Organic Matter Fractions of an Irrigated Oxisol Under No-Till and Conventional Tillage in the Brazilian Semi-Arid Region

Abstract: -The replacement of natural vegetation by crop systems directly impacts the soil organic matter fractions. The objective of this study was to evaluate the total organic carbon (TOC) and nitrogen (TN) contents in different fractions of the soil organic matter (SOM) of an Oxisol of the Brazilian semiarid region under different irrigated crops and different soil management systems. Seven treatments were evaluated, which consisted of two soil management systems (no-till and conventional tillage) and three crops (m… Show more

“…Güereña et al (2016) evaluated poor and degraded soils in western Kenya and found that the combination of mineral soil fertilizers and organic matter is an important strategy to maintain corn yield in the long-term. Sales et al (2017) studied the same experimental area of the present work and found that corn crops under NTS present higher carbon and nitrogen contents, and organic matter fractions in the soil surface layer.…”

“…DMY presented difference between tillage systems only in 2013/2014, with 84.26% higher DMY in the NTS (Table 3). Silva et al (2015) found higher FMY and DMY for NTS when compared to CTS when evaluating silage corn production under the effect of dry spell, and that this result was probably correlated to improvements in soil chemical characteristics promoted by the NTS, such as increases in organic matter and nitrogen contents in the soil surface layers (GUARESCHI; PEREIRA; PERIN, 2014;SALES et al, 2017).…”

Agronomic Performance of Irrigated Crop Rotations Under Conventional and No-Tillage Systems in the Semiarid Region of Minas Gerais, Brazil

“…Güereña et al (2016) evaluated poor and degraded soils in western Kenya and found that the combination of mineral soil fertilizers and organic matter is an important strategy to maintain corn yield in the long-term. Sales et al (2017) studied the same experimental area of the present work and found that corn crops under NTS present higher carbon and nitrogen contents, and organic matter fractions in the soil surface layer.…”

“…DMY presented difference between tillage systems only in 2013/2014, with 84.26% higher DMY in the NTS (Table 3). Silva et al (2015) found higher FMY and DMY for NTS when compared to CTS when evaluating silage corn production under the effect of dry spell, and that this result was probably correlated to improvements in soil chemical characteristics promoted by the NTS, such as increases in organic matter and nitrogen contents in the soil surface layers (GUARESCHI; PEREIRA; PERIN, 2014;SALES et al, 2017).…”

Agronomic Performance of Irrigated Crop Rotations Under Conventional and No-Tillage Systems in the Semiarid Region of Minas Gerais, Brazil

Litter decomposition and nutrient release in different land use systems in the Brazilian semi-arid region

Carbon and Nitrogen Balance in an Oxisol Influenced by Sewage Sludge and Mineral Fertilization