The effect of lignin and nitrogen on the decomposition of litter in nutrient-poor ecosystems: a theoretical approach

Abstract

A model is developed to study the dynamics of carbon and nitrogen in decomposing substrates that contain different organic compounds: (i) lignin, (ii) carbohydrates "masked" by lignin compounds, and (iii) free carbohydrates. Under conditions both of carbon limitation and of nitrogen limitation the model predicts a negative linear relationship between lignin concentration and rate of mass loss. The coefficients of this relationship are determined by microbial properties and by the ratio (a_c) between the amount of "masked" carbohydrates and the amount of lignin in the litter. Litter decomposition data of three different ecosystems are used to obtain estimates of the ratio a_c. The calculated values are in the same range as values estimated on the basis of the course of the cellulose/lignin ratio during the decomposition process. When nitrogen limits microbial growth, the model predicts a positive linear relationship between rate of mass loss and initial lignin concentration.