SELECTED REFERENCES ON MINE WASTE AND MINE LANDS EVALUATION

This bibliography is the start of a compilation of pertinent references on mine waste topics from the literature. It mixes various topics including remote sensing, chemistry, GIS and mine location citations along with background information references.

REFERENCES

 

Airijants, A.A., Bortnikova, S.B., and Zimbalist, V.G., 1995, Redistribution of ore components in stored Dzhida plant tailings, Buratia, Russia, p. 847-850. Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410

Allison, J.D., Brown, D.S., and Novo-Grada, K.J. (1991), MINTEQA2/PRODEFA2, A Geochemical Assessment Model for Environmental Systems, version 3.0, EPA/600/3-91/021, 1991, Office of Research and Development, U.S. Environmental Protection Agency, Athens, GA.

Bertorino, G., Caredda, A.M., Ibba, A., and Zuddas, P., 1995, Weathering of Pb-Zn mine tailings in pH buffered environment, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p.859-862.

Boult, S., Collins, D.N., and White, K.N., 1994, Metal transport in a stream polluted by acid mine drainage - The Afon Goch, Anglesey, U.K.: Environmental Pollution, v. 84, no. 3, p. 279(-).

Brady, K.B.C., Rose, A.W., Cravotta, C.A., III, and Hellier, W.W., 1997, Bimodal distribution of pH in coal-mine drainage (abs.): Geological Society of America, GSA Abstracts with Programs, v. 29, no. 1, p. 32.

Blowes, D.W. and Jambor, J.L. (1990), The Pore-water Geochemistry and the Mineralogy of the Vadose Zone of Sulfide Tailings, Waite Amulet, Quebec, Canada., Applied Geochemistry, vol. 5, pp. 327-346.

Clarke, D. (1993), NewPet for DOS, Dept. of Earth Sciences, Memorial University of Newfoundland, St. John's, NF.

Cross, W., Iddings, J.P., Pirsson, L.V. and Washington, H.S. (1902), A Quantitative Chemicomineralogical Classification and Nomenclature of Igneous Rocks, Journal of Geology, v10, p555-690.

Danson, F.M.; Plummer, S.; Clark, C.D, 1996, Advances in Environmental Remote Sensing (Quaternary Science Reviews, Vol:15, Issue:1), pp.96-97

Drake, N.A., 1996, Reflectance spectra of evaporite minerals (400-2500 nm): applications for remote sensing (International Journal Of Rock Mechanics And Mining Sciences & Geomechanics, Vol: 33, Issue: 7), pp. 309A .

De Graaff, J.W.M., Speck, P.J.H.R., Schuiling, R.D., and Shmulovich, K.I., 1995, Neutralization of sulphuric acid by percolation through limestone, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p. 411-414.

Edmunds, W.M., 1995, Geochemical indicators in the groundwater environment of rapid environmental change, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p. 3-8.

Evangelou, V.P., and Zhang, Y.L., 1995, A review: Pyrite oxidation mechanisms and acid mine drainage prevention: Critical Reviews in Environmental Science and ..., v. 25, I. 2, p. 141(-).

Fanfani, L., 1995, Geochemical studies in an area contaminated by abandoned mine tailings, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p. 875-878.

Fanfani, L.; Zuddas, P.; Chessa, 19??, A Heavy metals speciation analysis as a tool for studying mine tailings weathering , pp. 302.
http://www.hbz-nrw.de/elsevier/13651617/sz971401/

Flanagan, N.E., Mitsch, W.J., and Beach, K., 1994, Predicting metal retention in a constructed mine drainage wetland: Ecological Engineering, v. 3, no. 2, p.135(-).

Garcia-Valles, M.; Vendrell-Saz, M.; Krumbein, W.E.; Urzi, C., 19??, Coloured mineral coatings on monument surfaces as a result of biomineralization: The case of the Tarragona cathedral (Catalonia), pp. 274
http://www.hbz-nrw.de/elsevier/13651617/sz971401/

Gee, C.; Ramsey, M.H.; Maskall, J.; Thornton, I.,19??, Mineralogy and weathering processes in historical smelting slags and their effect on the mobilisation of lead, pp. 302.
http://www.hbz-nrw.de/elsevier/13651617/sz971401/

Grzebisz, W., 1997, Remote sensing in investigation of.cultivated soils contaminated by a copper smelter, Geomechanics Abstracts, Vol: 1997, Issue: 5.www.hbz-nrw.de/elsevier/13651617/sz971401/

Grzebisz, W.; Kocialkowski, W.Z.; Chudzinski, B., 1997,Copper geochemistry and availability in cultivated soils contaminated by a copper smelter (Journal Of Geochemical Exploration, Vol: 58, Issue: 2-3), pp. 301-307 ,
http://www.hbz-nrw.de/elsevier/13651617/sz971401/

Herbert, Jr., Roger B., 1994, Metal transport in groundwater contaminated by acid mine drainage: Nordic Hydrology, v. 25, no. 3, p. 193(-).

Hotchkiss, W.R., Downey, J.S., Gutentag, E.D., and Moore, J.E., (eds.), 1995, Water Resources at Risk: Denver, Colo., American Institute of Hydrology, Water Resources at Risk Proceedings, May 14-18, 1995, 793 p.

Hynes, T.P., and Blanchette, M.C., (eds.), 1995, Proceedings of Sudbury 95 - Mining and the Environment. May 28 - June 1, 1995, Sudbury, Ontario, Canada , 3 volumes, CANMET, Ottawa. ISBN0-660-16043-9.

Jambor, J.L. (1994), Mineralogy of Sulfide-rich Tailings and Their Oxidation Products., in Environmental Geochemistry of Sulfide Mine-wastes, Mineralogical Association of Canada Short Course Vol. 22., pp. 59-102.

Jambor, J.L. and Blowes, D.W. (1998), Theory and Application of Mineralogy in Environmental Studies of Sulfide-Bearing Mine Wastes, in Modern Approaches to Ore and Environmental Mineralogy (Cabri, L.J. and Vaughan, D.J., eds.), Mineralogical Association of Canada Short Course Vol. 27, p367-402..

Jones, M.P. and Fleming, M.G. (1965), Identification of Mineral Grains, Elsevier, London, 102p.

Jurjovec, J., Blowes, D.W., and Ptacek, C.J., 1995, Acid neutralization in mill tailings and the effect of natrojarosite addition, v. 1, p. 29-38.

Kattelman, Richard, 1995, Impacts of gold mining on water resources of the Sierra Nevada: Denver, Colo., American Institute of Hydrology Water Resources at

Kharaka, Y.K., and Chudaev, O.V., (Eds.), 1995, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410-549-6, 911 p.

King, T.V.V., (ed.), 1995, Environmental considerations of active and abandoned mine lands: Lessons from Summitville, Colorado: U.S. Geological Survey Bulletin 2220, 38 p.

Kimball, B.A., Callender, E., and Axtmann, E.V., 1995, Effects of colloids on metal transport in a river receiving acid mine drainage, upper Arkansas River, Colorado, U.S.A.: Applied Geochemistry, v. 10, no. 3, p. 285(-).

Kruse, F., Hauff, P., Chamberlin, P., 1987, Clay problems encountered in gold heap leaching; in Small Mines Development in Precious Metals, Ta M. Li, Thomas M. Plouf, eds., Society of Mining Engineers, p.161-166.

Kruse, F., Hauff, P., Chamberlin, P.,1988, Clay Minerals in the Gold Heap Leach Environment in Bulk Mineable Precious Metal Deposits of the Western United States, Symposium Proceedings, R. Schafer, J. Cooper, P. Vikre, eds., The Geological Society of Nevada, p. 749.

Kruse, F., Hauff, P., Dietz, J., Brock, J., and Hampton L., April 1989, REM IV, Remedial Planning Activities at Selected Uncontrolled Hazardous Waste Sites - Zone II, Vol. I and II, CSES, CIRES, the University of Colorado at Boulder, Environmental Protection Agency Hazardous Site Control Division Contract No. 68-01-7251, 79 p.

Kwong, Y.T.J. and Ferguson, K.D. (1997), Mineralogical Changes during NP Determinations and their Implications, Proc. 4th International Conference on Acid Rock Drainage, Vancouver, BC, p 435-447.

Lachmar, T.E., 1994, Application of fracture-flow hydrogeology to acid-mine drainage at the Bunker Hill Mine, Kellogg, Idaho: Journal of Hydrology, v. 155, no. 1/2, p. 125(-).

Lawrence, R.W. and Sheske, M. (1997), A Method to Calculate the Neutralization Potential of Mining Wastes, Environmental Geology, v32, p 100-106.

McCrone, W.C., McCrone, L.B. and Delly, J.G. (1979), Polarized Light Microscopy, Ann Arbor Science Publishers, Ann Arbor, Michigan, 251p.

Miller, J.R., 19??, The role of fluvial geomorphic processes in the dispersal of heavy metals from mine sites, 286p.
http://www.hbz-nrw.de/elsevier/13651617/sz971401/

Mills, C. (1985), Specific Gravity Fractionation and Testing with Heavy Liquids, in SME Mineral Processing Handbook, American Institute of Mining, Metallurgical and Petroleum Engineers, New York, 30:44-52.

Mills, C. (1978), Mineralogy and Heavy Liquid Analysis in Gravity Separation, Short Course on Gravity Concentration Technology, University of Nevada, Reno, October, 25p.

Mountain, B.W., and Seward, T.M., 1995, The solubility of chalcocite and the speciation of copper in H2S-bearing solutions at 22 degrees C, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p. 815-818.

Nordstrom, D.K., and Alpers, C.N., 1995, Remedial investigations, decisions, and geochemical consequences at Iron Mountain Mine, California, v. 2, p. 633-642.

Oelkers, E.H., and Schott, J., 1995, The dependence of silicate dissolution rates on their structure and composition, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410 p. 153-156.

Paktunc, A.D. (1998a), Characterization of Mine Wastes for the Prediction of Acid Mine Drainage, in Environmental Impacts of Mining Activities - Emphasis on Mitigation and Remedial Measures (Azcue, J.M., ed.), Springer-Verlag, Berlin (in print).

Paktunc, A.D. (1998b), MODAN: An Interactive Computer Program for Estimating Mineral Quantities based on Bulk Composition, Computers & Geosciences, v24, n5, p 425-431.

Paktunc, A.D. (1998c), Discussion of A Method to Calculate the Neutralization Potential of Mining Wastes, Lawrence, R.W. and Sheske, M., Environmental Geology (in print).

Peters, D., 1993, Can lineaments be used to evaluate AML subsidence potential?: Case study for Colorado Springs, Colorado, in T.C. Richmond, comp., Proceedings of the Conference on Mine Subsidence in Urban and Developed Areas, September 9-10, 1993, Rock Springs, Wyoming: Wyoming Department of Environmental Quality, Abandoned Mine Land Division, p. 21-46.

Peters, D., 1994, 2D and 3D modeling as part of GIS database development for an inactive uranium mine (abstr.), in Proceedings of Sixth Annual GIS In The Rockies, September 27-29, 1994, Golden, Colorado: Denver, GIS In The Rockies. (unpaginated)

Peters, D., 1997, Use of historical aerial photographs and exploration drill logs to characterize waste dumps at an inactive uranium mine, in Proceedings of the 12th International Thematic Conference and Workshops on Applied Geologic Remote Sensing, November 17-19, 1997, Denver, Colorado: Ann Arbor, Environmental Research Institute of Michigan, p. I-57 - I-73.

Peters, D., 1998, Characterizing dumps at an inactive uranium mine through aerial photographs and drill logs, in tailings & Mine Waste Œ98: Rotterdam, A. A. Balkema, P. 339-347.

Peters, D., and Hauff, P., 1998, Multispectral remote sensing to characterize mine waste (Cripple Creek and Goldfield, USA), in F. Kuehn, B. Hoerig, T. King, and D. Peters, eds., Remote sensing for site characterization: Berlin, Springer, Methods in Environmental Geology, in press.

Peters, D., and Munson, R., 1996, Evaluation of potential for fracture-controlled subsidence using remote sensing: U.S. Bureau of Mines, AML Report, 76p.

Peters, D., and Smith, M.A., 1993, Developing a multiagency GIS database for environmental assessment of a river basin, in Proceedings of the Thirteenth Annual ESRI User Conference, May 24-28, 1993, Palm Springs, California: Redlands, California Environmental Systems Research Institute, Vol. 1, p. 335-347.

Peters, D., Hauff, P., and Livo, K., 1995, Inventorying and characterization of mine wastes through remote sensing: The Cripple Creek mining district, in Tailings & Mine Waste '95: Rotterdam, A.A. Balkema, p. 79-80.

Peters, D., Hauff, P., and Livo, K., 1995, Remote sensing for mine waste discrimination and characterization, in P.J. Curran and Y.C. Robertson, eds., Proceedings of RSS 95: Remote Sensing in Action, September 11-14, 1995, Southampton, United Kingdom: Nottingham, England, The Remote Sensing Society, p. 866-877.

Peters, D., Hauff, P., and Livo, K., 1996, Mine waste characterization via remote sensing in the Cripple Creek, Colorado, area and application to inventorying abandoned mines, in Proceedings of the 11th International Thematic Conference and Workshops on Applied Geologic Remote Sensing, February 27-29, 1996, Las Vegas, Nevada: Ann Arbor, Environmental Research Institute of Michigan, p. 187-188.

Peters, D., Hauff, P., and Livo, K., 1996, Remote sensing for analysis of mine subsidence and mine wastes: Environmental Geosciences, v. 3, no. 1, p. 11-20.

Peters, D.C.; Hills, S.J.; Pershouse, J.R. , 1995, Geologic Remote Sensing (Remote Sensing Of Environment, Vol: 53, Issue: 2) pp. 69

Puchelt, H., Berner, Z., Castro, J., and Rude, T., 1995, Influence of waters from sulfide mines and their dumps on surficial waters, soils, and plants, Proceedings of the 8th International Symposium on Water-Rock Interaction -WRI-8, Vladivostok, Russia, August 15-19, 1995, A.A. Balkema, Brookfield, VT, ISBN 90-5410p. 899-900.

Ritchie, A.I.M. (1994), The Waste-rock Environment, in Environmental Geochemistry of Sulfide Mine-wastes, Mineralogical Association of Canada Short Course Handbook (J.L. Jambor and D.W. Blowes, eds.), vol. 22, pp. 133-161.

Robbins, E.I., Anderson, J.E., Cravotta, C.A., III, Koury, D.J., Podwysocki, M.H., Stanton, M.R., and Growitz, D.J., 1996, Development and preliminary testing of microbial and spectral reflectance techniques to distinguish neutral form acidic drainages, in Chiang, S.H., ed., Proceedings 13th Annual International Pittsburgh Coal Conference, v.2, p. 768-775.

Robbins, E.I., Anderson, J.E., Podwysocki, M.H., and others, 1995, Red slime, oily films, and black rocks--Sensing the iron bacteria that make neutral streams look acid, in Carter, L., ed., USGS McKelvey Forum Energy and the Environment: U.S. Geological Survey Circular 1108, p. 109-111.

Robbins, E.I. Anderson, J., Podwysocki, M., Nord, G., Jr., Prugh, B., Jr., Stanton, M., and Sweet, P., 1996, Contrary Creek, Virginia-- Application of the MAST technique: U.S. Geological Survey Mine Drainage Interest Group Newsletter (http://water.wr.usgs.gov/mine/home.html).

Rycroft, M.J., 1996, Advances in Environmental Remote Sensing (Journal Of Atmospheric And Terrestrial Physics, Vol.: 58, Issue: 15), pp.

Stanton, M.R., and Growitz, D.J., 1996, Development and preliminary testing of microbial and spectral reflectance techniques to distinguish neutral from acidic drainages, in Chiang, S.-H., ed., Proceedings 13th Annual International Pittsburgh Coal Conference, v. 2, p. 768-775.

Thomson, B.M., 1994, Minerals and mine drainage: Water Environment Research, v. 66, no. 4, p. 415(-).

Thomson, B.M., and Turney, W.R., 1995, Minerals and mine drainage: Water Environment Research, v. 67, no. 4, p. 527(-).

USGS ­ Water resources Division
http://water.wr.usgs.gov/mine/sep/pub.html

Watson, K., and D. H. Knepper, eds., 1994, Airborne remote sensing for geology and the environment--Present and future: U.S. Geological Survey Bulletin 1926, 43p. (Peters was a contributing author to two chapters.)

Watson, K.; and Knepper, D.H., 1995, Airborne remote sensing for geology and the environment - present and future (International Journal Of Rock Mechanics And Mining Sciences & Geomechanics, Vol: 32, Issue: 4), pp.

Webb, J.A., and Sasowsky, I.D., 1994, The interaction of acid mine drainage with a carbonate terrane: evidence from the Obey River, north-central Tennessee: Journal of Hydrology, v. 161, no.1/4, p. 327(-).

Wieder, R.K., 1994, Diel changes in iron(III)/iron(II) in effluent from constructed acid mine drainage treatment wetlands: Journal of Environmental Quality, v. 23, no. 4, p. 730(-).