Summary
The use of fly ash as an amendment for strip mine soils has been studied under field conditions. Spoils ranging in pH from 4.0–6.0 were tested. The addition of fly ash in all cases was effective as an acid soil neutralizer and substantially enhanced the growth and development of all experimental plants. The parameters used in growth analyses were plant height, dry weight, root/shoot ratios, nodulation, pod production, and nitrogen fixing capacity for legumes. re]19761004
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Adams, L. M., Capp, J. P. and Gillmore, D. W., Coal mine spoil and refuse bank reclamation with powerplant fly-ash. Third Mineral-waste Utilization Symp. Chicago, Mar. 14–16 (1972).
Babcock, A., Spoil, gob, and fly-ash produce plant supporting soils. Nat. Ash Assoc. Tech. Bull. No.12 (1972).
Berg, W. A., Plant-toxic chemicals in acid spoils. Proc. Coal Mine Spoil Reclamation Symp. (1965).
Berg, W. A. and Vogel, W. G., Mn toxicity of legumes. U.S. For. Serv. Res. Pap. NE-119 (1968).
Berg, W. A. and May, R. F., Acidity and plant available phosphorous in strata overlying coal seams. Min. Congr. J. 55, 31–34 (1969).
Berg, W. A. and Vogel, W. G., Toxicity of acid coal mine spoils to plants.In Ecology and Reclamation of Devastated Land, V. I. by R. J. Hutnik and Grant Davis. Gordon and Breach, Pub., N. Y. (1973).
Bergersen, F. J., Nitrogen fixation in breis of soybean root nodules. Biochem. Biophys. Acta. 115, 247–279 (1966).
Bidwell, R. G. S., Plant Physiology. Macmillan Publ. Co. Inc., N. Y. 634 p. (1974).
Capp, J. P. and Adams, L. M., Reclamation of acid spoil with powerplant fly-ash. Nat. Ash Assoc., Mined Lands Redev. Wkshp. (1975).
Capp, J. P. and Engle, C. F., Fly-ash in agriculture. U. S. Dept. of Interior, Bu. of Mines Fly-ash Utilization Symp. (1967).
Capp, J. P. and Faber, J. H., Utilization of fly-ash. U. S. Dept. of Int., Bu. of Mines, Morgantown Coal Res. Center (1970).
Devlin, R. M.. Plant Physiology. Pub. Van Nostrand Reinhold Co. N. Y. 446 p. (1969).
Evans, H. J. and Russell, S. A.,In The Chemistry and Biochemistry of Nitrogen Fixation. J. F.Postgate. Ed. London. Plenum 191–224 (1971).
Gymer, R. G., Chemistry. An Ecological Approach, Harper & Row, Pub. N. Y. 801 p. (1973).
Hardy, R. W. F., Holsten, R. D., Jackson, E.N. and Burns, R. C., The acetylene-ethylene assay for N2 fixation: laboratory and field evaluation. Plant Physiol. 43, 1185–1207 (1968).
Jackson, W. A., Physiological effects of soil acidity.In Soil Acidity and Liming by R. W. Pearson and F. Adams. Am. Soc. Agron. pp. 43–66 (1967).
Jones, L. H., Al uptake and toxicity in plants. Plant and Soil, 13, 297–309 (1961).
Kohnke, H., The reclamation of coal mine spoils. Purdue Univ. Agric. Exp. Sta. (1950).
Martens, D. C. and Mulford, F. R., Fly-ash as fertilizer. Second Ash Utilization Sym. USDI, Bu. of Mines. Paper No. D.5. (1970).
Mulford, F. R. and Martens, D. C., Response of alfalfa to boron in fly-ash. Soil. Sci. Soc. Am. Proc.35, No. 2 (1971).
Murphy, L., Effects of fly-ash as a soil amendment on stripmined soils. Nat. Ash Assoc. Mined Land Redevelopment Wkshp. (1975).
Patterson J. C., Henderlong P. R. and Adams L. M., Sintered fly-ash as a soil modifier. Proc. W. Virginia Acad. Sci.40 (1970).
Planck, C. O. and Martens, D. C., Amelioration of soils with fly-ash. J. Soil Water Conserv.28, No. 4 (1973).
Schnappinger, M. G., Martens, D. C. and Planck, C. O., Zn availability as influenced by application of fly-ash to soil. Env. Sci. Techn.9, No. 3 (1975).
Schwinghamer, E. A., Evans, H. J. and M. D.Dawson. Evaluation of effectiveness in mutant strain of Rhizobium by acetylene reduction, relative to other criteria of N2 fixation. Plant and Soil 33, 192–212 (1970).
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Fail, J.L., Wochok, Z.S. Soybean growth on fly ashamended strip mine spoils. Plant Soil 48, 473–484 (1977). https://doi.org/10.1007/BF02187255
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DOI: https://doi.org/10.1007/BF02187255