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  • Battaglin, W. A., C. Kendall, C. C. Y. Chang, S. R. Silva, and D. H. Campbell, Chemical and isotopic evidence of nitrogen transformation in the Mississippi River, 1997-9S, Hydrol. Process., 15, 12851300, 2001.
  • Dalai, T. K., S. K. Bhattacharya, and S. Krishnaswami, Stable isotopes in the source waters of the Yamuna and its tributaries: seasonal and altitudinal variations and relation to major cations, Hydrol. Process., 16, 173345–3364, 2002.
  • , Department of Energy, Water Cycle Dynamics and Prediction Program Report, January 2001, Office of Biological and Environmental Research, 52Office of Science, U. S. Department of Energy, Germantown, Maryland, 2001.
  • Fekete, B. M., C. J. Vörösmarty, and W. Grabs, Global, Composite Runoff Fields Based on Observed River Discharge and Simulated Water BalancesWMO Global Runoff Data Centre Report #22Koblenz, Germany, 1999.
  • Gat, J. R., Oxygen and hydrogen isotopes in the hydrological cycle, Annual Rev. Earth Planet. Sci, 24, 225262, 1996.
  • , GCIP, Global Energy and Water Cycle Experiment (GEWEX) Continental-Scale International Project: A Review of Progress and Opportunities, 93, National Academy Press, Washington, D. C., 1998.
  • Gibson, J. J., and T. W. D. Edwards, Regional surface water balance and evaporation-transpiration partitioning from a stable isotope survey of lakes in northern Canada, Global Biogeochem. Cycles, 162102610.1029/2001GB001839, 2002.
  • Hitchon, B., and H. R. Krouse, Hydrogeochemistry of surface waters of the Mackenzie River drainage basin, Canada - III. Stable isotopes of oxygen, carbon and sulphur, Geochim. Cosmochim. Acta, 36, 13371357, 1972.
  • Kendall, C., and J. J. McDonnell, Isotope Tracers in Catchment Hydrology, 839, Elsevier, Amsterdam, 1998.
  • Kendall, C., and T. B. Coplen, Distribution of oxygen-18 and deuterium in river waters across the United States, Hydrol. Process., 15, 13631393, 2001.
  • Matsui, E., A. Cervelini, I. Friedman, and E. Salati, Isotope Hydrology in Amazonia, Part 1: δ18O and δD in river water, Energia Nuclear na Agricultura, 2, 101132, 1980.
  • Phillips, F. M., J. F. Hogan, S. K. Mills, and J. M. H. Hendrickx, Environmental tracers applied to quantifying causes of salinity in arid-region rivers: preliminary results from the Rio Grande, Southwestern USA, Water Resources Perspectives: Evaluation, Management and PolicyAlsharhan, A. S., and Warren W. Wood, Elsevier, Amsterdam, 2002.
  • Rank, D., A. Adler, L. Araguás-Araguás, K. Froehlich, K. Rozanski, and W. Stichler, Hydrological parameters and climate signals derived from long-term tritium and stable isotope time series of the river Danube, Isotope techniques in the study of environmental change, Proceedings Series, 191205, International Atomic Energy Agency, Vienna, 1998.
  • Rank, D., W. Papesch, and V. Rajner, Tritium ( 3H) und Sauerstoff-18(180)-Gehalt des Donauwassers zur Zeit der Internationalen Donaubereisung 1988, Ergebnisse der Internationalen Donauexpedition 1988, 307312, Ed. Internationale Arbeitsgemeinschaft Donauforschung, Vienna, 1990.
  • Rozanski, K., L. Araguás-Araguás, and R. Gonfiantini, Isotopic patterns in modern global precipitation, Climate Change in Continental Isotopic Records, Geophysical Monograph, 78Swart, P. K., K. L. Lohmann, J. McKenzie, and S. Savin, 137, American Geophysical Union, Washington, D. C., 1993.
  • Simpson, H. J., and A. L. Herczeg, Stable isotopes as indicator of evaporation in the River Murray, Australia, Water Resour. Res., 27, 19251935, 1991.