Abstract
Previous study showed that nitrogen content in lignite humic acids (HA) increased significantly during lignite biodegradation. In this paper we evaluated the factors responsible for the increased level of N in HA and the formation of new nitrogen compound following microbial degradation. When the ammonium sulfate concentration in lignite medium was < 0.5%, the N-content in HA was higher than that in the crude lignite humic acid (cHA); when the ammonium sulfate concentration was ≥ 0.5%, both the biodegraded humic acid (bHA) N-content and the content of bHA in lignite increased significantly, but at 2.0% no increase was observed. This indicated that HA incorporated N existing in the lignite medium, and more HA can incorporate more N with the increase of bHA amount in lignite during microbial degradation. CP/MAS 15N NMR analysis showed that the N incorporated into HA during biotransformation was in the form of free or ionized NH2-groups in amino acids and sugars, as well as NH4 +. We propose nitrogen can be incorporated into HA biotically and abiotically. The high N content bHA has a potential application in agriculture since N is essential for plant growth.
This research was part of project No. 2006AA10A213 supported by the Ministry of Science and Technology of China (the 863 program) and No. 2006BAD07A01 supported by Key Projects in the National Science & Technology Pillar Program in the Eleventh Five-year Plan Period
Notes
∗Results are presented as mean of three replicates.
aCalculated as difference from 100%.
bThe atomic ratio.
∗Results are presented as mean of three replicates.
aCalculated as difference from 100%.
bThe atomic ratio.
∗Results are presented as mean of three replicates.
aCalculated as difference from 100%.
bThe atomic ratio.
∗Results are presented as mean of three replicates.