Lignite degradation and mineralization in lignite-containing mine sediment as revealed by C-14 activity measurements and molecular analysis

Chabbi, A.; Rempel, C.; Grootes, P. M.; González-Pérez, José Antonio; Delaune, R. D.; González-Vila, Francisco Javier; Nixdorf, B.; Hüttl, R. F.; Federal Ministry of Education and Research; Ministerio de Ciencia y Tecnología; European Commission; German Research Foundation

Lignite degradation and mineralization in lignite-containing mine sediment as revealed by C-14 activity measurements and molecular analysis

2006

20 pages, 6 figures, 7 tables, 54 references.

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The influence of sediment pH and redox conditions on the oxidation of lignite and sediment organic carbon was studied using a series of laboratory microcosms. The experiment was conducted over 450 d in reducing sediment suspensions main- tained at four redox potentials (170, 0, +350 and +500 mV) and two pH values (3.2 and 5.3). Carbon and lignite min- eralization were determined over time using 14C analysis, DOC carbon production, solid state 13C NMR (nuclear magnetic resonance spectroscopy) and pyrolysis–gas chromatography/mass spectrometry (GC/MS). More than 50% of measured carbon mineralization occurred during the first 200 d. Maximum mineralization occurred under the more oxidizing con- ditions. The amount of CO2 produced was greater at pH 5.3 than at pH 3.2, indicating that low pH reduces organic matter mineralization regardless of sediment redox potential. The 14C analysis showed that lignite carbon was mineralized at each redox potential level. Under the lowest redox level (170 mV) mineralization was minimal as compared to the other redox levels. Pyrolysis–GC/MS showed that the dissolved aromatic fraction accumulated in solution. Solid state 13C NMR spec- troscopy analysis showed that lignite, although generally recalcitrant in nature, was structurally diverse, including contain- ing easily decomposable components. The 14C measurements of plant material sampled in the field provided evidence that lignite carbon mineralization occurs under field conditions. From the data, it can be concluded that the lignite in mine sediments is susceptible to oxidation or degradation and therefore must be considered at least as a semi-reactive compart- ment in the sediment carbon cycle.

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The work was supported by the German Ministry for Education, Science, Research, and Technology and the German Science Foundation (DFG). José A. González acknowledges financial support from the Spanish Ministry of Science and Technology and the European Regional Development Fund ("Ramón y Cajal" program).

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Peer reviewed

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