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University of Pretoria etd – Van der Waals, J H (2006)
References
Adriano, D. C. 1986. Trace elements in the terrestrial environment. Springer-Verlag,
New York, pp 533.
Albasel, A. & Cottenie, N. 1985. Heavy metals uptake form contaminated soils as
affected by peat, lime, and chelates. Soil Sci. Soc. Amer. J. 49: 386-390.
Allen, H.E. & Yin, Y. 1996. The importance of organic matter on the sorption of
cadmium and mercury to soil. The 6th International Conference on Preservation of
Our World in the Wake of Change, Jerusalem, Israel.
Alloway, B.J. 1995. Heavy Metals in Soils. Blackie Academic and Professional,
Glasgow, pp 368.
Aubert, H. & Pinta, M. 1977. Trace elements in soils (Translated from French).
Elsevier, Amsterdam, pp 395.
Beckett, P.H.T., 1989. The use of extractants in studies on trace metals in soils,
sewage sludges, and sludge treated soils. In Stewart, B.A. (Ed.), Advances in soil
science, vol. 9. Springer-Verlag, New York, pp 143-176.
Bibak, A., Gerth, J. & Borggaard, O.K. 1995. Retention of cobalt by an oxisol in
relation to the content of iron and manganese oxides. Commun. Soil Sci. Plant Anal.
26(5&6): 785-798.
Biederbeck, V.O. 1978. Soil organic sulfur and fertility. In Schnitzer, M. & Khan,
S.U., (Eds.), Soil organic matter. Developments in Soil Science Vol. 8. Elsevier
Scientific Publishing Company, Amsterdam, pp 273-310.
Bloomfield, C. & Pruden, G. 1975. The effects of aerobic and anaerobic incubation on
the extractabilities of heavy metals in digested sewage sludge. Environ. Pollut. 8:217232.
82
University of Pretoria etd – Van der Waals, J H (2006)
Bourg, A.C.M. 1995. Speciation of heavy metals in soils and groundwater and
implications for their natural and provoked mobility. In Salomons, W., Förstner, U.,
and Mader, P., (Eds.), Heavy metals. Springer-Verlag, Berlin. pp 19-31.
Boyle, M. & Paul, E.A. 1989. Carbon and nitrogen mineralization kinetics in soil
previously amended with sewage sludge. Soil Sci. Soc. Amer. J. 53: 99-103.
Brallier, S., Harrison, R.B., Henry, C.L. & Dongsen, X. 1996. Liming effects on
availability of Cd, Cu, Ni, and Zn, in a soil amended with sewage sludge 16 years
previously. Water Air Soil Poll. 86: 195-206.
Brooks, P.C. & McGrath, S.P. 1984. Effects of metal toxicity on the size of the soil
microbial biomass. J. Soil Sci. 35: 341-346.
Brown, S., Chaney, R. & Angle, J.S. 1997. Subsurface liming and metal movement in
soils amended with lime-stabilized biosolids. J. Environ. Qual. 26: 724-732.
Bruemmer, G.W. & Van der Merwe, D., 1989. Report on a visit to the Soil and
Irrigation Research Institute, Pretoria: In connection with soil pollution in the R.S.A.
and future research requirements. Unpublished report, ISCW, Pretoria.
Cajuste, L.J. & Laird, R.J., 2000. The relationship between phytoavailability and the
extractability of heavy metals in contaminated soils. In Iskandar, I.K. (Ed.),
Environmental restoration of metals-contaminated soils. Lewis Publishers, Boca
Raton, Florida, pp 189-198.
Campbell, C.A. 1978. Soil organic carbon, nitrogen and fertility. In Schnitzer, M., &
Khan, S.U., (Eds.), Soil organic matter. Developments in Soil Science Vol. 8. Elsevier
Scientific Publishing Company, Amsterdam, pp 173-271.
Chan, K.Y. & Heenan, D.P. 1999. Lime-induced loss of soil organic carbon and effect
on aggregate stability. Soil Sci. Soc. Amer. J. 63: 1841-1844.
83
University of Pretoria etd – Van der Waals, J H (2006)
Chaney, R.L., Ryan, J.A., Kukier, U., Brown, S.L., Siebielec, G., Malik, M. & Angle,
J.S. 2001. Heavy metal aspects of compost use. In: Stoffella, P.J. & Kahn, B.A.
(Eds.), Compost utilization in horticultural cropping systems. CRC Press, Boca Raton,
Florida, pp 323-359.
Choudhry, G.G. 1984. Humic substances: Structural, photophysical, photochemical
and free radical aspects and interactions with environmental chemicals. Current topics
in environmental and toxicological chemistry, Vol. 7. Gordon and Breach Science
Publishers, pp 185.
Clapp, C.E., Hayes, M.H.B. & Swift R.S., 1993. Isolation, fractionation,
functionalities, and concepts of structures of soil organic macromolecules. In Beck,
A.J., Jones, K.C., Hayes, M.H.B. & Mingelgrin, U., (Eds.), Organic substances in soil
and water: natural constituents and their influences on contaminant behaviour. The
Royal Society of Chemistry, Cambridge, pp 31-69.
Clark, M.D. & Gilmour, J.T. 1983. The effect of temperature on decomposition at
optimum and saturated soil water contents. Soil Sci. Soc. Amer. J. 47: 927-929.
Curtin, D. & Smillie, G.W. 1983. Soil solution composition as affected by liming and
incubation. Soil Sci. Soc. Amer. J. 47: 701-707.
Darmody, R.G., Foss, J.E., McIntosh M.S. & Wolf, D.C. 1983. Municipal sewage
sludge compost-amended soils: Some spatiotemporal treatment effects. J. Environ.
Qual. 12: 231-236.
Davies, B.E., 1980. Trace element pollution. In Davies, B.E. (Ed.), Applied soil trace
elements. Wiley, New York, pp 287-351.
Doelman, P. and Haanstra, L. 1979. Effect of lead on soil respiration and
dehydrogenase activity. Soil Biol. Biochem. 11: 475-479.
84
University of Pretoria etd – Van der Waals, J H (2006)
Doelman, P. & Haanstra, L. 1984. Short-term and long-term effects of cadmium,
chromium, copper, lead, and zinc on soil microbial respiration in relation to abiotic
soil factors. Plant and Soil 79: 317-327.
Dowdy, R.H. & Volk, V.V. 1983. Movement of heavy metals in soils. In Nelson,
D.W., et al. (Eds.), Chemical mobility and reactivity in soil systems. SSSA Special
Publication Number 11. Madison, WI. pp 229-240.
Dubach, P. & Mehta, N.C. 1963. The chemistry of soil humic substances. Soils and
Fertilizers 16(5): 293-300.
Emmerich, W.E., Lund, L.J., Page, A.L. & Chang, A.C. 1982. Movement of heavy
metals in sewage sludge-treated soils. J. Environ. Qual. 11: 174-178.
Fendorf, S.E., Li, G. & Gunter, M.E. 1996. Micromorphologies and stabilities of
chromium (III) surface precipitates elucidated by scanning force microscopy. Soil Sci.
Soc. Amer. J. 60: 99-106.
Grove, J.H. & Ellis, B.G. 1980. Extractable iron and manganese as related to soil pH
and applied chromium. Soil Sci. Soc. Amer. J. 44: 243-246.
He, Z., Yang, X., Kahn, B.A., Stoffella, P.J. & Calvert, D.V. 2001. Plant nutrition
benefits of phosphorus, potassium, calcium, magnesium, and micronutrients from
compost utilization. In Stofella, P.J. & Kahn, B.A. (Eds.), Compost utilization in
horticultural cropping systems. Lewis Publishers, Boca Raton, Florida, pp 307-320.
Hendershot, W.H. & Duquette, M. 1986. A simple barium chloride method for
determining cation exchange capacity and exchangeable cations. Soil Sci. Soc. Amer.
J. 50: 605-608.
Herselman, J.E. & Steyn, C.E., 2001. Predicted concentration of trace elements in
South African soils. Report no. GW/A/2001/14, ISCW, Pretoria.
85
University of Pretoria etd – Van der Waals, J H (2006)
Hinesly, T.D., Redborg, K.E., Ziegler, E.L. & Alexander, J.D. 1982. Effect of soil
cation exchange capacity on the uptake of Cd by corn. Soil Sci. Soc. Amer. J. 46: 490497.
Hooda, P.S., McNulty, D., Alloway, B.J. & Aitken, M.N. 1997. Plant availability of
heavy metals in soils previously amended with heavy applications of sewage sludge.
J. Sci. Food Agric. 73: 446-454.
Hue, N.V. 1995. Sewage sludge. In Soil amendments and environmental quality.
Rechcigl, J.E. (Ed.), Lewis Publishers, Boca Raton, Florida, pp 199-247.
Impellitteri, C.A., Allen, H.E., Yin, Y., You, S.J. & Saxe, J.K. 2001. Soil properties
controlling metal partitioning. In Selim, H.M. & Sparks, D.L. (Eds.), Heavy metals
release in soils. CRC Press, Boca Raton, Florida, pp 149-165.
Jinadasa, K.B.P.N., Dissanayake, C.B. & Weerasooriya, S.V.R. 1995. Sorption of
toxic metals on goethite: Study of cadmium, lead and chromium. Int. J. Environ.
Studies 48(1): 7-16.
Kabata-Pendias, A. 2001. Trace Elements in Soils and Plants. 3rd ed. CRC Press, Boca
Raton, Florida, pp 413.
Kaupenjohann, M. & Wilcke, W. 1995. Heavy metal release from serpentine soil
using a pH-stat technique. Soil Sci. Soc. Amer. J. 59: 1027-1031.
Kedziorek, M.A.M. & Bourg, A.C.M. 1996. Acidification and mobilization of heavy
metals from single and dual-component model solids. Applied Geochemistry, 11: 299304.
Kobayashi, J., Morii, F. & Muramoto, S. 1974. Removal of cadmium from polluted
soil with the chelating agent, EDTA. In Hemphill, D. (Ed.), Trace Substances in
Environmental Health, Vol. 8. Missouri. pp179-192
86
University of Pretoria etd – Van der Waals, J H (2006)
Korentajer, L. 1991. A review of the agricultural use of sewage sludge: Benefits and
potential hazards. Water SA 17(3): 189-196.
Kuo, S. & Baker A.S. 1980. Sorption of copper, zinc, and cadmium by some acid
soils. Soil Sci. Soc. Amer. J. 44: 969-974.
Lake, D.L., Kirk, P.W.W. & Lester, J.N. 1984. Fractionation, characterization, and
speciation of heavy metals in sewage sludge and sludge-amended soils: a review. J.
Environ. Qual. 13: 175-183.
Laperche, V. 2000. Immobilization of lead by in situ formation of lead phosphates in
soils. In Iskandar, I.K. (Ed.), Environmental restoration of metals-contaminated soils.
Lewis Publishers, Boca Raton, Florida, pp 61-76.
LeClaire, J.P., Chang, A.C., LeVesque, C.S. & Sposito, G. 1984. Trace metal
chemistry in arid-zone field soils amended with sewage sludge: IV. Correlations
between zinc uptake and extracted soil zinc fractions. Soil Sci. Soc. Amer. J. 48: 509513.
Legret, M., Divet, L. & Juste, C. 1988. Movement and speciation of heavy metals in a
soil amended with sewage sludge containing large amounts of Cd and Ni. Water Res.
22: 953-959.
Lindemann, W.C., Connell, G. & Urquhart, N.S. 1988. Previous sludge addition
effects on nitrogen mineralization in freshly amended soil. Soil Sci. Soc. Amer. J. 52:
109-112.
Linn, D.M. & Doran, J.W. 1984. Effect of water-filled pore space on carbon dioxide
and nitrous oxide production in tilled and nontilled soils. Soil Sci. Soc. Amer. J. 48:
1267-1272.
Logan, T.J. 1992. Reclamation of chemically degraded soils. In Advances in Soil
Science, Vol. 17. Springer-Verlag, New York. pp 13-35.
87
University of Pretoria etd – Van der Waals, J H (2006)
Lund, L.J., Page, A.L. & Nelson, C.O. 1976. Movement of heavy metals below
sewage disposal ponds. J. Environ. Qual. 5: 330-334.
Martin, A.E. & Reeve, R. 1957. Chemical studies on podzolic illuvial horizons. I. The
extraction of organic matter by organic chelating agents. J. Soil Sci. 8(2): 268-278.
Mayer, R. 1991. The impact of atmospheric acid deposition on soil and vegetation. In
Vernet, J.P. (Ed), Heavy metals in the environment. Elsevier, Amsterdam, pp 21-36.
McIlveen, W.D. & Cole, H., Jr. 1974. Influence of heavy metals on nodulation of red
clover. Phytopathology 64: 583.
McLaughlin, M.J., Zarcinas, B.A., Stevens, D.P. & Cook, N. 2000. Soil testing for
heavy metals. Commun. Soil Sci. Plant Anal. 31(11-14): 1661-1700.
Merrington, G. & Alloway, B.J. 1997. Determination of the residual metal binding
characteristics of soils polluted by Cd and Pb. Water Air Soil Poll. 100: 49-62.
Miller, R.H. 1974. Factors affecting the decomposition of an anaerobically digested
sewage sludge in soil. J. Environ. Qual. 3: 376-380
Molina, J.A.E., Braids, O.C., Hinesly, T.D. & Cropper, J.B. 1971. Aeration-induced
changes in liquid digested sewage sludge. Soil Sci. Soc. Amer. Proc. 35: 60-63.
Moore, T.R. 1997. Dissolved organic carbon: sources, sinks, and fluxes and role in the
soil carbon cycle. In Lal, R., Kimble, J.M., Follet, R.F. & Stewart, B.A. (Eds.), Soil
processes and the carbon cycle. CRC Press, Boca Raton, Florida, pp 281-292.
Mortensen, J.L. 1963. Complexing of metals by soil organic matter. Soil Sci. Soc.
Amer. Proc. 27: 179-186.
Mullins, G.L., Sommers, L.E. & Barber, S.A. 1986. Modelling the plant uptake of
cadmium and zinc from soils treated with sewage sludge. Soil Sci. Soc. Amer. J. 50:
1245-1250.
88
University of Pretoria etd – Van der Waals, J H (2006)
Nederlof, M.M. & van Riemsdijk, W.H. 1995. Effect of natural organic matter and pH
on the bioavailability of metal ions in soils. In Huang, P.M., Berthelin, J., Bollag,
J.M., McGill, W.B. & Page, A.L., (Eds.), Environmental impact of soil component
interactions: metals, other inorganics, and microbial activities. Lewis Publishers, Boca
Raton, Florida, pp 75-86.
The Non-Affiliated Soil Analysis Work Committee, 1990. Handbook of standard soil
testing methods for advisory purposes. Soil Science Society of South Africa, Pretoria.
Pal, D. & Broadbent, F. E. 1981. Leaching of calcium and magnesium from soil
columns as affected by form of nitrogen in applied sewage. Soil Sci. Soc. Amer. J. 45:
56-60.
Quraishi, M.S.I. & Cornfield, A.H. 1973. Incubation study of nitrogen mineralisation
and nitrification in relation to soil pH and level of copper(II) addition. Environ. Poll.
4: 159-163.
Robertson, W.K., Lutrick, M.C. & Yuan, T.L. 1982. Heavy applications of liquiddigested sludge on three Ultisols: I. Effects on soil chemistry. J. Environ. Qual. 11:
278-282.
Rother, J.A., Millbank, J.W. & Thornton, I. 1982. Effects of heavy-metal additions on
ammonification and nitrification in soils contaminated with cadmium, lead, and zinc.
Plant and Soil 69: 239-258.
Sauerbeck, D.R. 1991. Plant element and soil properties governing uptake and
availability of heavy metals derived from sewage sludge. Water Air Soil Poll. 57-58:
227-237.
Scheffer, F., Wright, J.R. & Desjardins, J.G.A. 1958. Comparison of the effectiveness
of various extractants of organic matter from two horizons of a Podzol profile. Can. J.
Soil Sci. 38: 49-53
89
University of Pretoria etd – Van der Waals, J H (2006)
Schnitzer, M. 1971. Characterization of humic constituents by spectroscopy. In
McLaren, A.D. & Skujiņš, J. (Eds.), Soil biochemistry, Vol. 2. Marcel Dekker, Inc.,
New York, pp 60-95.
Schnitzer, M. 1978. Humic substances: chemistry and reactions. In Schnitzer, M., &
Khan, S.U., (Eds.), Soil organic matter. Developments in Soil Science Vol. 8. Elsevier
Scientific Publishing Company, Amsterdam, pp 1-64.
Schwarz, A., Wilcke, W., Stýk, J. & Zech, W. 1999. Heavy metal release from soils in
batch pHstat experiments. Soil Sci. Soc. Amer. J. 63: 290-296.
Shuman, L.M. 1986. Effect of liming on the distribution of manganese, copper, iron,
and zinc among soil fractions. Soil Sci. Soc. Amer. J. 50: 1236-1240
Sikora, L.J. & Szmidt, R.A.K. 2001. Nitrogen sources, mineralization rates, and
nitrogen nutrition benefits to plants from composts. In Stoffella, P.J. & Kahn, B.A.
(Eds), Compost utilization in horticultural cropping systems. Lewis Publishers, Boca
Raton, Florida, pp 287-305.
Smith, S.R. 1991. Effects of sewage sludge application on soil microbial processes
and soil fertility. In Advances in Soil Science, Vol. 16. Springer-Verlag, New York,
pp 191-212.
Smith, S.R. 1994. Effect of soil pH on availability of metals in sewage sludge-treated
soils. II. Cadmium uptake by crops and implications for human dietary intake.
Environ. Poll. 86: 5-13.
Sommers, L.E. 1977. Chemical composition of sewage sludges and analysis of their
potential use as fertilizers. J. Environ. Qual. 6(2): 225-232.
Soon, Y.K. 1998. Determination of cadmium, chromium, cobalt, lead, and nickel in
plant tissue. In Kalra, P. Yash (Ed.), Reference methods for plant analysis. Boca
Raton, CRC Press, pp 193-198.
90
University of Pretoria etd – Van der Waals, J H (2006)
Sparks, D.L. 2003. Environmental soil chemistry (2nd Ed.). Academic Press, San
Diego, California, pp 352.
Sposito, G., Holtzclaw, K.M. & Baham, J. 1976. Analytical properties of the soluble,
metal-complexing fractions in sludge-soil mixtures: II. Comparative structural
chemistry of fulvic acid. Soil Sci. Soc. Amer. J. 40: 691-697.
Sposito, G. & Holtzclaw, K.M. 1977. Titration studies on the polynuclear, polyacidic
nature of fulvic acid extracted from sewage sludge-soil mixtures. Soil Sci. Soc. Amer.
J. 41: 330-336.
Sposito, G., Holtzclaw, K.M. & Keech, D.A. 1977. Proton binding in fulvic acid
extracted from sewage sludge-soil mixtures. Soil Sci. Soc. Amer. J. 41: 1119-1125.
Sposito, G., Holtzclaw, K.M. & Le Vesque-Madore, C.S. 1979. Cupric ion
complexation by fulvic acid extracted from sewage sludge-soil mixtures. Soil Sci. Soc.
Amer. J. 43: 1148-1155
Sposito, G., Holtzclaw, K.M. & Le Vesque-Madore, C.S. 1981. Trace metal
complexation by fulvic acid extracted from sewage sludge. I. Determination of
stability constants and linear correlation analysis. Soil Sci. Soc. Amer. J. 45: 465-468
Sposito, G., Holtzclaw, K.M., Le Vesque, C.S. & Johnston, C.T. 1982. Trace metal
chemistry in arid-zone field soils amended with sewage sludge: II. Comparative study
of the fulvic acid fraction. Soil Sci. Soc. Amer. J. 46: 265-270.
Stevenson, F.J. 1982. Humus chemistry: genesis, composition, reactions. John Wiley
& Sons, Inc., New York, pp443.
Steyn, C.E. 1994. The bioavailability of certain heavy metals in selected organic
products. MSc (Agric) dissertation. University of Pretoria, Pretoria.
Straalen, N.M. & Bergema, W.F. 1995. Ecological risks of increased bioavailability
of metals under soil acidification. Pedobiologia 39(1): 1-9.
91
University of Pretoria etd – Van der Waals, J H (2006)
Tan, K.H., King, L.D. & Morris, H.D. 1971. Complex reactions of Zn with organic
matter extracted from sewage sludge. Soil Sci. Soc. Amer. Proc. 35: 748-752.
Tate, R.L. 1987. Soil organic matter: biological and ecological effects. John Wiley &
Sons, Inc., New York, pp 291.
Terry, R.E., Nelson, D.W. & Sommers, L.E. 1979. Carbon cycling during sewage
sludge decomposition in soils. Soil Sci. Soc. Amer. J. 43: 494-499.
Tester, C.F., Sikora, L.J., Taylor, J.M. & Parr, J.F. 1977. Decomposition of sewage
sludge compost in soil. I. Carbon and nitrogen transformations. J. Environ. Qual. 6:
459-463.
Van der Waals, J.H. & Claassens, A.S. 2002 Accurate lime recommendations under
South African conditions. Commun. Soil Sci. Plant Anal. 33(15-18) 3059-3074.
Van der Waals, J.H., Snyman H.G. & Claassens, A.S. 2005. Increase in metal
extractability after liming of sacrificial sewage sludge disposal soils. Water SA 31(2):
271-273.
Water Research Commission, 1997. Permissible utilisation and disposal of sewage
sludge. Edition 1. Pretoria. ISBN 1-86845-281-6.
Welch, J.E. & Lund, L.J. 1987. Soil properties, irrigation water quality and moisture
level influences on the movement of nickel in sewage sludge-treated soils. J. Environ.
Qual. 16: 403-410.
Wilcke, W. & Amelung, W. 1996. Small-scale heterogeneity of aluminum and heavy
metals in aggregates along a climatic transect. Soil Sci. Soc. Amer. J. 60: 1490-1495.
Wilson, D.O. 1977. Nitrification in three soils amended with zinc sulphate. Soil Biol.
Biochem. 9: 177-180.
92
University of Pretoria etd – Van der Waals, J H (2006)
Yin, Y., Allen, H.E., Huang, C.P., Sparks, D.L. & Sanders, P.F. 1996. Adsorption of
mercury(II) by soil: effects of pH, chloride, and organic matter. J. Environ. Qual. 25:
837-844.
Yin, Y., Lee, S.Z., You, S.J. & Allen, H.E. 2000. Determinants of metal retention to
and release from soils. In Iskandar, I.K. (Ed), Environmental restoration of metalscontaminated soils. Lewis Publishers, Boca Raton, Florida, pp 77-91.
You, S.J., Yin, Y. & Allen, H.E. 1999. Partitioning of organic matter in soils: effects
of pH and water/soil ratio. Sci. Tot. Env. 227: 155-160.
Zachara, J.M., Smith, S.C., McKinley, J.P. & Resch, C.T. 1993. Cadmium sorption on
specimen and soil smectites in sodium and calcium electrolytes. Soil Sci. Soc. Amer.
J. 57: 1491.
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