Bibliography

Free Access Bibliography Dr. S. K. Gupta PhD, Dr. S. K. Gupta PhD recipient Principal Coordinator Fellow Physical Research Laboratory, Ahmedabad, Gujarat, IndiaSearch for more papers by this author Book Author(s):Dr. S. K. Gupta PhD, Dr. S. K. Gupta PhD recipient Principal Coordinator Fellow Physical Research Laboratory, Ahmedabad, Gujarat, IndiaSearch for more papers by this author First published: 19 November 2010 https://doi.org/10.1002/9781444323962.biblio AboutPDFPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShareShare a linkShare onEmailFacebookTwitterLinkedInRedditWechat Bibliography M. Abramowitz and I.A. Stegun (eds) (1972) Handbook of Mathematical Functions with Formulas, Graphs and Mathematical Tables, Dover Publications, New York Dover Publications, ISBN 978-0-486-61272-0, p. 1006. Google Scholar Acharya, G.D., Hathi, M.V., Patel, A.D. and Parmar, KC. (2008) Chemical properties of groundwater in Bhiloda Taluka region, North Gujarat, India. E-Journal of Chemistry, 5, 792–796. 10.1155/2008/592827 CASWeb of Science®Google Scholar Adamowski, K. (1989) A Monte Carlo comparison of parametric and nonparametric estimation of flood frequencies. Journal of Hydrology, 108, 295–308. 10.1016/0022-1694(89)90290-4 Web of Science®Google Scholar Adamowksi, K. (2000) Regional analysis of annual maximum and partial duration flood data by non-parametric and L-moment methods. Journal of Hydrology, 229, 219–231. 10.1016/S0022-1694(00)00156-6 Web of Science®Google Scholar Adler, R.F., Huffman, G.J. et al. (2003) The version-2 global precipitation climatology project (GPCP) monthly precipitation analysis (1979–Present). Journal of Hydrometeorology, 4, 1147–1167. 10.1175/1525-7541(2003)004<1147:TVGPCP>2.0.CO;2 Web of Science®Google Scholar Adler, R.F., Negri, A.J., Keehn, P.R. and Hakkarinen, I.M. (1993) Estimation of monthly rainfall over Japan and surrounding waters from a combination of low-orbit microwave and geosynchronous IR data. Journal of Applied Meteorology, 32, 335–356. 10.1175/1520-0450(1993)032<0335:EOMROJ>2.0.CO;2 Web of Science®Google Scholar Aeschbach-Hertig, W., Peeters, F., Beyerle, U. and Kipfer, R. (1999) Interpretation of dissolved atmospheric noble gases in natural waters. Water Resources Research, 35, 2779–2792. 10.1029/1999WR900130 CASWeb of Science®Google Scholar Aeschbach-Hertig, W., Peeters, F., Beyerle, U. and Kipfer, R. (2000) Palaeotemperature reconstruction from noble gases in ground water taking into account equilibration with entrapped air. Nature, 405, 1040–1044. 10.1038/35016542 CASPubMedWeb of Science®Google Scholar Aeschbach-Hertig, W., Stute, M., Clark, J., Reuter, R. and Schlosser, P. (2002) A paleotemperature record derived from dissolved noble gases in groundwater of the Aquia Aquifer (Maryland, USA). Geochimica et Cosmochimica Acta, 66, 797–817. 10.1016/S0016-7037(01)00804-3 CASWeb of Science®Google Scholar Agarwal, A. and Narain, S. (1997) Dying Wisdom: Rise, Fall and Potential of India's Traditional Water Harvesting Systems. State of India's Environment, 4th Citizen's Report, Centre for Science and Environment, New Delhi. Google Scholar Agrawal, V., Vaish, A.K. and Vaish, P. (1997) Groundwater quality: Focus on fluoride and fluorosis in Rajasthan. Current Science, 73, 743–746. CASWeb of Science®Google Scholar Agarwal, M., Gupta, S.K., Deshpande, R.D. and Yadava, M.G. (2006) Helium, radon and radiocarbon studies on a regional aquifer system of the North Gujarat–Cambay region, India. Chemical Geology, 228, 209–232. 10.1016/j.chemgeo.2005.10.007 CASWeb of Science®Google Scholar Aji, K., Tang, C. et al. (2008) Characteristics of chemistry and stable isotopes in groundwater of Chaobai and Yongding River basin, North China Plain. Hydrological Processes, 22, 63. 10.1002/hyp.6640 CASWeb of Science®Google Scholar Allan, J.A. (1998) Virtual water: a strategic resource. Global solutions to regional deficits. Ground Water, 36, 545–546. 10.1111/j.1745-6584.1998.tb02825.x CASWeb of Science®Google Scholar Allen, R.M. and Bennetto, H.P. (1993) Microbial fuel cells – electricity production from carbohydrates. Applied Biochemistry and Biotechnology, 39/40, 27–40. 10.1007/BF02918975 Web of Science®Google Scholar Alley, W.M. and Smith, P.E. (1982) Distributed Routing and Rainfall-Runoff Model – Version II: US Geological Survey Open-File Report 82–344, US Geological Survey, p. 201. Google Scholar Allison, G.B. and Hughes, M.W. (1978) The use of environmental chloride and tritium to estimate total recharge to an unconfined aquifer. Australian Journal of Soil Research, 16, 181–195. 10.1071/SR9780181 CASWeb of Science®Google Scholar Allison, G.B., Barnes, C.J. Hughes, M.W. and Leaney, F.W.J. (1984) Effects of climate and vegetation on oxygen-18 and deuterium profiles in soils. Isotope Hydrology 1983, IAEA Symposium 270: IAEA, Vienna, pp. 105–123. Google Scholar Allison, J.D., Brown, D.S. and Novac-Gradac, K.J. (1991) MINTEQA2/PRODEFA2, a geochemical assessment model for environmental systems. Version 3.0 User's Manual: US EPA, Athens, GA, p. 104. Google Scholar Allord, G.J. and Scarpace, F.L. (1981) Improving streamflow estimates through use of Landsat, in Satellite Hydrology (eds M. Deutsch, D.R. Wiesnet and A. Rango), 5th Annual William T. Pecora Memorial Symposium on Remote Sensing, Sioux Falls, South Dakota, June 10–15, 1979, American Water Resources Association, Minneapolis, pp. 284–291. Google Scholar Anderson, M.A. (1984) Movement of contaminants in groundwater: Groundwater transport, advection and dispersion, in Groundwater Contamination, Studies in Geophysics, National Academy Press, Washington DC, pp. 37–45. Google Scholar Andrews, J.N. (1977) Radiogenic and inert gases in groundwater. Second International Symposium on Water-Rock Interaction, pp. 334–342. Google Scholar Andrews, J.N. and Lee, D.J. (1979) Inert gases in groundwater from the Bunter Sandstone of England as indicators of age and palaeoclimatic trends. Journal of Hydrology, 41, 233–252. 10.1016/0022-1694(79)90064-7 CASWeb of Science®Google Scholar Andrews, J.N., Giles, I.S. et al. (1982) Radioelements, radiogenic helium and age relationships for groundwaters from the granites at Stripa, Sweden. Geochimica et Cosmochimica Acta, 46, 1533–1543. 10.1016/0016-7037(82)90312-X CASWeb of Science®Google Scholar Andrews, J.N., Goldbrunner, J.E. et al. (1985) A radiochemical, hydrochemical and dissolved gas study of groundwater in the Molase basin of Upper Austria. Earth & Planetary Science Letters, 73, 317–332. 10.1016/0012-821X(85)90080-9 CASWeb of Science®Google Scholar Andrews, J.N., Davis, S.N. et al. (1989) The in-situ production of radioisotopes in rock matrices with particular reference to the Stripa granite. Geochimica et Cosmochimica Acta, 53, 1803–1815. 10.1016/0016-7037(89)90301-3 CASWeb of Science®Google Scholar Araguas-Araguas, L., Froehlich, K. and Rozanski, K. (1998) Stable isotope composition of precipitation over Southeast Asia. Journal of Geophysical Research, 103, 28721–28742. 10.1029/98JD02582 CASWeb of Science®Google Scholar Arnold, C.L. and Gibbons, C.J. (1996) Impervious surface coverage: the emergence of a key environmental indicator. Journal of the American Planning Association, 62, 243–258. 10.1080/01944369608975688 Web of Science®Google Scholar Aron, G. and Egborge, C.E. (1973) A practical feasibility study of flood peak abatement in urban areas, Sacramento, CA. US Army Corps of Engineers, Sacramento District. Google Scholar Aron, G., Smith, T.A. and Lakatos, D.F. (1996) Penn State runoff model, PSRM C96, User Manual. Environmental Resources Research Institute, Penn State University, Penn State, PA, p. 54. Google Scholar Arthur, J. (1997) Rights and the duty to bring aid, in Ethics in Practice (ed H. La Follette), Blackwell, Oxford, pp. 596–604. Google Scholar Bagdasaryan, G. (1964) Survival of viruses of the Enterovirus group (Poliomyelitis, Echo, Coxsackie) in soil and on vegetables. Journal of Hygiene, Epidemiology, Microbiology and Immunology, 8, 497–505. CASPubMedGoogle Scholar Ballentine, C.J. and Burnard, P.G. (2002) Production, release and transport of noble gases in the continental crust, in Noble Gases in Cosmo-chemistry and Geochemistry: Reviews in Mineralogy and Geochemistry, vol. 47 (eds D. Porcelli, C. Ballentine and R. Wieler), Mineralogical Society of America, Geochemical Society, Washington DC, pp. 481–538. Web of Science®Google Scholar Barsukov, V.L., Varshal, G.M. and Zamokina, N.S. (1984) Recent results of hydrogeochemical studies for earthquake prediction in the USSR. PAGEOPH, 122, 143–156. 10.1007/BF00874588 CASWeb of Science®Google Scholar Barton, I.J. (1978) A case study comparison of microwave radiometer measurements over bare and vegetated surfaces. Journal of Geophysical Research, 83, 3513–3517. 10.1029/JB083iB07p03513 Web of Science®Google Scholar Bauer, S., Fulda, C. and Schafer, W. (2001) A multi-tracer study in a shallow aquifer using age dating tracers H-3, Kr-85, CFC-113 and SF6 – Indication for retarded transport of CFC-113. Journal of Hydrology, 248, 14–34. 10.1016/S0022-1694(01)00381-X CASWeb of Science®Google Scholar Bayer, R., Schlosser, P., Bönisch, G., Rupp, H., Zaucker, F. and Zimme, G. (1989) Performance and Blank Components of a Mass Spectrometric System for Routine Measurement of Helium Isotopes and Tritium by the 3He Ingrowth Method, Springer-Verlag, New York, p. 42. 10.1007/978-3-642-48373-8 Google Scholar Bear, J. (1979) Hydraulics of Groundwater, McGraw-Hill, New York, p. 569. Google Scholar Bear, J., Beljin, M.S. and Ross, R.R. (1992) Fundamentals of Ground-Water Modeling: Ground Water Issue, United States Environmental Protection Agency, EPA/540/S-92/005, pp. 1–11. Google Scholar Bear, J. and Dagen, G. (1965) The relationship between solutions of flow problems in isotropic and anisotropic soils. Journal of Hydrology, 3, 88–96. 10.1016/0022-1694(65)90002-8 Google Scholar BEIR (1999) The health effects of exposure to indoor radon, biological effects of ionizing radiation (BEIR), VI Report, National Academy of Sciences, USA, pp. 1–500. Google Scholar Benda, L., Leroy Poff, N. et al. (2004), The network dynamics hypothesis: how channel networks structure riverine habitats. BioScience, 4, 413–427. Web of Science®Google Scholar Bennett, G.D. and Patten, E.P. (1962) Constant-head pumping test of a multiaquifer well to determine characteristics of individual aquifers. US Geological Survey Water-Supply Paper 1545-C, pp. 181–203. Google Scholar Benson, M.A. (1968) Uniform flood-frequency estimating methods for federal agencies. Water Resources Research, 4, 891–908. 10.1029/WR004i005p00891 Web of Science®Google Scholar Bethke, C.M. (1996) Geochemical Reaction Modeling – Concepts and Applications, Oxford University Press, New York, p. 397. Web of Science®Google Scholar Bethke, C.M. and Johnson, T.M. (2002) Paradox of groundwater age. Geology, 30, 107–110. 10.1130/0091-7613(2002)030<0107:POGA>2.0.CO;2 Web of Science®Google Scholar Bewers, J.M. (1971) North Atlantic fluoride profiles. Deep Sea Research, 18, 237–241. CASWeb of Science®Google Scholar Beyerle, U., Purtschert, R. et al. (1998) Climate and groundwater recharge during the last glaciation in an ice-covered region. Science, 282, 731–734. 10.1126/science.282.5389.731 CASPubMedWeb of Science®Google Scholar Beyerle, U., Aeschbach-Hertig, W., Imboden, D.M., Baur, H., Gra, T. and Kipfer, R. (2000) A mass spectrometric system for the analysis of noble gases and tritium from water samples. Environmental Science and Technology, 34, 2042–2050. 10.1021/es990840h CASWeb of Science®Google Scholar Bhandari, N., Gupta, S.K., Sharma, P., Sagar, P., Ayachit, V. and Desai, B.I. (1986) Hydrogeological investigations in Sabarmati and Mahi Basins and Coastal Saurashtra using Radio-isotopic and Chemical Tracers. Roorkee, High Level Technical Committee on Hydrology, Ministry of Water Resources, Government of India, National Institute of Hydrology, p. 115. Google Scholar Bhattacharya, S.K., Froehlich, K., Aggrawal, P.K. and Kulkarni, K.M. (2003) Isotope variation in Indian monsoon precipitation: records from Bombay and New Delhi. Geophysical Research Letters, 30, 2285. 10.1029/2003GL018453 Web of Science®Google Scholar Bhattacharya, S.K., Gupta, S.K. and Krishnamurthy, R.V. (1985) Oxygen and hydrogen isotopic ratios in groundwaters and river waters from India: Proceedings of the Indian Academy of Sciences. Earth and Planetary Science, 94, 283–295. CASWeb of Science®Google Scholar Bicknell, B.R., Imhoff, J.C., Kittle, J.L., Donigian, A.S. and Johanson, R.C. (1993) Hydrological Simulation Program – Fortran Users Manual for Release 10: EPA-600/R-93/144, Environmental Research Laboratory, US Environmental Protection Agency, Athens, GA, p. 660. Google Scholar BIS (1990) Drinking Water Specifications, IS:10500. Bureau of Indian Standards, New Delhi. Google Scholar A.K. Biswas, Z. Dakang, J.E. Nickum and C. Liu (eds) (1983) Long-distance water transfer: A Chinese case study and international experiences, United Nations University Press, Water Resources Series, 6. Tokyo, Japan, p. 432. Google Scholar Blaikie, P., Cannon, T., Davis, I. and Wisner, B. (1994) At Risk: Natural Hazards, People's Vulnerability and Disasters, Routledge, London, p. 284. Google Scholar Blank, L. (1980) Statistical Procedures for Engineering, Management, and Science, McGraw-Hill, New York, p. 649. Google Scholar Blöschl, G. and Sivapalan, M. (1995) Scale issues in hydrological modelling: a review. Hydrological Processes, 9, 251–290. 10.1002/hyp.3360090305 Web of Science®Google Scholar BMJ (2007) Medical milestones. British Medical Journal, 334, s1–s20. Google Scholar Bondelid, T.R., Jackson, T.J. and McCuen, T.H. (1982) Estimating Runoff Curve Numbers Using Remote Sensing Data. Proceedings of the International Symposium on Rainfall-Runoff Modeling, Applied Modeling in Catchment Hydrology, Water Resources Publications, Littleton, CO, pp. 519–528. Google Scholar Boning, C.W. (1973) Index of Time-of-travel Studies of the US Geological Survey, US Geological Survey Water Resources Investigations 73–34, p. 71. Google Scholar Borole, D.V., Gupta, S.K. Krishnaswami, S., Datta, P.S. and Desai, B.I. (1979) Uranium Isotopic Investigations and Radiocarbon Measurement of River-Groundwater Systems, Sabarmati Basin, Gujarat, India, Isotopic Hydrology. IAEA, Vienna, pp. 181–201. Google Scholar Boulton, N.S. (1954) The drawdown of the water-table under non-steady conditions near a pumped well in an unconfined formation. Proceedings Institute of Civil Engineers, 3 (III), 564–579. Google Scholar Boulton, N.S. (1963) Analysis of data from non-equilibrium pumping tests allowing for delayed yield from storage. Proceedings Institute of Civil Engineers, 26, 469–482. 10.1680/iicep.1963.10409 Google Scholar Boulton, N.S. and Streltsova, T.D. (1975) New equations for determining the formation constants of an aquifer from pumping test data. Water Resources Research, 11, 148–153. 10.1029/WR011i001p00148 Web of Science®Google Scholar Bouwer, H. (1963) Theoretical effects of unequal water levels on the infiltration rate determined with buffered cylinder infiltrometers. Journal of Hydrology, 1, 29–34. 10.1016/0022-1694(63)90030-1 Google Scholar Bouwer, H. (1978) Groundwater Hydrology, McGraw-Hill, New York, p. 480. Google Scholar Bouwer, H. (2002) Artificial recharge of groundwater: hydrology and engineering. Hydrogeology Journal, 10, 121–142. 10.1007/s10040-001-0182-4 CASWeb of Science®Google Scholar Bowen, H.J.M. (1966) Trace Elements in Biochemistry, Academic Press, London and New York, p. 241. Google Scholar Box, G.E.P. and Jenkins, G.M. (1976) Time Series Analysis: Forecasting and Control, Holden Day, San Francisco, CA, p. 187. Google Scholar BR (1977) Groundwater Manual, Bureau of Reclamation, US Department of the Interior, p. 480. Google Scholar Bradford, G.R. (1963) Lithium survey of California's water resources. Soil Science, 96, 77–81. 10.1097/00010694-196308000-00001 Google Scholar Brown, J.A.H. (1983) Australia's Surface Water Resources, Government Publishing Service, Canberra, Australia, p. 177. Google Scholar Brown, L.R. and Halweil, B. (1998) China's water shortage could shake world food security. World Watch, 11, 10–18. CASPubMedGoogle Scholar Bruns, D.A., Minshall, G.W., Cushing, C.E., Cummins, K.W., Brock, J.T. and Vannote, R.C. (1984) Tributaries as modifiers of the river continuum concept: analysis by polar ordination and regression models. Archiv für Hydrobiologie, 99, 208–220. Web of Science®Google Scholar Brzezinski, M.A., Jones, J.L., Bidle, K.D. and Azam, F. (2003) The balance between silica production and silica dissolution in the sea: insights from Monterey Bay, California, Applied to the Global Data Set. Limnology and Oceanography, 48, 1846–1854. 10.4319/lo.2003.48.5.1846 CASWeb of Science®Google Scholar Buechler, S. and Devi, G.M. (2003) The Impact of Water Conservation and Reuse on the Household Economy. Proceedings of the Eighth International Conference on Water Conservation and Reuse of Wastewater, September 13–14, 2003, Mumbai. Google Scholar Bugmann, H. (1997) Scaling issues in forest succession modelling, in Elements of Change 1997 (eds S.J. Hassol and J. Katzenberger), Aspen Global Change Institute, Aspen, CO, pp. 47–57. Google Scholar Bullister, J.L., Wisegraver, D.P. and Menzia, F.A. (2002) The solubility of sulfur hexafluoride in water and seawater: Deep-Sea Research, Part 1, 49, 175–187. 10.1016/S0967-0637(01)00051-6 CASWeb of Science®Google Scholar Burger, A., Recordon, E., Bover, D., Cotton, L. and Saugy, F. (1984) Thermique des nappes souterraines, Presses Polytechniques Romandes, Lausanne, Switzerland. Google Scholar Burgy, R.H. and Luthin, J.N. (1956) A test of the single and double ring type infiltrometers. Transactions of American Geophysical Union, 37, 189–191. 10.1029/TR037i002p00189 Google Scholar Busenberg, E. and Plummer, N.L. (2000) Dating young ground water with sulfur hexafluoride: natural and anthropogenic sources of sulfur hexafluoride. Water Resources Research, 36, 3011–3030. 10.1029/2000WR900151 CASWeb of Science®Google Scholar Butler, J.N. (1998) Ionic Equlibrium: Solubility and pH Calculations, John Wiley & Sons, New York, p. 576. Google Scholar Camillo, P.J., Gurney, R.J. and Schmugge, T.J. (1983) A soil and atmospheric boundary layer model for evapotranspiration and soil moisture studies. Water Resources Research, 19, 371–380. 10.1029/WR019i002p00371 Web of Science®Google Scholar Carpenter, R. (1969) Factors controlling the marine geochemistry of fluorine. Geochemica et Cosmochemica Acta, 33, 1153–1167. 10.1016/0016-7037(69)90038-6 CASWeb of Science®Google Scholar Carroll, T.R. and Holroyd, E.W. (1990) Operational Remote Sensing of Snow Cover in the US and Canada, Proceedings of the International Symposium of Haydrulics and Irrigation Division, American Society of Civil Engineers, pp. 296–291. Google Scholar Carroll, T.R. and Vadnais, K.G. (1980) Operational Airborne Measurement of Snow Water Equivalent using Natural Terrestrial Gamma Radiation, 48th Annual Western Snow Conference, pp. 97–106. Google Scholar Castro, M.C., Stute, M. and Schlosser, P. (2000) Comparison of 4He ages and 14C ages in simple aquifer systems: implications for groundwater flow and chronologies. Applied Geochemistry, 15, 1137–1167. 10.1016/S0883-2927(99)00113-4 CASWeb of Science®Google Scholar Cayan, D.R., Redmond, K.T. and Riddle, L.G. (1999) ENSO and hydrologic extremes in the western United States. Journal of Climate, 12, 2881–2893. 10.1175/1520-0442(1999)012<2881:EAHEIT>2.0.CO;2 Web of Science®Google Scholar Chahine, M.T. (1992) The hydrological cycle and its influence on climate. Nature, 359, 373–380. 10.1038/359373a0 Web of Science®Google Scholar Chandrasekharam, D. and Antu, M.C. (1995) Geo-chemistry of Tattapani thermal springs, Madhya Pradesh, India – Field and experimental investigations. Geothermics, 24, 553–559. 10.1016/0375-6505(95)00005-B CASWeb of Science®Google Scholar Chandrasekharan, H., Sunandra Sarma, K.S., Das, D.K., Datta, D., Mookerjee, P. and Navada, S.V. (1992) Stable isotope contents of perched water under different land use and salinization conditions in the canal command of arid western Rajasthan. Journal of Arid Environments, 23, 365–378. Web of Science®Google Scholar Chang, A.T.C., Foster, J.L. Hall, D.K., Rang, A. and Hartline, B. (1982) Snow water equivalent estimation by microwave radiometry. Cold Regions Science and Technology, 5, 259–267. 10.1016/0165-232X(82)90019-2 Web of Science®Google Scholar Chang, A.T.C., Foster, J.L. and Hall, D.K. (1987) Nimbus-7 derived global snow cover parameters. Annals of Glaciology, 9, 39–44. 10.1017/S0260305500200736 Google Scholar Chang, A.T.C., Foster, J.L. and Hall, D.K. (1990) Effect of Vegetation Cover on Microwave Snow Water Equivalent Estimates. Proceedings of International Symposium on Remote Sensing and Water Resources, pp. 137–145. Google Scholar Chen, J., He, D. and Cu, S. (2003) The response of river water quality and quantity to the development of irrigated agriculture in the last four decades in the Yellow River Basin, China. Water Resources Research, 39, 1047. 10.1029/2001WR001234 CASWeb of Science®Google Scholar Chen, J.Y., Tang, C.Y., Sakura, Y., Kondoh, A. and Shen, Y.J. (2002) Groundwater flow and geo-chemistry in the lower reaches of the Yellow River: a case study in Shandang Province, China. Hydrogeology Journal, 10, 587–599. 10.1007/s10040-002-0231-7 Web of Science®Google Scholar Chen, J., Tang, C. et al. (2004) Spatial geochemical and isotopic characteristics associated with groundwater flow in the North China Plain. Hydrological Process, 18, 3133–3146. 10.1002/hyp.5753 Web of Science®Google Scholar Chenoweth, J. (2008) Looming water crisis simply a management problem. New Scientist, 199, 28–32. 10.1016/S0262-4079(08)62124-7 Web of Science®Google Scholar Chilton, J. and Seiler, K.-P. (2006) Groundwater occurrence and hydrogeological environments, in Protecting Groundwater for Health (eds O. Schmoll, G. Howard, J. Chilton and I. Chorus), IWA Publishing, London, pp. 21–47. Google Scholar Chin, D.A. (2000) Water Resources Engineering, Prentice Hall, Upper Saddle River, NJ, p. 750. Google Scholar Choudhury, B.J., Ahmed, N.U., Idso, S.B., Reginato, R.J. and Daughtry, C.S.T. (1994) Relations between evaporation coefficients and vegetation indices studied by model simulation. Remote Sensing of Environment, 50, 1–17. 10.1016/0034-4257(94)90090-6 Web of Science®Google Scholar Cianfrani, C.M., Hession, W.C. and Rizzo, D.M. (2007) Watershed imperviousness impacts on stream channel condition in southeastern Pennsylvania. Journal of the American Water Resources Association, 42, 941–956. 10.1111/j.1752-1688.2006.tb04506.x Web of Science®Google Scholar Clark, I.D. and Fritz, P. (1997) Environmental Isotopes in Hydrogeology, Lewis, Boca Raton, FL, p. 328. Web of Science®Google Scholar Clark, J.F., Davisson, M.L., Hudson, G.B. and Macfarlane, P.A. (1998) Noble gases, stable isotopes, and radiocarbon as traces of flow in the Dakota aquifer, Colorado and Kansas. Journal of Hydrology, 211, 151–167. 10.1016/S0022-1694(98)00233-9 CASWeb of Science®Google Scholar Clarke, W.B., Jenkins, W.J. and Top, Z. (1976) Determination of tritium by mass spectrometric measurement of 3He. International Journal of Applied Radiation Isotopes, 27, 515–522. 10.1016/0020-708X(76)90082-X CASWeb of Science®Google Scholar H.L. Clever (ed) (1979) Helium and neon – gas solubilities: Solubility data series, v. 1: Oxford, Pergamon Press, 393 p. Google Scholar Collins, W.D. (1923) Graphic representation of analyses. Industrial and Engineering Chemistry, 15, 394–394. 10.1021/ie50160a030 CASPubMedGoogle Scholar Colwell, J. and Sadowski, F. (1993) Past patterns as a guide for future forest management: using landsat photographic imagery. Remote Sensing of Environment, 13, 291–300. Google Scholar Cong, Z., Yang, D., Sun, F. and Ni, G. (2008) Evaporation Paradox in the Yellow River Basin, China: Hydrological Research in China: Process Studies, Modelling Approaches and Applications. Proceedings of Chinese PUB International Symposium, Beijing, September 2006. IAHS Publ. 322, pp. 3–8. Google Scholar Cong, Z., Yang, D., Gao, B., Yang, H. and Hu, H. (2009) Hydrological trend analysis in the Yellow River Basin using a distributed hydrological model. Water Resources Research, 45, W00A13, doi:10.1029/2008WR006852. 10.1029/2008WR006852 Web of Science®Google Scholar Constable, G. and Sommerville, B. (2003) A Century of Innovation: Twenty Engineering Achievements that Transformed our Lives, Joseph Henry Press, Washington, DC, p. 256. Google Scholar Cook, P.G. and Böhlke, J.K. (2000) Determining timescales for groundwater flow and solute transport, in Environmental Tracers in Subsurface Hydrology (eds P.G. Cook and A.L. Herczeg), Kluwer Academic Publishers, Boston, pp. 1–30. 10.1007/978-1-4615-4557-6_1 Google Scholar Cooper, H.H. (1959) A hypothesis concerning the dynamic balance of fresh water and salt water in a coastal aquifer. Journal of Geophysical Research, 64, 461–467. 10.1029/JZ064i004p00461 Web of Science®Google Scholar Cooper, H.H.J. and Jacob, C.E. (1946) A generalized graphical method for evaluating formation constants and summarizing well-field history. Transactions of American Geophysical Union, 27, 526–534. 10.1029/TR027i004p00526 Google Scholar Corbett, D.M. et al. (1945) Stream-gaging Procedure, US Geological Survey Water-Supply Paper 888, p. 245. Google Scholar Craig, H. (1961a) Isotopic variations in meteoric waters. Science, 133, 1702–1703. 10.1126/science.133.3465.1702 CASPubMedWeb of Science®Google Scholar Craig, H. (1961b) Standard for reporting concentrations of deuterium and oxygen-18 in natural water. Science, 133, 1833–1834. 10.1126/science.133.3467.1833 CASPubMedWeb of Science®Google Scholar Craig, H. and Lupton, J.E. (1976) Primordial neon, helium and hydrogen in oceanic basalts. Earth and Planetary Science Letters, 31, 369–385. 10.1016/0012-821X(76)90118-7 CASWeb of Science®Google Scholar Craig, H. and Weiss, R.F. (1971) Dissolved gas saturation anomalies and excess helium in the ocean. Earth and Planetary Science Letters, 10, 289–296. 10.1016/0012-821X(71)90033-1 CASWeb of Science®Google Scholar Cresswell, R. Wischusen, J., Jacobson, G. and Fifield, K.L. (1999a) Assessment of recharge to groundwater systems in the arid southwestern part of Northern Territory, Australia, using Chlorine-36. Hydrogeology Journal, 7, 393–404. 10.1007/s100400050211 Web of Science®Google Scholar Cresswell, R.G., Wischuse, J., Jacobson, G. and Fifield, K.L. (1999b) Ancient groundwaters in the Amadeus Basin, Central Australia: evidence from the radioisotope 36Cl. Journal of Hydrology, 233, 212–220. 10.1016/S0022-1694(99)00123-7 Web of Science®Google Scholar Critchley, W., Siegert, K. and Chapman, C. (1991) A Manual for the Design and Construction of Water Harvesting Schemes for Plant Production, Rome, Food and Agriculture Organization of the United Nations. Google Scholar Crosbie, R.S., McCallum, J.L., Walker, G.R. and Chiew, F.H.S. (2008) Diffuse Groundwater Recharge Modelling across the Murray-Darling Basin – A report to the Australian government from the CSIRO Murray-Darling Basin Sustainable Yields Project, CSIRO, Australia, p. 108. Google Scholar Cserepes, L. and Lenkey, L. (1999) Modelling of helium transport in groundwater along a section in the Pannonian basin. Journal of Hydrology, 225, 185–195.