Advanced search
Publication Cover
Toxicological & Environmental Chemistry Volume 99, 2017 - Issue 5-6
Submit an article Journal homepage
73
Views
2
CrossRef citations to date
0
Altmetric
Environmental Chemistry/Technology

The use of δ18O as an indicator of vanadium movement in a dormant stratovolcano region

Mst Shamsun NaharDepartment of Environmental Analysis, Earth Consultant Co. Ltd., Imizu, JapanCorrespondence[email protected] [email protected]
Pages 735-752 | Received 14 Sep 2016, Accepted 30 May 2017, Published online: 20 Jun 2017

References

  • Aravena, R., O. Suzuki, H. Peña, A. Pollastri, H. Fuenzalida, and A. Grilli. 1999. “Isotopic Composition and Origin of the Precipitation in Northern Chile.” Applied Geochemistry 14: 411–422.
  • Arculus, R. J., D. A. Gust, and K. Kushiro. 1991. “Fuji and Hakone.” National Geographic Research & Exploration 7: 276–309.
  • Arndt, N. T. 1986. “Differentiation of Komatiite Flows.” Journal of Petrology 27: 279–301.
  • ATSDR (Agency for Toxic Substances and Disease Registry). 2009. “Toxicological Profile for Vanadium.” (Draft for Public Comment). Atlanta, GA: U.S. Department of Health and Human Services, Public Health Service.
  • Badertscher, S., D. Fleitmann, H. Cheng, R. L. Edwards, O. M. Göktürk, A. Zumbühl, M. Leuenberger, and O. Tüysüz. 2011. “Pleistocene Water Intrusions from the Mediterranean and Caspian Seas into the Black Sea.” Nature Geoscience Letter 4: 236–239.
  • Badertscher, M., O. Tüysüz. 2011. “Pleistocene Water Intrusions from the Mediterranean and Caspian Seas into the Black Sea.” Nature Geoscience 4: 236–239.
  • Berner, E. K., and R. A. Berner. 1996. Global Environment: Water, Air, and Geochemical Cycles. 2nd ed. Upper Saddle River, NJ: Prentice-Hall.
  • Beswick, A. E. 1982. “Some Geochemical Aspects of Alteration and Genetic Relations in Komatiitic Suites.” In Komatiites, edited by N. T. Arndt and E. G. Nesbit, 283–308. London: George, Allen and Unwin..
  • Canil, D. 1997. “Vanadium Partitioning and the Oxidation State of Archaean Komatiite Magmas.” Nature 389: 842–845.
  • Chapelle, F. H. and L. L. Knobel. 1983. “Aqueous Geochemistry and the Exchangeable Cation Composition of Glauconite in the Aquia Aquifer.” Ground Water 21 (3): 343–352.
  • Clark, I. D., and P. Fritz. 1997. Environmental Isotopes in Hydrogeology. New York: Lewis.
  • Corrigan, G. M. March 1982. “Supercooling and the Crystallization of Plagioclase, Olivine, and Clinopyroxene from Basaltic Magmas.” Mineralogical Magazine 46: 31–42.
  • Craig, H. 1961. “Isotopic Variations in Meteoric Waters.” Science (New York, N.Y.) 133: 1702–1703.
  • Dafny, E., A. Burg, and H. Gvirtzman. 2006. “Deduction of Groundwater Flow Regime in a Basaltic Aquifer Using Geochemical and Isotopic Data: The Golan Heights, Israel Case Study.” Journal of Hydrology 330: 506–524.
  • Dansgaard, W. 1964. “Stable Isotopes in Precipitation.” Tellus 16: 436–468.
  • Fischer P., N. C. Sturchio, J. Stix, G. B. Arehart, D. Counce, and S. N. Williams. 1997. “The Chemical and Isotopic Composition of Fumarolic Gases and Spring Discharges from Galeras Volcano, Colombia.” Journal of Volcanology and Geothermal Research 77 (1–4): 229–253.
  • Garrels, R. M. 1967. “Genesis of Some Ground Waters from Igneous Rocks.” In Researches in Geochemistry, edited by P. H. Abelson, 405–420. New York: Wiley.
  • Garrels, R. M., and F. T. Mackenzie. 1971. Evolution of Sedimentary Rocks. New York: W. W. Norton.
  • Gibson, J. J., T. W. D. Edwards, S. J. Birks, N. A. St Amour, W. M. Buhay, P. McEachern, B. B. Wolfe, and D. L. Peters. 2005. “Progress in Isotope Tracer Hydrology in Canada.” Hydrological Processes 19: 303–327.
  • Gibson, J. J., E. E. Prepas, and P. McEachern. 2002. “Quantitative Comparison of Lake Through Flow, Residency, and Catchment Runoff Using Stable Isotopes: Modeling and Results from a Regional Survey of Boreal Lakes.” Journal of Hydrology 262: 128–144.
  • Gmati, S., N. Tase, M. Tsujimura, and Y. Tosaki. 2011. “Aquifers Interaction in the Southwestern Foot of Mt. Fuji, Japan, Examined Through Hydrochemistry and Statistical Analyses.” Hydrological Research Letters 5: 58–63.
  • Hoefs, J. 1997. Stable Isotope Geochemistry. 4th ed. Berlin: Springer-Verlag.
  • Hoefs, J. 2004. Stable Isotope Geochemistry, 1–244. Berlin: Springer-Verlag.
  • Howd, R. A. 2008. Proposed Notification Level for Vanadium. Los Angeles, CA: California Office of Environmental Health Hazard Assessment.
  • Ishibashi, H. 2009. “Non-Newtonian Behavior of Plagioclase-Bearing Basaltic Magma: Subliquidus Viscosity Measurement of the 1707 Basalt of Fuji Volcano, Japan.” Journal of Volcanology and Geothermal Research 181: 78–88.
  • lssar, A., and J. Gat. 1981. “Environmental Isotopes as Tool in Hydrogeological Research in Arid Basin.” Ground Water 19 (5): 490–494.
  • Langmuir, D. 1997. Aqueous Environmental Geochemistry, 600. Upper Saddle River, NJ: Prentice-Hall.
  • Michael, S. J., T.-C. Lee, and B. S. Hall 1989. “Groundwater Level and Hydrochemistry in the San Jacinto Basin, Riverside County, California.” Journal of Hydrology 106 (1): 79–98.
  • Nahar, M. S. 2017. “An Introduction to the New Degradation of Polyvinyl Chloride (PVC) Shower Hose.” Plastics, Rubber and Composites 46 (5): 212–222.
  • Nahar, M. S., M. N. Mondal, M. F. Hasan, J. Shahin, M. A. Haque, and A. Nishii. 2017. “Geochemical Color Maps of the Dhaka Water, Bangladesh—New Map Presentations for Toxic Metals and Isotopes.” Journal of Geoscience, and Environment Protection 5: 134–151.
  • Nahar, M. S., and J. Zhang. 2011. “Concentration and Distribution of Organic and Inorganic Water Pollutants in Eastern Shizuoka, Japan.” Toxicological and Environmental Chemistry 3: 1946–1955.
  • Nahar, M. S., and J. Zhang. 2012a. “Assessment of Sources Variation in Potable Water Quality Including Organic, Inorganic and Trace Metals.” Environmental Geochemistry and Health 34: 141–150.
  • Nahar, M. S., and J. Zhang. 2012b. Vanadium (V51) and Other Toxic Trace Metals Isotopes Sources: A Case Study from Natural Water Sources, Eastern Shizuoka, Japan, 29–30. Tokyo: Water and Environment Technology University of Tokyo.
  • Nahar, M. S., and J. Zhang. 2013. “Recovery of Trace Metal Isotopes in Seawater Samples Using Multifunctional Neem (Azadirachta indica) Biosorbent: A Comparison with Monofunctional NOBIAS−Chelate−PA1 Resin.” ACS Sustainable Chemistry & Engineering 1 (5): 488–495.
  • Piper, A. M. 1944. “A Graphical Procedure in the Geochemical Interpretation of Water Analysis.” Transactions American Geophysical Union 25: 914–928.
  • Rozanski, K., L. Araguas-Araguas, and R. Gonfiantini. 1993. “Isotopic Patterns in Modern Global Precipitation.” In: Climate Change in Continental Isotopic Records, edited by P. Swart, K. C. Lohmann, J. A. McKenzie, and S. Savin, 1–36. Washington, DC: American Geophysical Union.
  • Seko, Y., K. Watanabe, and T. Hasegawa. 2006. “Vanadium in Ground Water from Mt. Fuji: Does It Have Health Effect on Habitants Around the Mountain?” Chinese Journal of Geochemistry 25: 60–61.
  • Smith, H. S., and A. J. Erlank. 1982. “Geochemistry and Petrogenesis of Komatiites from the Barberton Greenstone Belt, South Africa.” In Komatiites, edited by N. T. Arndt and E. G. Nisbet, 347–397. London: Allen and Unwin.
  • Stumm, W., and J. J. Morgan. 1970. Aquatic Chemistry: An Introduction Emphasizing Chemical Equilibria in Natural Waters. New York: Wiley-Interscience.
  • Tian, L., T. Yao, K. MacClune, J. W. C. White, A. Schilla, B. Vaughn, R. Vachon, and K. Ichiyanagi. 2007. “Stable Isotopic Variations in West China: A Consideration of Moisture Sources.” Journal of Geophysical Research 112: D10112.
  • Tosaki, Y., N. Tase, K. Sasa, T. Takahashi, and Y. Nagashima. 2011. “Estimation of Groundwater Residence Time Using the 36Cl Bomb Pulse.” Groundwater 49 (6): 891–902.
  • Tsuchi, R. 2007. “Groundwater and Springs of Fuji Volcano, Japan.” In Fuji Volcano (in Japanese with English Abstract), edited by S. Aramaki, T. Fujii, S. Nakada, and N. Miyaji, 375–387. Yamanashi: Yamanashi Institute of Environmental Sciences.
  • U.S. Environmental Protection Agency. 2008. “Drinking Water Contaminant Candidate List 3-Draft; Notice.” Federal Register – Journals 73 (35): 9627–9654.
  • Yasuhara, M., K. Kazahaya, and A. Marui. 2007. “An Isotopic Study on Where, When, and How Groundwater is Recharged in Fuji Volcano, Central Japan.” In Fuji Volcano, edited by S. Aramaki, T. Fujii, F. Nakata, and N. Miyaji, 389–405. Yamanashi: Yamanashi Institute of Environmental Sciences.
  • Yasuhara, M., A. Marui, and K. Kazahaya. 1997. “Stable Isotopic Composition of Groundwater from Mt. Yatsugatake and Mt. Fuji, Japan.” IAHS Red Book Series 244, 335–344. CEH Wallingford, Oxfordshire, UK: IAHS.
  • Yoshioka, R., K. Kitaoka, and N. Koizumi. 1993. “Groundwater Flow Systems Inferred from Isotopic Compositions - A Case Study of Mishima City and Its Vicinity.” Journal of Groundwater Hydrology 35: 271–285. (In Japanese with English abstract).
  • Yoshimoto, M., T. Fujii, T. Kaneko, A. Yasuda, S. Nakada, and A. Matsumoto. 2010. “Evolution of Mount Fuji, Japan: Inference from Drilling into the Subaerial Oldest Volcano, Pre-Komitake.” Island Arc 19: 470–488.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.