The high cost and environmental problems related to the production of phosphate fertilizers as well as their excessive and continuous applications represent great challenges
in modern agriculture. Therefore, we conducted an incubation experiment using sandy
soil to evaluate the effects of elemental sulfur, disodium ethylene diamine tetra-acetic
acid (Na2-EDTA) and their mixture with cow bone char as well as incubation periods on
changes of phosphorus (P) availability, water soluble P, soil pH, electrical conductivity
(EC), soluble calcium (Ca) and soluble sulfate (SO4). Applying sulfur (S), Na2EDTA and
their mixture with cow bone char improved significantly phosphorus availability in soil,
Olsen-P value increased from 7.65 mg kg−1 (control) to 12.20 mg kg−1 (cow bone char +
sulfur), 12.80 mg kg−1 (cow bone char + Na2-EDTA) and 13.07 mg kg−1 (cow bone char +
sulfur + Na2-EDTA) at the end of incubation periods While, cow bone char + sulfur + Na2-
EDTA treatment lead Olsen-P to decline significantly with increasing incubation periods.
Amending soil by sulfur with cow bone char treatment caused significant increase in
the Olsen-P with increasing incubation periods. Cow bone char + sulfur and cow bone
char + Na2-EDTA showed non-significant differences in Olsen-P. Because of the increase
in phosphate fertilizer prices, the results of this study demonstrated the great potential
of cow bone char usage which is a promising way to improve phosphorus availability
in P-poor soil as well as being a clean alternative and renewable source of phosphate
fertilizer. Consequently, we recommend utilizing cow bone char with sulfur as slow
release fertilizer with time due to their low cost and it is a safe source of phosphorus
in sustainable agriculture, rather than using Na2-EDTA due to its high price.