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Properties of Australian fly ashes relevant to their agronomic utilization
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Bhattacharya Satya S., Chattopadhyay Gunindra N.
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(2013)
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Land Degradation & Development. 2003 14(3). p.285
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Riehl A.,
Elsass F.,
Duplay J.,
Huber F., Trautmann M.
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Mozaffari M.,
Rosen C. J.,
Russelle M. P., Nater E. A.
Soil Science. 2000 165(11). p.896
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Trace Elements in Coal (1990)
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Particulate Science and Technology. 2019 37(1). p.123
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Sambandam Bharathi,
Palanisami Eganathan,
Abbugounder Rajasekar,
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Journal of Nanoparticle Research. 2014 16(2).
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Laval-Gilly Philippe,
Bennasroune Amar,
Henry Sonia,
Martinez-Chois Claudia,
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Sarangi Prashanta K,
Mahakur Dharitri, Mishra Pramod C
Bioresource Technology. 2001 76(3). p.199
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Li Yange,
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De Silva Shamali,
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International Journal of Phytoremediation. 2013 15(4). p.320
Natural revegetation of coal fly ash in a highly saline disposal lagoon in Hong Kong
Chu L.M.
Applied Vegetation Science. 2008 11(3). p.297
Edaphological characteristics of unweathered and weathered fly ashes from Gondwana and lignite coal
Khandkar U.R.,
Gangwar M.S.,
Srivastava P.C., Singh M.
Environmental Pollution. 1993 79(3). p.297
Impact of addition of soil amendments and microbial inoculants on nursery growth of Populus deltoides and Toona ciliata
Aggarwal H., Goyal D.
Agroforestry Systems. 2009 75(2). p.167
Soil amendments of fly ash: effects on function and biochemical activity of Carthamus tinctorius L. plants
Jan Sumira,
Khan Riyazzuddin, Siddiqi T.O.
Israel Journal of Plant Sciences. 2013 61(1-4). p.12
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Jayasinghe G. Y., Tokashiki Y.
Journal of Plant Nutrition. 2012 35(3). p.453
The use of coal combustion fly ash as a soil amendment in agricultural lands (with comments on its potential to improve food security and sequester carbon)
Ukwattage N.L.,
Ranjith P.G., Bouazza M.
Fuel. 2013 109 p.400
Evaluation of fly ash as a component of potting substrates
Menzies N.W., Aitken R.L.
Scientia Horticulturae. 1996 67(1-2). p.87
Turf culture under declining volume and frequency of irrigation on a sandy soil amended with fly ash
Pathan S. M.,
Aylmore L. A. G., Colmer T. D.
Plant and Soil. 2005 266(1-2). p.355
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Malaya C., Sreedeep S.
Indian Geotechnical Journal. 2016 46(3). p.327
Trace Elements in the Environment (2005)
An Assessment of Tarong Bottom Ash for Use on Agricultural Soils
Wearing C.,
Birch C.J., Nairn J.D.
Developments in Chemical Engineering and Mineral Processing. 2004 12(5-6). p.531
