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Protection of soil organic C and N in temperate and tropical soils: effect of native and agroecosystems.

Authors :
Fabrizzi, Karina P.
Rice, Charles W.
Amado, Telmo J. C.
Fiorin, Jackson
Barbagelata, Pedro
Melchiori, Ricardo
Source :
Biogeochemistry. Jan2009, Vol. 92 Issue 1-2, p129-143. 15p. 4 Charts, 6 Graphs.
Publication Year :
2009

Abstract

Soil carbon sequestration is a viable short-term option to mitigate increased atmospheric CO2. In agriculture, strategies to increase the soil carbon (C) sink include no-tillage, cover crops, and improved crop rotation. The objective of this study was to determine the influence of tillage systems on SOC and total N, soil aggregation and aggregate associated C and N in three soil types: Oxisol (Brazil), Vertisol (Argentina), and Mollisol (USA). Long-term tillage experiments included tilled (T) and no-till (NT) systems. A native grassland was included for comparison in each site. Soil samples were taken at 0–5, 0–15, and 15–30 cm depths. Water-stable aggregates (WSA) were separated using a wet-sieving method. Total C and total N were determined by dry combustion. A shift from native grassland to an agroecosystem decreased microbial biomass, but this decrease was less pronounced under NT. Cultivation reduced the mass of macroaggregates and the concentration associated C and N; however among agroecosystems, NT, regardless soil type, tended to be more similar to the native grassland sites. Agroecosystems reduced TOC and total N stocks, regardless of soil type, compared to the native grassland. This effect followed: Mollisol > Oxisol > Vertisol, and was more pronounced at the 0–5 cm soil depth than at deeper depths. This loss of C and N was associated with the decrease in the mass of macroaggregates and lower C and N concentrations of the aggregates. Macroaggregation was related to TOC and microbial biomass in the Mollisol, suggesting that the biological process of aggregate formation is the principal mechanism of C protection in these soils. The relationship between TOC and large macroaggregates showed lower values for the Oxisol and Vertisol, indicating that in these soils TOC has a complementary role in macroaggregation. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01682563
Volume :
92
Issue :
1-2
Database :
Academic Search Index
Journal :
Biogeochemistry
Publication Type :
Academic Journal
Accession number :
36370610
Full Text :
https://doi.org/10.1007/s10533-008-9261-0