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Understanding subsoil acidification: effect of nitrogen transformation and nitrate leaching

Z. Rengel, C. Tang, C. Raphael and J. W. Bowden
38(4) pp.837 - 849


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Keating Brian A., Carberry Peter S., Bindraban Prem S., Asseng Senthold, Meinke Holger, Dixon John
Crop Science. 2010 50(S1).
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WANG Lei, BUTTERLY Clayton R., CHEN Qiuhui, MU Zhibo, WANG Xia, XI Yunguan, ZHANG Jibing, XIAO Xingji
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Paul Keryn I, Scott Black A, Conyers Mark K
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Parfitt RL, Stevenson BA, Ross C, Fraser S
New Zealand Journal of Agricultural Research. 2014 57(3). p.216
Handbook of Plant Growth pH as the Master Variable (2002)
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Weligama C., Tang C., Sale P. W. G., Conyers M. K., Liu D. L.
Plant and Soil. 2008 312(1-2). p.101
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Álvarez E., Viadé A., Fernández-Marcos M.L.
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Butterly C. R., Bhatta Kaudal B., Baldock J. A., Tang C.
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Brazilian Archives of Biology and Technology. 2020 63(spe).
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Environmental Monitoring and Assessment. 2011 181(1-4). p.83
Surface liming and nitrogen fertilization for crop grain production under no-till management in Brazil
Caires E.F., Haliski A., Bini A.R., Scharr D.A.
European Journal of Agronomy. 2015 66 p.41
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Growth response to subsurface soil acidity of wheat genotypes differing in aluminium tolerance
Tang C., Diatloff E., Rengel Z., McGann B.
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Vieira F. C. B., Bayer C., Mielniczuk J., Zanatta J., Bissani C. A.
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