| [1] | Widory D,Petelet-Giraud E, Negrel P, et al. Tracking the source of nitrate in groundwater using coupled nitrogen and boron isotopes: A synthesis[J]. Environmental Science and Technology, 2005, 39: 539-548 |
| [2] | Li S L, Liu C Q, Li J, et al. Assessment of the sources of nitrate in the Changjiang River, China using a nitrogen and oxygen isotopic approch[J]. Environmental Science and Technology, 2010, 44(5): 1573-1578 |
| [3] | Wu C, Maurer C, Wang Y, et al. Water pollution and human health in China[J]. Environmental Health Perspectives, 1999, 107(4): 251-256 |
| [4] | Kendall C. Tracing sources and cycling of nitrate in catchments//Kendall C, Mcdonnell J J (Eds.). Isotope tracers in catchment hydrology[M]. Amsterdam Elsevier, 1998: 519-576 |
| [5] | Silva S R, Lee P B, Ebbert R W, et al. Forensic applications of nitrogen and oxygen isotopes of nitrate in an urban environment[J]. Environmental Forensics, 2002, 3: 125-130 |
| [6] | Liu C Q, LI S L, Lang Y C, et al. Using delta N-15 and delta O-18 values to identify nitrate sources in karst ground water, Guiyang, Southwest China[J]. Environmental Science and Technology, 2006, 40(22): 6928-6933 |
| [7] | Seiler R L. Combined use of 15N and 18O of nitrate and 11B to evaluate nitrate contamination in groundwater[J]. Applied Geochemistry, 2005, 20: 1626-1636 |
| [8] | Faure G. Principles of Isotope Geology[M]. New York: Wiley and Sons Publishers, 1986 |
| [9] | Cook G A, Lauer C M. Oxygen//Clifford, Hampel A (Ed). The encyclopedia of the chemical elements[M]. New York: Wiley and Sons Publishers, 1968: 499-512 |
| [10] | Kendall C, Elliott E M, Wankel S D. Tracing anthropogenic inputs of nitrogen to ecosystems// Michener R, Lajtha K(Eds). Stable isotopes in ecology and environmental science(Second Edition)[M]. Oxford, UK: Blackwell Publishing Ltd, 2007: 375-449 |
| [11] | Hübner H. Isotope effects of nitrogen in the soil and biosphere//Fritz P, Fontes J C P (Eds). Handbook of Environmental Isotope Geochemistry[M]. Amsterdam: Elsevier, 1986: 361-425 |
| [12] | Heaton T H E. Isotopic studies of nitrogen pollution in the hydrosphere and atmosphere: a review[J]. Chemical Geology, 1986, 59: 87-102 |
| [13] | Flipse W J, Bonner F T. Nitrogen-isotope ratios of nitrate in ground water under fertilized fields, Long Island, New York[J].Ground Water, 1985, 23: 59-67 |
| [14] | Xue D M, Botte J, Baets B D, et al. Present limitations and future prospects of stable isotope methods for nitrate source identification in surface and groundwater[J]. Water Research, 2009, 43(5): 1159-1170 |
| [15] | Fogg G E, Rolston D E, Decker D L, et al. Spatial variation in nitrogen isotope values beneath nitrate contamination sources[J]. Ground Water, 1998, 36: 418-426 |
| [16] | Lee K S, Bong Y S, Lee D H, et al. Tracking the sources of nitrate in the Han River watershed in Korea, using δ15N-NO3- and δ18O-NO3- values[J]. Science of the Total Environment, 2008, 395(23): 117-124 |
| [17] | Pardo L H, Kendall C, Pett-Ridge J, et al. Evaluating the source of stream water nitrate using 15N and18O in nitrate in two watersheds in New Hampshire, USA[J]. Hydrological Process, 2004, 18: 2699-2712 |
| [18] | Amberger A, Schmididt H L. Natürliche isotopengehalte von nitat als indikatoren für dessen herkunft[J]. Geochim et Cosmochim Acta, 1987, 51: 2699-2705 |
| [19] | Durka W, Schulze E D, Gabauer G, et al. Effects of forest decline on uptake and leaching of deposited nitrate determined from 15N and 18O measurements[J]. Nature, 1994, 372: 765-767 |
| [20] | Hollocher T C. Source of the oxygen atoms of nitrate in the oxidation of nitrite by Nitrobacter agilis and evidence against a P-O-N anhydride mechanism in oxidative phosphorylation[J]. Arch Biochem Biophys, 1984, 233: 721-727 |
| [21] | Chang C C Y, Langston J, Riggss M, et al. Method for nitrate collection for 15N and18O analysis from waters with low nitrate concentrations[J]. Can J Fish Aquat Sci,1999, 56: 1856-1864 |
| [22] | Silva S R, Kendall C, Wilkson D H, et al. A new method for collection of nitrate from fresh water and the analysis of nitrogen and oxygen isotope ratios[J]. J Hydrol, 2000, 228: 22-36 |
| [23] | Fukada T, Hiscock K M, Dennis P F, et al. A dual isotope approach to identify denitrification in ground water at a river bank infiltration site[J]. Water Resources, 2003, 37: 3070-3078 |
| [24] | Kendall C, Grim E. Combustion tube method for measurement of nitrogen isotope ratios using calcium oxide for total removal of carbon dioxide and water[J]. Anal Chem, 1990, 62: 526-529 |
| [25] | Sigman D M, Casciotti K L, Andreani M, et al. A bacterial method for the nitrogen isotopic analysis of nitrate in seawater and freshwater[J]. Anal Chem, 2001, 73: 4145-4153 |
| [26] | Rock L, Ellert B H. Nitrogen-15 and oxygen-18 natural abundance of potassium chloride extractable soil nitrate using the denitrifier method[J]. Soil Sci Soc Am J, 2007, 71: 355-361 |
| [27] | CasiottiK L, Sigman D M, GlanterHastings M, et al. Measurement of the oxygen isotopic composition of nitrate in seawater and freshwater using the denitrifier method[J]. Anal Chem, 2002, 74: 4905-4912 |
| [28] | Mcilvin M R, Altabet M A. Chemical conversion of nitrate and nitrite to nitrous oxide for nitrogen and oxygen isotopic analysis in freshwater and seawater[J]. Anal Chem, 2005, 77: 589-595 |
| [29] | Wood E D, Armstrong F A J, Richards F A. Determinationof nitrate in seawater by cadmium-copper reduction to nitrite[J]. J Mar Biol Assoc, 1967, 47: 23-31 |
| [30] | Margeson J H, Suggs J C, Midett M R. Reduction of nitrate to nitrite with cadmium[J]. Anal Chem, 1980, 52: 1955-1957 |
| [31] | Kellman L M. A study of tile drain nitrate-delta N-15 values as a tool for assessing nitrate sources in an agricultural region[J]. Nutr Cycle Agroecosyst, 2005, 71: 131-137 |
| [32] | Griffiths H. Stable Isotopes: Integration of Biological, Ecological and Geochemical Processes[M]. BIOS Scientific Publishers, 1998 |
| [33] | Feigin A, Shearea G, Kohl D H, et al. The amount and nitrogen-15 content of nitrate in soil profiles from two central Illinois fields in a corn-soybean rotation[J]. Soil Sci Soc Amer Proc, 1974, 38: 465-471 |
| [34] | Glibert P M, Capone D G. Mineralization and assimilation in aquatic, sediment, and wetland systems//Knowles R, Blackburn T H (Eds). Nitrogen Isotope Techniques[M]. New York: Academic Press, 1993: 243-272 |
| [35] | Fogel M L, Cifuentes L A. Isotope fractionation during primary production//Engel M H, Macko S A.Organic Geochemistry[M]. New York: Plenum Press, 1993: 73-98 |
| [36] | Macko S A, Ostrom N E. Molecular and pollution studies using stable isotope//Lajtha K, Michner R (Eds). Stable Isotopes in Ecology and Environmental Science[M]. Oxford, UK: Blackwell Scientific, 1994: 45-62 |
| [37] | Kool D M, Wrage N, Oenema O, et al. Oxygen exchange between (de)nitrification intermediates and H2O and its implication for source determination of NO3- and N2O: a review[J]. Rapid Commun Mass Spectrom, 2007, 21: 3569-3578 |
| [38] | Koba K, Tokuchi N, Wada E, et al. Intermittent denitrification: The application of a 15N natural abundance method to a forested ecosystem[J]. Geochimica et Cosmochimica Acta, 1997, 61: 5043-5050 |
| [39] | Smith V H, Tilman G D, Nekola J C. Eutrophication: Impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems[J]. Environmental Pollution, 1999, 100: 179-196 |
| [40] | Sebilo M, Billen G, Mayer B, et al. Assessing nitrification and denitrification in the Seine River and estuary using chemical and isotopic techniques[J]. Ecosystems, 2006, 9: 564-577 |
| [41] | Mengis M, Schiff S L, Harris M, et al. Multiple geochemical and isotopic approaches for assessing ground water NO3- elimination in a riparian zone[J]. Ground Water, 1999, 37: 448-457 |
| [42] | Mosier A R, Schimel D S. Nitrification and denitrification//Knowles R, Blackburn T H (Eds). Nitrogen Isotope Techniques[M]. San Diego: Academic Press, 1993: 181-208 |
| [43] | Town-send A, Mccarthy M J, Brandes J A, et al. Stable isotopic composition of nitrate in Lake Taihu, China, and major inflow rivers[J]. Hydrobiologia, 2007, 194(3): 135-140 |
| [44] | Choi W J, Han G H, Lee S M, et al. Impact of land-use types on nitrate concentration and δ15N in unconfined ground water in rural areas of Korea[J]. Agric Ecosyst Environ, 2007, 120: 259-268 |
| [45] | Voss M, Deutsch B, Elmgren R, et al. Sources identification of nitrate by means of isotopic tracers in the Baltic Sea catchments[J]. Biogeosciences, 2006, 3: 663-676 |
| [46] | Lang Y C, Liu C Q, Zhao Z Q, et al. Geochemistry of surface and ground water in Guiyang city, China: Water/rock interaction and pollution in karst hydrological system[J]. Applied Geochemistry, 2006, 21: 887-903 |
| [47] | Deutsch B, Kohle P, Voss M. Assessing the source of nitrate pollution in water using stable N and O isotopes[J]. Agron Sustain Dev, 2006, 26: 263-267 |
| [48] | Philips D L, Koch P L. Incorporating concentration dependence in stable isotope mixing models[J]. Oecologia, 2002, 130: 114-125 |
| [49] | Moore J W, Semmens B X. Incorporating uncertainty and prior information into stable isotope mixing models[J]. Ecol Lett, 2008, 11: 470-480 |