The Proceedings of the Eighth International Conference on Creationism (2018)

the Total Environment 444:231-240. Moncur, M.C., D. Paktunc, S.J. Birks, C.J. Ptacek, B. Welsh, and Y. Thibault. 2015. Source and distribution of naturally occurring arsenic in groundwater from Alberta’s Southern Oil Sands Regions. Applied Geochemistry 62:171-185. Morton, G.R. 1998. The Fish is Being Served with a Delicate Creamy Mercury Sauce. (accessed March 25, 2005). [ http://home.entouch.net/ dmd/mercury.htm [this link no longer active]. Mukherjee, A., A.E. Fryar, and B.M. O’Shea. 2009. Major Occurrences of Elevated Arsenic in Groundwater and Other Natural Waters. In Arsenic: Environmental Chemistry, Health Threats, and Waste Treatmen t, ed. K.R. Henke, pp. 303-350. Chichester, UK: John Wiley and Sons Ltd. Mukherjee, A., S. Verna, S. Gupta, K.R. Henke, and P. Bhattacharya. 2014. Influence of tectonics, sedimentation, and aqueous flow cycles on the origin of global groundwater arsenic: Paradigms from three continents. Journal of Hydrolog y 518:284-299. Neidhardt, H., Z.A. Berner, D. Freikowski, A. Biswas, S. Majumder, J. Winter, C. Gallert, D. Chatterjee, and S. Norra. 2014. Organic carbon induced mobilization of iron and manganese in a West Bengal aquifer and the muted response of groundwater arsenic concentrations. Chemical Geolog y 367:51-62. Nickson, R.T., J.M. McArthur, P. Ravenscroft, W.G. Burgess, and K.M. Ahmed. 2000. Mechanism of arsenic release to groundwater, Bangladesh and West Bengal. Applied Geochemistr y 15:403-413. O’Day, P.A. 2006. Chemistry and mineralogy of arsenic. Element s 2:77- 83. Pokrovski, G.S., I.V. Zakirov, J. Roux, D. Testemale, J.L. Hazemann, A.Y. Bychkov, and G.V. Golikova. 2002. Experimental study of arsenic speciation in vapor phase to 500 o C: Implications for As transport and fractionation in low-density crustal fluids and volcanic gases. Geochemica and Cosmochemica Acta 66, no. 19:3453-3480. Redman, A.D., D.L. Macalady, and D. Ahmann. 2002. Natural organic matter affects arsenic speciation and sorption onto hematite. Environmental Science and Technolog y 36:2889-2896. Rudnick, R.L. and S. Gao. 2003. “Composition of the Continental Crust.” In Treatise of Geochemistry , ed. R.L. Rudnick. Vol. 3, pp. 1-64. London, UK: Elsevier. Saunders, J.A., M.K. Lee, M. Shamsudduha, P. Dhakal, A. Uddin, M.T. Chowdury, and K.M. Ahmed. 2008. Geochemistry and mineralogy of arsenic in (natural) anaerobic groundwaters. Applied Geochemistr y 23:3205-3214. Silvestru, E. 2008. Water inside fire. Journal of Creation 22, no. 1:3-4. Silvestru, E. 2007. The age of the Jenolan Caves, Austrailia. Journal of Creation 21, no. 1:92-97. Smedley, P.L. and D.G. Kinniburgh. 2002.Areview of the source, behavior, and distribution of arsenic in natural waters. Applied Geochemistry 17:517-568. Snelling, A.A. 2009a . Earth’s Catastrophic Past: Geology, Creation, and the Flood . Vol. 2. Dallas, Texas: Institute for Creation Research. Snelling, A.A. 2009b . Earth’s Catastrophic Past: Geology, Creation, and the Flood . Vol. 1. Dallas, Texas: Institute for Creation Research. Snelling, A.A. 1994. Towards a Creationist explanation of regional metamorphism. Journal of Creation 8, no. 1:51-77. Snelling, A.A. 1984. The recent, rapid formation of the Mount Isa orebodies during Noah’s Flood. Creation 6, no. 3:40-46. Tivey, M.K. 2007. Generation of seafloor hydrothermal vent fluids and associated mineral deposits. Oceanograph y 20, no. 1:50-65. Waychunas, G.A., C.C. Fuller, B.A. Rea, and J.A. Davis. 1996. Wide angle X-ray scattering (WAXS) study of “two line” ferrihydrite structure: Effect of arsenate sorption and counterion variation and comparison with EXAFS results. Geochemica and Cosmochemica Act a 60, no. 10:1765-1781. Xie, X., Y. Wang, A. Ellis, C. Liu, M. Duan, and J. Li. 2014. Impact of sedimentary provenance and weathering on arsenic distribution in aquifers of the Datong basin, China: Constraints from elemental geochemistry. Journal of Hydrolog y 519:3541-3549. THE AUTHORS Aaron Hutchison earned his B. A. in Chemistry from Cedarville University (then Cedarville College) in 1998 and his Ph.D. in Chemistry from the University of Kentucky in 2007. He is currently an associate professor of Chemistry at Cedarville University. Campbell Bortel is an independent researcher studying in his fourth year of geology at Cedarville University. Hutchison and Bortel ◀ Fate of Arsenic in the Flood ▶ 2018 ICC 237