Open-access Organic carbon and Nitrogen in aggregates of a Dystrophic Red Latosol under two vegetation covers

Soil organic matter is constituted by a vast array of compounds that include active and more stable fractions, with different cycling rates. Management practices affect organic carbon and nitrogen contents, organic matter quality, and soil aggregation. The present study aimed to characterize organic carbon and nitrogen in aggregates of a Dystrophic Red Latosol of Minas Gerais State, Brazil, in an area of native vegetation (Cerradão) and another one that has been for 30 years under conventional corn cultivation. Soil samples were collected at depths of 5-10 and 15-20 cm at four different sites. The dried samples were fractioned in the following aggregate classes: diameter 4.75-2.0; 2.0-1.0; 1.0-0.5; 0.5-0.25; 0.25-0.105; and less than 0.105 mm. Total organic carbon (COT), water soluble organic carbon (COS), total nitrogen (NT) and anaerobically-mineralized nitrogen (NMA) were determined for each sample. On average, the COT contents of soil aggregates under conventional tillage were higher, while NT contents were greater in the aggregates of the Cerradão surface layer. The COS and NMA contents, that correspond to more active fractions of organic matter, were significantly higher in aggregates of Cerradão soil. Aggregates of smaller size tended to present higher contents of COT, NT and NMA. Ratios of C/N, COT/COS and NT/NMA were, on average, higher in aggregates of soils under corn. The NT/NMA ratio was significantly higher in the 15-20 cm layer. However, independent of the soil, the lowest NT/NMA ratios were observed in the smallest aggregate classes, indicating the presence of more labile nitrogen forms. Results showed that vegetation cover type and soil management influenced not only the organic carbon and nitrogen contents, but also organic matter quality. Smaller aggregates are not only responsible for a greater stock of organic matter in the soil but also represent important sites of mineralizable nitrogen. The COS, NMA and the ratios of COT/COS and NT/NMA represent valuable indicators to detect alterations in the lability of organic matter due to management.

soil organic matter; nitrogen mineralization; aggregation; management


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