Articles
MODELING LIME REACTION IN PEAT-BASED SUBSTRATES
Article number
718_53
Pages
461 – 468
Language
English
Abstract
Limestone is incorporated into peat-based substrates to neutralize substrate acidity, increase pH buffering capacity, and provide calcium and magnesium.
Limestones differ in their rate of pH change, equilibrium pH, and proportion of unreacted residual lime.
In horticulture, lime reactivity is currently measured empirically in batch tests whereby limestone is incorporated into a batch of substrate and pH change is measured over time.
Our objective was to develop a quantitative model to describe reaction of lime over time.
The lime reaction model predicts the substrate-pH based on lime acid neutralizing capacity, lime type (calcitic, dolomitic, or hydrated), lime particle size distribution, application concentration, and the non-limed pH and neutralizing requirement (buffering) of the substrate.
Residual lime is calculated as the proportion of lime remaining following gradual neutralization of the substrate acidity (by subtraction of reacted lime from total applied lime).
Limestones differ in their rate of pH change, equilibrium pH, and proportion of unreacted residual lime.
In horticulture, lime reactivity is currently measured empirically in batch tests whereby limestone is incorporated into a batch of substrate and pH change is measured over time.
Our objective was to develop a quantitative model to describe reaction of lime over time.
The lime reaction model predicts the substrate-pH based on lime acid neutralizing capacity, lime type (calcitic, dolomitic, or hydrated), lime particle size distribution, application concentration, and the non-limed pH and neutralizing requirement (buffering) of the substrate.
Residual lime is calculated as the proportion of lime remaining following gradual neutralization of the substrate acidity (by subtraction of reacted lime from total applied lime).
Authors
P.R. Fisher, J. Huang, W.R. Argo
Keywords
residual lime, peat, greenhouse, pH, gasometric, growing media, substrate-pH
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