Release of sulphate-sulphur, potassium, calcium and magnesium from spent mushroom compost under field conditions

Abstract

 The release of SO₄ ^2–-S, K⁺, Ca²⁺ and Mg²⁺ from soil amended with spent mushroom compost (SMC), a byproduct of mushroom production, was measured in leachate from field lysimeters for 30 weeks. Rates of application were 0 and 80 t ha^–1 moist SMC. The SMC contained 1.7% K, 6.5% Ca, 0.4% Mg and 1.2% S (of which 87% is SO₄ ^2–-S), and has a C : S ratio of 26. The break-through curves of ion leaching were polymodal indicating the preservation of soil structure in the lysimeters and its influence on leaching. SO₄ ^2–-S release from SMC was rapid (first-order exponential) and was very similar to the release from a laboratory incubation. The release of K⁺, Ca²⁺ and Mg²⁺ was described using first/zero-order models which were also used to describe their release in the laboratory. The rate and amount of Ca²⁺ release was similar in the field and laboratory, but the amount of K⁺ (and to a lesser extent Mg²⁺) release was less in the field than in the laboratory. Recoveries of SMC applied nutrients in leachate were 80% of S (263 kg ha^–1), 3% of K (14 kg ha^–1), 16% of Ca (284 kg ha^–1) and 37% of Mg (40 kg ha^–1). Little if any S was mineralised. Using SMC could provide plants with S, K, Ca and Mg but there is potential for SO₄ ^2–-S losses via leaching.