Black carbon contribution to soil organic matter composition in tropical sloping land under slash and burn agriculture

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Tropical soils are generally depleted in organic carbon (OC) due to environmental conditions favouring decomposition and mineralisation of soil organic matter (SOM). In Northern Laos, sloping soils are subjected to slash and burn agriculture, which leads to production of black carbon (BC), a stable SOM fraction. BC may directly influence the quantity and quality of SOM sequestered in tropical soils. The aim of this study was to quantify BC content and evaluate its impact on the chemical and stable isotope composition of SOM along a catena composed of Dystrochrepts at the bottom of the slope, Alfisols (midslope) and Inceptisols at the top of the slope for different burning frequencies. Six soil profiles, situated on a slope ranging from a river bank to the summit of a hill, were sampled. The stable isotope compositions (13C and 15N) of samples from both organo-mineral A and mineral B and C horizons were determined. The chemical composition of SOM analysed by 13C CPMAS NMR spectroscopy and the contribution of BC determined by dichromate oxidation were compared to OC and iron oxide content as well as land management including the burning cycle. The highest C contents were recorded at midslope positions. At any position on the slope, δ13C and δ15N ratios showed an enrichment in 13C and 15N with increasing soil depth. The OC content of soil horizons was related to their aryl C content, which is the component most likely driven by BC inputs. The BC contributions analysed by dichromate oxidation ranged from 3% to 7% of total OC. A positive correlation was obtained between aryl C and the BC content of SOM. Comparison of BC content and stable isotope composition of SOM showed that BC influenced the δ13C and the δ 15N stable isotope ratios of these soils. BC was not associated with the mineral phase. The highest BC contents were measured under intensive slash and burn practice in the vicinity of the boundary of Alfisols at the top of the slope, where erosion was severe. Therefore, BC, a SOM component strongly influencing OC sequestration of these soils, is susceptible to translocation down the slope. © 2005 Elsevier B.V. All rights reserved. View source
Year

2006

Secondary Title

Geoderma

Volume

130

Number

1-2

Pages

35-46

DOI

http://dx.doi.org/10.1016/j.geoderma.2005.01.007

Language

Keyword(s)

Black carbon, Organic matter composition, Tropical soil, Agriculture, Carbon, Composition, Correlation methods, Environmental impact, Isotopes, Nuclear magnetic resonance spectroscopy, Mineral phase, Soils, biomass burning, soil organic matter, Chemical Composition, Correlation, Nuclear Magnetic Resonance, Soil

Classification
Form: Journal Article
Geographical Area: Laos

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