Soil organic fractions: Soil quality

Soil organic fractions content and quality under wheat production systems in the semiarid Pampas

Soil organic matter (SOM) is the key factor in the production systems, and the knowledge of their fractions dynamic and equilibrium is important to reach high productivity and agriculture sustainability. The effect on organic fractions distribution and quality of the following production systems were studied: continuous wheat (TT), wheat–natural grass each year (TP) and wheat – legume (TL). Labile fractions, physically separated (particulate SOM, MOP) and chemically separated (fulvic acid, AF), showed high sensibility to crop sequence. Continuous wheat affected labile and recalcitrant organic fractions contents. The tillage increase caused SOM decrease, changes in labile to recalcitrant fraction ratios, nutrient losses (N and S) and modified humic acid (AH) structure. The AH from cultivated soils showed higher aromatic groups content and lower aliphatic and N compounds groups than AH from reference soil.

Organic fractions, Production systems, Semiarid region

Galantini J.A. 2001. Contenido y calidad de las fracciones orgánicas del suelo bajo rotaciones con trigo en la región semiárida pampeana. Revista de Investigaciones Agropecuarias (RIA-INTA) 30 (1) 125-146.

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Soil organic fractions: Carbon, Nitrogen, Phosphourus and Sulphur

Organic fractions, N, P, and S changes in a semiarid Haplustoll of Argentine under different crop sequences

Crop sequences play an important role in changing soil properties. The knowledge of the chemical composition, turnover, dynamics, and biological effects of different fractions of soil organic carbon (SOC), nitrogen (N), phosphorus (P) and sulfur (S) components will result in a better understanding of soil productivity. The objective of this research was to compare the effects of crop rotation on SOC, N, P, and S evolution in two granulometric fractions of an Entic Haplustoll. Rotations of mixed pasture (5.5 years)-annual crops (4.5 years) (Pa-C), and wheat (Triticum aestivum L.)-sunflower (Heliantus annus L.) (W-S), and a reference (Ref), which was located between them, were studied. Fine (<100 µm, FF) and coarse (100-2000 µm, CF) soil granulometric fractions were separated by wet sieving. In each fraction total N and S, and several SOC and P forms were determined. Similar contents (5.23 to 6.07 Mg ha-1) of humic acid (HA) carbon were found in the three situations. The Pa-C rotation maintained the SOC level at 17.33 Mg ha-1 in the Fine Fraction during a 10-year period. On the contrary, SOC was sharply lower (11.16 Mg ha-1) in the same fraction in the W-S treatment. Losses of SOC, N, P and S were highest in the Coarse Fraction thus showing the dynamics of this soil fraction and its important role in plant nutrient turnover and availability to growing crops.

Soil organic carbon, N, P, S, Semiarid, Entic Haplustoll

Galantini J.A. and R.A. Rosell. 1997. Organic fractions, N, P, and S changes in a semiarid Haplustoll of Argentine under different crop sequences. Soil and Tillage Research 42: 221-228.

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Soil organic matter quality, quantity and distribution under different tillage systems

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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