In-depth molecular characterization and biodegradability of water-extractable organic nitrogen in Erhai Lake sediment

Dissolved organic nitrogen (DON) constitutes a significant fraction of the total dissolved nitrogen content of most aquatic systems and is thus a major nitrogen source for bacteria and phytoplankton. The present work applied Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) to a compound-level analysis of the depth-dependent molecular composition of water-extractable organic nitrogen (204, WEON) in lake sediment. The study focused on Erhai Lake. China. It was found that a large portion (from 16.33 +/- 7.87 to 39.54 +/- 5.77%) of the 204, WEON in the lake sediment was reactive under cultivation by algal or bacteria. The 204, WEON in the mid-region of Erhai sediment particularly exhibited a lower bioavailability, having been less affected by the basin environment. The FT-ICR MS results revealed the presence of thousands of compounds in the Erhai Lake sediment samples collected at different depths, with the N-containing compounds accounting for 28.3-34.4% of all the compounds. The 204, WEON molecular weight was also observed to increase with increasing sediment depth. A van 204, Krevelen diagram showed that the lignin-type components were dominant (similar to 56.2%) in the sediment 204, WEON, contributing to its stabilization and reducing the risk of sediment nutrient release. The FT-ICR MS results further revealed 204 overlapping formulas of 204, WEON for each core sediment sample, attributable to the presence of refractory components. It was observed that 78.4% of the formulas were within the lignin-like region, suggesting unique allochthonous DON sources. The aliphatic component proportion of all the unique formulas was also found to increase with increasing sediment depth. This indicates that, with the development and evolution of the Erhai Basin, the more labile 204, WEON components were transformed into more stable lignin-like substrates, with a positive effect on the Lake Erhai ecosystem.