Nitrogen mineralization kinetics in soil during long-term aerobic laboratory incubations: a case study
Bonde, T.A. | Lindberg, T.
Literature data describing curves of cumulative net N mineralization characterized by an initial lag-phase and obtained by long-term (26 weeks) aerobic laboratory incubations were fitted to different regression models by means of nonlinear regression analysis. The model offering the most appropriate description of the data were selected on the basis of the residual sum of squares left unexplained by the regression. The models employed and compared to the classical first-order model were a mixed-order, one-component model: Nm = No [1 - exp (-h1t - h2t2/2)] a mixed/first-order, two-component model: Nm = Na [1 - exp (-h1t - h2t2/2)] + Nr [1 - exp (-kt)] and a simplified special case of the previous, mixed/linear, two-component model: Nm = Na [1 - exp (-h1t - h2t2/2)] + Ct, t less than or equal to ti, where Nm and No are the amount of mineralizable N present in the soil at time t and time O; Na and Nr are the amounts of mineralizable N initially present in the available and resistant fractions, respectively; ti equals length of incubation; rate constants h1 and h2 belong to the mixed-order model; k is a first-order rate constant; and C denotes the slope of the linear tail following the pattern described by the mixed-order expression. Data from three soils, unamended or amended with manure, were best described by the mixed/first-order or, alternatively, the mixed/linear model. The fit was significantly better than that offered by the classical first-order, one-component model. The prediction of potentially mineralizable nitrogen (No) varied between 108 and 240 mg N kg-1 in an unamended soil, depending on the choice of model.
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