AMELIORATION OF ACID SOIL INFERTILITY BY PHOSPHOGYPSUM

Amelioration of subsoil acidity requires an increase in Ca status along with a decrease in Al status in subsoil. In this study, effects of phosphogypsum (PG) on the amelioration of subsoil acidity have been evaluated, using cultivated and woodland subsoils representing Cecil, Wedowee (both Typic Hapludult) and Bladen (Typic Albaquult) series. Subsoil (0.6-0.8 m) samples were collected and treated with either PG (approximately 2 Mg ha-1 rate), Ca(NO3)2 or Mg(NO3)2 along with an unamended control treatment. A fertile topsoil amended with NH4NO3 was placed on top of all treated subsoils. Top and root growth of alfalfa [Medicago sativa (L.) cv. Hunter River] and soybean [Glycine max (L.) Merr. cv. Lee] were significantly greater in PG-amended than in unamended pots of the Cecil and Wedowee soils, although most growth was observed with the Ca(NO3)2-amended treatment. In the Bladen soil, however, none of the amendments evoked a significant growth response in either alfalfa or soybean. The concentration of Ca in the displaced soil solution (in soils with no plants) as well as tissue levels of Ca suggest that the growth response was partly due to an improved Ca availability in both PG or Ca(NO3)2-treated soils. Exchangeable Al decreased in PG-amended soils. The self-liming effect of PG, which is a release of OH- due to ligand exchange between SO4(2-) and OH-, as well as a decrease in exchangeable Al in PG-amended soil is greater in predominantly kaolinitic Cecil and Wedowee soils than in smectitic Bladen soil. As a result, significant growth response to PG amendment was observed in the Cecil and Wedowee soils, but not in the Bladen soil.