems. Agriculture, Ecosystems and Environment, volume 291, 6 pages, doi:10.1016/j.agee.2019.106790.

Penna, D. and H.J. van Meerveld, 2019, Spatial variability in the isotopic composition of water in small catchments and its effect on hydrograph separation. Wiley Reviews Water, volume 6, 33 pages, doi:10.1002/wat2.1367.

Peng, T.R., C.H. Wang, C.C. Huang, L.Y. Fei, C.T. Chen, and J.L. Hwong, 2010, Stable isotope characteristics of Taiwan’s precipitation: A case study of western Pacific monsoon region. Earth and Planetary Science Letters, volume 289, 10 pages, doi:10.1016/j.epsl.2009.11.024.

Peters, E., A. Visser, B.K. Esser, and J.E. Moran, 2018, Tracers reveal recharge elevations, groundwater flow paths and travel times on Mount Shasta, California. Water, volume 10, 22 pages, doi:10.3390/w10020097.

Petrella, E. and F. Celico, 2012, Mixing of water in a carbonate aquifer, southern Italy, analysed through stable isotope investigations. International Journal of Speleology, volume 42, 9 pages, doi:10.5038/1827–806X.42.1.4.

Plummer, L.N., J.R. Eggleston, D.C. Andreasen, J.P. Raffensperger, A.G. Hunt, and G.C. Casile, 2012, Old groundwater in parts of the upper Patapsco aquifer, Atlantic Coastal Plain, Maryland, USA: evidence from radiocarbon, chlorine-36 and helium-4. Hydrogeology Journal, volume 20, 26 pages, doi:10.1007/s10040–012–0871–1.

Prasetio, R., Y. Daud, J. Hutabarat, and H. Hendarmawan, 2021, Fluid geochemistry and isotope compositions to delineate physical processes in Wayang Windu geothermal reservoir, Indonesia. Geosciences Journal, volume 25, 17 pages, doi:10.1007/s12303–020–0039–2.

Pu, T., D. Qin, S. Kang, H. Niu, Y. He, and S. Wang, 2017, Water isotopes and hydrograph separation in different glacial catchments in the southeast margin of the Tibetan Plateau. Hydrological Processes, volume 31, 17 pages, doi:10.1002/hyp.11293.

Qu, S., M. Zhou, P. Shi, H. Liu, W. Bao, and X. Chen, 2014, Differences in oxygen-18 and deuterium content of throughfall and rainfall during different flood events in a small headwater watershed. Isotopes in Environmental and Health Studies, volume 50, 10 pages, doi:10.1080/10256016.2014.845565.

Rai, S.P., D. Singh, N. Jacob, Y.S. Rawat, M. Arora, and B. Kumar, 2019, Identifying contribution of snowmelt and glacier melt to the Bhagirathi River (Upper Ganga) near snout of the Gangotri Glacier using environmental isotopes. Catena, volume 173, 13 pages, doi:10.1016/j.catena.2018.10.031.

Lord Rayleigh, 1902, On the distillation of binary mixtures. The London, Edinburgh and Dublin Philosophical Magazine and Journal of Science, volume 4, 17 pages, doi:10.1080/14786440209462876.

Reeburgh, W.S., 1994, Global water reservoirs, fluxes and turnover times, http://www.ess.uci.edu/~reeburgh/fig8.html.

Remenda, V., J.A. Cherry, and T.W. Edwards, 1994, Isotopic composition of old ground water from Lake Agassiz: Implications for Late Pleistocene Climate. Science, volume 266, number 5193, 4 pages, doi:10.1126/science.266.5193.1975.

Ronen, D., M. Magaritz, H. Gvirtzman, and W. Garner, 1987, Microscale chemical heterogeneity in groundwater. Journal of Hydrology, volume 92, 6 pages, doi:10.1016/0022–1694(87)90094–1.

Rozanski, K., C. Sonntag, and K.O. Munnich, 1982, Factors controlling stable isotope composition of European precipitation. Tellus, volume 34, 9 pages, doi:10.3402/tellusa.v34i2.10796.

Rozanski, K., L. Araguas-Araguas, and R. Gonfiantini, 1993, Isotopic patterns in modern global precipitation, editors, Swart P.K., K.C. Lohmann, J. McKenzie, and S. Savin, Climate Change in Continental Isotopic Records, American Geophysical Union, Geophysical Monograph 78, chapter 1, 36 pages.

Salati, E., A. Dall’Olio, E. Matsui, and J.R. Gat, 1979, Recycling of water in the Amazon Basin: an isotopic study. Water Resources Research, volume 15, 9 pages, doi:10.1029/WR015i005p01250.

Sanchez-Murillo, R., C. Birkel, K. Welsch, G. Esquivel-Hernandez, J. Corrales-Salazar, J. Boll, E. Brooks, O. Roupsard, O. Saenz-Rosales, I. Katchan, R. Arce-Mesen, C. Soulsby, and L.J. Araguas-Araguas, 2016, Key drivers controlling stable isotope variations in daily precipitation of Costa Rica: Caribbean Sea versus Eastern Pacific Ocean moisture sources. Quaternary Science Reviews, volume 131, 237 pages, doi:10.1016/j.quascirev.2015.08.028.

Schimmelmann, A. and M.J. DeNiro, 1993, Preparation of organic and water hydrogen for stable isotope analysis: Effects due to reaction vessels and zinc reagent. Analytical Chemistry, volume 65, 4 pages, doi:10.1021/ac00054a024.

Sharp, Z., 2007, Principles of Stable Isotope Geochemistry. Pearson Prentice Hall, https://www.abebooks.com/9780130091390/Principles–Stable–Isotope–Geochemistry–Sharp–0130091391/plp.

Sinclair, K.E., S.J. Marshall, and T.A. Moran, 2011, A Lagrangian approach to modelling stable isotopes in precipitation over mountainous terrain. Hydrological Processes, volume 25, 11 pages, doi:10.1002/hyp.7973.

Sklash, M.G. and R.N. Farvolden, 1979, The role of groundwater in storm runoff. Journal of Hydrology, volume 43, 21 pages, doi:10.1016/0022–1694(79)90164–1.

Smith, G.I., I. Friedman, G. Veronda, and C.A. Johnson, 2002, Stable isotope compositions of waters in the Great Basin, United States: 3. Comparison of groundwaters with modern precipitation. Journal of Geophysical Research, volume 107, issue D19, 16 pages, doi:10.1029/2001JD000567.

Socki, R.A., H.R. Karlsson, and E.K. Gibson Jr., Extraction technique for the determination of oxygen-18 in water using preevacuated glass vials. Analytical Chemistry, volume 64, 3 pages, doi:10.1021/ac00031a026.

Sonntag, C.E., E.P. Klitzoch, K.O. Löhnert, K.O. Münnich, O. Junghaus, K. Thorweihe, K. Weistroffer, and F.M. Swailen, 1979, Paleoclimatic information from deuterium and oxygen 18 in C14 date north Saharan groundwaters: groundwater formation in the past. In: Isotope Hydrology 1978, International Atomic Energy Agency, Vienna, Austria, 13 pages.

Steur, P.M., H.A. Scheeren, D.D. Nelson, J.B. McManus, and H.A. Meijer, 2020, Simultaneous measurement of ¹³C, ¹⁸O and ¹⁷O of atmospheric CO₂ – Performance assessment of a dual-laser absorption spectrometer. Atmospheric Measurement Techniques, 26 pages, doi:10.5194/amt–14–4279–2021.

Stewart, M.K., 1985, Isotopic geochemistry at Wairakei – Hydrological implications. Institute of Nuclear Sciences, INS-R -345, Lower Hutt, New Zealand, 19 pages.

Sultan, M., N.C. Sturchio, H. Gheith, Y. Abdel Hady, and M. El Anbeawy, 2000, Chemical and isotopic constraints on the origin of Wadi El-Tarfa groundwater, Eastern Desert, Egypt. Groundwater, volume 38, 9 pages, doi:10.1111/j.1745–6584.2000.tb02710.x.

Sumner, G., 1988, Precipitation: Process and Analysis. John Wiley and Sons, Inc. Singapore, https://www.abebooks.com/9780471905349/Precipitation–Process–Analysis–Sumner–Graham–0471905348/plp.

Sunguro, S., K. Froehlich, B.Th. Verhagen, and W. Wagner, 2000, Geohydrology and isotope hydrology of the Lomagundi dolomite, Zimbabwe. In Sililo et al (editors): Groundwater: Past Achievements and Future Challenges, Balkema, Rotterdam.

Tekleab, S., J. Wenninger, and S. Uhlenbrook, 2014, Characterisation of stable isotopes to identify residence times and runoff components in two meso-scale catchments in the Abay/Upper Blue Nile basin, Ethiopia. Hydrology and Earth System Sciences, volume 18, 17 pages, doi:10.5194/hess–18–2415–2014.

Uemura, R., N. Yonezawa, K. Yoshimura, R. Asami, H. Kadena, K. Yamada, and N. Yoshida, 2012, Factors controlling isotopic composition of precipitation on Okinawa Island, Japan: Implications for palaeoclimate reconstruction in the East Asian Monsoon region. Journal of Hydrology, volume 475, 9 pages, doi:10.1016/j.jhydrol.2012.10.014.

Uhlenbrook, S., M. Frey, C. Leibundgut, and P. Maloszewski, 2002, Hydrograph separations in a mesoscale mountainous basin at event and seasonal timescales. Water Resources Research, volume 38, 4 pages, doi:10.1029/2001WR000938.

Urey, H.C., 1947, The thermodynamic properties of isotopic substances. Journal of the Chemical Society of London, 20 pages, doi:10.1039/JR9470000562.

Van Gelden, R., A. Baier, H.L. Subert, S. Kowol, L. Balk, and J.A. Barth, 2014, Pleistocene paleo-groundwater as a pristine fresh water resource in southern Germany – evidence from stable and radiogenic isotopes. Science of the Total Environment, volume 496, 9 pages, doi:10.1016/j.scitotenv.2014.07.011.

Vargas, A.I., B. Schaffer, L. Yuhong, and L. da Silviera Lobo Sternberg, 2017, Testing plant use of mobile vs immobile soil water sources using stable isotope experiments. New Phytologist, volume 215, 13 pages, doi:10.1111/nph.14616.

Vogel, J.C. and H. van Urk, 1975, Isotopic composition of groundwater in semi-arid regions of southern Africa. Journal of Hydrology, volume 25, issues 1-2, 4 pages, doi:10.1016/0022–1694(75)90036–0.

Wang, C., 2007, Plasma-cavity ringdown spectroscopy (P-CRDS) for elemental and isotopic analysis. Journal of Analytical Atomic Spectroscopy, volume 22, 17 pages, doi:10.1039/B701223C.

Wang, J., N. Lu, and B. Fu, 2019, Inter-comparison of stable isotope mixing models for determining plant water source partitioning. Science of the Total Environment, volume 666, 9 pages, doi:10.1016/j.scitotenv.2019.02.262.

West, A.G., G.R. Goldsmith, P.D. Brooks, and T.E. Dawson, 2010, Discrepancies between isotope ratio infrared spectroscopy and isotope ratio mass spectrometry for the stable isotope analysis of plant and soil waters. Rapid Communications in Mass Spectrometry, volume 24, 7 pages, doi:10.1002/rcm.4597.

Xie, Y., P.G. Cook, and C.T. Simmons, 2016, Solute transport processes in flow-event-driven stream-aquifer interaction. Journal of Hydrology, volume 538, 11 pages, doi:10.1016/j.jhydrol.2016.04.031.

Yakir, D., M.J. de Niro, and J.E. Ephrath, 1990, Effects of water stress on oxygen, hydrogen and carbon isotope ratios in two species of cotton plants. Plant, Cell and Environment, volume 13, 7 pages, doi:10.1111/j.1365–3040.1990.tb01985.x.

Yang, X., T. Yao, W. Yang, W. Yu, and D. Qu, 2011, Co-existence of temperature and amount effects on precipitation ¹⁸O in the Asian monsoon region. Geophysical Research Letters, volume 38, issue 21, article L21809, 6 pages, doi:10.1029/2011GL049353.

Yidana, S.M., O.F. Fynn, D. Adomako, L.P. Chegbeleh, and P.M. Nude, 2016, Estimation of evapotranspiration losses in the vadose zone using stable isotopes and chloride mass balance method. Environmental Earth Sciences, volume 75, 208 pages, doi:10.1007/s12665–015–4982–6.

Yin, L., G. Hou, Y. Dou, Z. Tao and Y. Li, 2011, Hydrogeochemical and isotopic study of groundwater in the Habor Lake Basin of the Ordos Plateau, NW China. Environmental Earth Sciences, volume 64, 10 pages, doi:10.1007/s12665–009–0383–z.

Yonge, C.J., L. Goldenberg, and H.R. Krouse, 1989, An isotopic study of water bodies along a traverse of southwestern Canada. Journal of Hydrology, volume 1989, 11 pages, doi:10.1016/0022–1694(89)90075–9.

Yurtsever, Y. and J.R. Gat, 1981, Atmospheric Waters, Gat J.R. and R. Gonfiantini, Stable Isotope Hydrology. International Atomic Energy Agency, Vienna, Technical Report 20, 40 pages, https://inis.iaea.org/collection/NCLCollectionStore/_Public/13/677/13677657.pdf.

License