Figure 3.5 Bottom sedimentation patterns from the accumulating fine sediment fall-out from the return water plume after 20 months of mining operation. Both figures show some evidence of sediment beyond the plume extent, but patchy and well below the background sedimentation rate for the region. Discharge Temperature at 5.8°C Discharge Temperature at 11.4°C Page 21 of 24
5 REFERENCES Bear, J. and Verruijt, A. 1987. Modeling groundwater flow and pollution with computer programs for sample cases. Kluwer Academic Publishers. Bonn Agreement, 1999. Chemical spills at sea – Case studies (Agenda item 3). 11th Meeting of the Contracting Parties, Brest, France, 29 September – 1 October 1999. Bonn Agreement, 2000. Bonn Agreement Counter Pollution Manual, Volume 2-Strategy/Policy of Pollution Combating, European Classification System. CambridgeSoft Corporation (2000). ChemFinder Database and Internet Searching. ChemFinder.Com. http://chemfinder.com Center for Disease Control and Prevention, National Institute for Occupational Safety and Health (NIOSH), 2004. International Chemical Safety Cards and International Program on Chemical Safety Projects, U.S. National Version. Available: http://www.cdc.gov/niosh/npg/npg.html The Centre for Environment Fisheries and Aquaculture Science (CEFAS), 2001. Toxicity Database. Available: http://www.cefas.co.uk/basic/toxdata.htm CERC, 1984. Shore protection manual, Vol. I. Coastal Engineering Research Center, Department of the Army, Waterways Experiment Station, U.S. Army Corps of Engineers, Vicksburg, MS. "Chemical Hazardous Response Information System" (CHRIS) U.S. Coast Guard Csanady, G.T., 1973. Turbulent diffusion in the environment. D. Reidel Publishing Company, Dordrecht, Holland, 74p. DiToro, D.M., Zarba, C.S., Hansen, D.J., Berry, W.J., Swartz, R.C., Cowan, C.E., Pavlou, S.P., Allen, H.E., Thomas, N.A., Paquin, P.R., 1991. Annual Review: Technical basis for establishing sediment quality criteria for nonionic organic chemicals using equilibrium partitioning. Environmental Toxicology and Chemistry 10: 1541-1583. EnvironTIPS, Environment Canada, 1985 European Chemical Bureau (EBC), 2002. European Chemical Bureau Newsletter 12 October 2002. Available: http://ihcp.jrc.it/DOCUMENTATION/ECB/newsletter200210.pdf European Chemical Bureau (EBC), 2004. Risk Assessment Reports. Available: http://ecb.jrc.it/existing-chemicals/ French, D., Reed, M., Jayko, K., Feng, S., Rines, H., Pavignano, S., Isaji, T., Puckett, S., Keller, A., French III, F. W., Gifford, D., McCue, J., Brown, G., MacDonald, E., Quirk, J., Natzke, S., Bishop, R., Welsh, M., Phillips, M., Ingram, B.S., 1996. The CERCLA Type A Natural Resource Damage Assessment Model for Coastal and Marine Environments (NRDAM/CME), Technical Documentation, Vol. I -VI, Final Report, submitted to the Office of Environmental Policy and Compliance, U.S. Dept. of the Interior, Washington, D.C., Contract No. 14-0001-91-C-11. April, 1996. Page 22 of 24
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Project director David Gwyther Proj
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Appendix 8 Juvenile Amphipod Whole
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10-day Survival of M. plumulosa Pag
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Centre for Environmental Contaminan
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Centre for Environmental Contaminan
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Appendix 9 Elutriate Testing Report
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Table of Contents 1. Introduction 3
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These elutriate tests were designed
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2. An aliquot(s) of sample after ce
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Table 1: pH, redox (Eh), conductivi
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1440 minutes which is also consiste
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Concentration (ppb) 250.0 200.0 150
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Concentration (ug/kg ore) (log scal
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Zinc sulfide is the most soluble of
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Table 5: Major ions in 0.45 !m filt
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3.5 Comparison to ANZECC/ARMCANZ (2
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5. References ANZECC/ARMCANZ (2000)
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Appendix 2: Phase 1: Metal concentr
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Appendix 4: Phase 1: Normalised dat
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Appendix 6: Phase 2: Quality contro
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- Page 157 and 158: MODELLING THE DISPERSION AND SETTLE
- Page 159 and 160: TABLE OF CONTENTS 1 EXECUTIVE SUMMA
- Page 161 and 162: 2 MODELLING METHODOLOGY AND DATA 2.
- Page 163 and 164: 2.3 The SSFATE Model Sediment dispe
- Page 165 and 166: Earth Mechanics Institute of the Co
- Page 167 and 168: 3 RESULTS AND DISCUSSION The calcul
- Page 169 and 170: Table 3.1. Summary of areas covered
- Page 171 and 172: Figure 3.3b. Sediment bottom thickn
- Page 173 and 174: Figure 3.3d. Sediment bottom thickn
- Page 175: 4 REFERENCES Swanson J.C., Isaji T.
- Page 179 and 180: MODELLING THE DISPERSION OF THE RET
- Page 181 and 182: TABLE OF CONTENTS 1 EXECUTIVE SUMMA
- Page 183 and 184: Given the range of tidal and basin
- Page 185 and 186: dispersion is modelled using a rand
- Page 187 and 188: Figure 2.1. Data from the ADCP at 6
- Page 189 and 190: 2.5 Outfall Configuration and Assum
- Page 191 and 192: 3 RESULTS AND DISCUSSION 3.1 Diluti
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- Page 199: Figure 3.4 A zoomed in comparison o
- Page 203: Rusin J., Lunel T. and Davies L., 1
- Page 207 and 208: Prediction of underwater noise asso
- Page 209 and 210: Table of Contents 1 Introduction ..
- Page 211 and 212: 1 Introduction This report presents
- Page 213 and 214: 2 Methods 2.1! Source modelling Cav
- Page 215 and 216: dB re 1uPa @ 1m 200 195 190 185 180
- Page 217 and 218: Figure 3. Source location for the s
- Page 219 and 220: Depth (m) 0 500 1000 1500 2000 2500
- Page 221 and 222: Figure 7. Plots of predicted receiv
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- Page 233 and 234: masking ranges for different marina
- Page 235 and 236: References Fisher, F. H., Simmons,
- Page 237: Appendix 14 The Potential for Natur
- Page 240 and 241: 'leaky' and recent lava flows have
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Environmental Impact Statement Solw
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Environmental Impact Statement Solw
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Environmental Impact Statement Solw
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Wewak (22 October 2007) Not recorde
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San Diego (17-18 April 2008) Enviro