Long-term fate of fertilizer sulfate- and elemental S in co-granulated fertilizers

long-term trials needed to evaluate effectiveness of slow-release fertilizer source such as elemental sulfur

Sulfur deficiency in soil has become more common since the 1980s due to reduced atmospheric deposition, increasing crop yields, and less use of sulfur-containing fertilizers. Sulfur fertilizers are based on either sulfate or elemental sulfur. While elemental sulfur does not leach and is 100% sulfur, it needs to be oxidized to sulfate to become available for plants.

Commercial products usually consist of elemental sulfur cogranulated with other macronutrient fertilizers. In this paper, a team from the Fertilizer Technology Research Centre at the University of Adelaide, Australia, assessed the fate of S-fortified monoammonium phosphate (MAP) fertilizers. Across four field sites in Argentina, Brazil, Canada, and the USA over two years, sulfur recovery by the crop ranged from 16 to 28% for MAP-elemental sulfur and from 9 to 86% for MAP-sulfate.

The data allowed constructing a model which takes into account organic sulfur cycling, sulfate leaching and elemental sulfur oxidation to explain the observed crop recoveries, and make long-term predictions. The model demonstrated that the total recovery of elemental sulfur will eventually reach those of sulfate or exceed them if there is sulfate leaching. Hence, long-term trials are needed to evaluate the true effectiveness of a slow-release fertilizer source such as elemental sulfur. The authors also point out that the dynamics of soil organic sulfur, which is a major contributor to sulfur uptake, are still poorly understood.

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