Biologically-mediated nutrient availability in the soil is largely dependent on soil organic matter (SOM) decomposition and mineralization processes. The light fractions of SOM obtained by floatation of the sand-size fraction in a silica suspension (LL, 150–300 m and < 1.13 g cm3) and floatation of whole soil in sodium iodide (NAL, < 1.7 g cm3) were previously found to be strongly affected by maize and legume cropping systems. The objective of this study was to assess the anaerobic and aerobic N mineralization rates of LL, NAL and whole soil after the eighth cropping season (4 y) in seven maize and legume cropping systems. Significantly greater (P < 0.05) N mineralization in whole soil, LL and NAL resulted from the seasonal additions of Gliricidia sepium prunings to continuous maize than from continuous maize with removal of crop residues and from a gliricidia stand with prunings removed. Aerobic and anaerobic N mineralization in whole soil from the seven cropping systems correlated (P < 0.05) with aerobic N mineralization in LL and NAL, which in turn correlated with the N concentration and amount of N in the respective fraction. Amount of LL-N but not LL-C or dry weight of LL correlated with anaerobic and aerobic N mineralization of whole soil. Dry weight, amount of N and amount of C in NAL were not correlated with whole soil mineralization. These results suggest that amount of N in light fraction SOM merits further examination as a sensitive measure of biologically-mediated N availability.
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DOI:
https://doi.org/10.1016/S0038-0717(96)00155-1Puntuación Altmetric:
Dimensiones Recuento de citas:
Año de publicación
1996
Autores
Barrios E; Buresh R J; Sprent J I
Idioma
English
Palabras clave
agroforestry, agrosilvicultural systems, alley cropping, cropping systems, degradation, mineralization, nitrogen, plant population, pruning, soil organic matter
Geográfico
Kenya
