PHYSICAL, CHEMICAL AND BIOLOGICAL ATTRIBUTES OF DYSTROPHIC RED OXISOL UNDER TWO CROP ROTATIONS
Keywords:
Soil density, microbial biomassAbstract
The objective of this study was to evaluate the effect of two crop rotations on soil physical, chemical and biological attributes of a dystrophic red Oxisol. A randomized block design with split plot arrangement was used, with six replications. The treatments were two crop rotations, common bean/soybean + Brachiaria grass/common bean (F/S+B/F) and common bean/maize + Brachiaria grass/common bean (F/M+B/F), and a savannah area (";cerradão";) as reference, with soil samples at depths of 0-2.5 cm and 15-17.5 cm. The samples were collected in September 2004, at the common bean flowering stage. The attributes evaluated were: bulk density, total porosity, macroporosity, microporosity, average geometric diameter, average weighed diameter, aggregation greater than 2.0 mm, organic carbon, total nitrogen, microbial biomass carbon, and microbial quotient. The transition from ";cerradão"; to agricultural production, independent of crop rotation, increased soil bulk density and reduced total pore volume, macroporosity, organic carbon, total nitrogen, and microbial biomass carbon. The rotation F/S+B/F reduced soil bulk density and macroporosity, and increasing microporosity, average geometric diameter, average weighed diameter, aggregation greater than 2.0 mm, organic carbon, and total nitrogen, as related to the F/M+B/F rotation.
KEY-WORDS: Soil density; microbial biomass.
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