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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 7/2010

01.02.2010 | Original Article

Nitrogen and phosphorus mineralization in sediments of Taihu Lake after the removal of light fraction organic matter

verfasst von: Chunxia Yang, Shengrui Wang, Xiangcan Jin, Fengchang Wu

Erschienen in: Environmental Earth Sciences | Ausgabe 7/2010

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Abstract

Mineralization of organic matter (OM) in sediment is crucial for biogeochemical cycle of nitrogen (N) and phosphorus (P) in lake ecosystem. Light fraction OM (LFOM) is a reactive pool in sediment and is considered as labile fraction contributing to N and P cycling. In our study, the effect of LFOM on the process and characteristics of N and P mineralization in sediments of Taihu Lake were investigated with 77-day waterlogged incubation plus intermittent leaching at 27°C. Sediments from Yuantouzhu (Y) and Gonghu (G) were used, which were removed the LF. Results indicated that the organic nitrogen mineralized ranged from 14.3 to 19.5% of total nitrogen (193.49–378.93 mg kg−1 sediment) and the organic phosphorus mineralized ranged from 5.7 to 7.9% of total phosphorus (19.86–60.65 mg kg−1 sediment). The heavily polluted sediment had a higher mineralization rate and net mineral-N and mineral-P than slightly polluted sediment. LF stimulated the initial amounts of inorganic N and P and also can be the potential source for mineralization. After the LFOM removal, the net mineral-N of Y and G decreased 116.47 mg kg−1 sediment and 48.03 mg kg−1sediment, respectively, and the net mineral-P decreased 2.67 mg kg−1sediment for Y and 4.82 mg kg−1sediment for G. Two models were used to fit the observed mineral-N data vs. incubation days using a non-linear regression procedure: one is the effective cumulated temperature model, a thermodynamic model which assumes that N mineralization is affected by temperature; the other is the single first-order exponential model, which is a dynamic model. Based on root mean square error values for the two models, the effective cumulated temperature model made a better prediction of N mineralization than the other model for all the four treatments. The single first-order exponential model underestimated N mineralization during the first 14 days and the last 21 days, and overestimated it in the other days during the 77-day incubation. This indicated that temperature was the primary factor influencing N mineralization and the amount of mineral-N were correlated significantly with the effective cumulated temperature (T ≥ 15°C) and incubation time when waterlogged incubation plus intermittent leaching was used.
Vorheriger Artikel Hydrochemistry of Lakes of the Patagonian Province of Tierra del Fuego (Argentina)
Nächster Artikel Percolation-theory and fuzzy rule-based probability estimation of fault leakage at geologic carbon sequestration sites

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Metadaten
Titel
Nitrogen and phosphorus mineralization in sediments of Taihu Lake after the removal of light fraction organic matter
verfasst von
Chunxia Yang
Shengrui Wang
Xiangcan Jin
Fengchang Wu
Publikationsdatum
01.02.2010
Verlag
Springer-Verlag
Erschienen in
Environmental Earth Sciences / Ausgabe 7/2010
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-009-0130-5

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