Quality and Quantity
of Organic Fractions as Affected by Soil Depth in an Argiudoll under Till and
No-till Systems
Aims: The
aim of this study was to evaluate the long-term effect of tillage systems on
the quantity and quality of organic carbon fractions at different soil layers.
Study Design: The
experimental design was a split plot with three blocks. The long-term effects
(25 years) of conventional- (CT) and no-tillage (NT) systems on a Tipic
Argiudoll was sampled at 0-5, 5-10, 10-15 and 15-20 cm soil depth.
Place and Duration
of Study: The field experiment was carried out at Tornquist
(38° 07’ 06” S - 62°02’ 17” O) and soil sampling was performed during wheat
seeding (June 2011).
Methodology: Total
soil organic carbon (SOC) content and the following fractions were determined:
Coarse particulate (POCc, 105-2000 µm), fine particulate (POCf, 53-105 µm) and
mineral-associated (MOC, 0-53 µm) carbon fractions; humic (HA) and fulvic (FA)
acids; and total (CHt) and soluble (CHs) carbohydrates. The main
physico-chemical properties of HA and FA were analyzed using both FT-IR and
fluorescence spectroscopies.
Results: After
25 years, total SOC at the 0-20 cm depth was 9% higher in no-tilled than in
tilled soils. The POCf was the SOM fraction that turned out to be the most
sensitive to tillage effects. The POCc:POCf:MOC ratio at 0-20 cm was
similar for NT (3:14:82) and CT (5:10:84); however, differences were found
across soil depths. Tilled soils showed higher aromaticity, starting by
CH-degradation, in more superficial soil layers.
Conclusion: The
no-tillage system presented a different pattern which can be related to distribution
of crop residues and conditions for humification along the soil depth.
Tillage system; soil organic carbon;
chemical and physical fractionation.
Galantini, J.A.; M. Duval; J.M. Martinez; V. Mora; R. Baigorri
& J.M. García-Mina. 2016. Quality and quantity of organic
fractions as affected by soil depth in an argiudoll under till and no-till
systems. International
Journal of Plant & Soil Science 10 (5) - doi:10.9734/IJPSS/2016/25205
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