Jiang, Tao
- Institutionen för skogens ekologi och skötsel, Sveriges lantbruksuniversitet
- Southwest University
Forskningsartikel2019Vetenskapligt granskad
Jiang, T.; Kaal, J.; Liang, J.; Liu, J.; Zhang, Y.L.; Wang, D.Y.; Wei, S.Q.; Zhao, Z.
Soil dissolved organic matter (soil DOM) plays a crucial role in the environmental fate of pollutants because of its exceptional biogeochemical reactivity. Therefore, tracing the sources and understanding the properties of DOM through chemical characterization is important for clarifying the "structure-reactivity" of DOM in the environment. In this study, traditional elementary analysis methods including nitrogen/carbon ratio (N/C) determinations and derived two end-member source-loads mixing models were applied to soil DOM extracted from the water-level fluctuation zones of the Three Gorges Reservoir (TGR) area. The results were further compared to other characterization techniques that operate on the molecular scale (e. g., FTIR and analytical pyrolysis techniques). The ultimate objective was to assess the performance of N/C ratio and two end-member modeling for identifying the DOM sources. Additionally, a photo-bleaching kinetic experiment was conducted to test the correlation between DOM reactivity and its source-loadings. Results showed, based on the N/C ratio and mixing modeling, all soil DOM samples in the TGR area share "dual-source" characteristics, namely, allochthonousness (e. g., terrestrial) and autochthonousness (e. g., internal) attributes, which is in agreement with other advanced characterization tools. The traditional method results were comprehensible in light of the data from molecular techniques, but the information revealed only reflects certain aspects of DOM compositional characteristics. It can be concluded that the N/C ratio and mixing modeling can validate general sources of soil DOM, but not information about specific components. Meanwhile, the significant correlation between the photo-bleaching kinetic constant and N/C and source-loadings indicated that these two parameters can be used as rapid indicators to estimate soil DOM reactivity in photochemical processes. However, it should be emphasized that it remains essential to employ multiple characterization methods to investigate the biogeochemistry of soil DOM, so as to increase the characterization resolution with regard to the heterogeneity of DOM.
Dissolved organic matter(DOM); Elemental composition; Natural organic matter; Soil; Source-loading model; Structure-reactivity relationships; Three Gorges Reservoir areas; Water-level fluctuation zones
Huan Jing Ke Xue
2019, Volym: 40, nummer: 6, sidor: 2647-2656 Utgivare: Science Press
Markvetenskap
DOI: https://doi.org/10.13227/j.hjkx.201810128
https://res.slu.se/id/publ/129905