Grazing effect on soil properties in conventional and no-till systems

Diversification of production is a concern for farmers in many regions of the world, raising a renewed interest in crop-animal rotations. However little information is available on whether the introduction of grazing animals in a no-till system could be a sustainable practice. The present long-term study was carried out in the semiarid region of Argentina, on an Entic Haplustoll (A, AC, C and C-k profile). The experimental plots were established in August 1993, with two treatments, no-till (NT) and conventional tillage (Cr). Stubble was regularly used for grazing until 2002, when plots were divided into grazed (G) and non-grazed (NG) sub-treatments. Soil samples were taken at 0-0. 10 and 0.10-0.20 m depth at the beginning of the experiment (1993) and during 2007, with the following determinations: clay + silt contents, bulk density (BD), total carbon (C), total nitrogen (N), available P, C contents of aggregate fractions of 2000-100 (POC), 100-50 (IOC) and <50 (FOC) mu m diameter, aggregate size distribution and mean weight diameter change. NT showed a strong effect on all analyzed soil attributes: it had higher total carbon stocks (MT 16.6 Mg ha(-1) vs. CT 13.2 Mg ha(-1)) and higher amounts in all C fractions, even in FOC (11.3 Mg ha(-1) vs. 9.2 Mg ha(-1)). For BD, we found no difference between NT and CT at the surface and an even lower value for NT at 0.10-0.20 m depth. Under NT no depletion of available P occurred, while Cr lost about 23 kg ha(-1). Grazing had a negative effect on BD when averaging BD data across tillage systems, while there was no effect on aggregate stability, and a positive one on the proportion of >8 mm aggregates (23.3% vs. 11.7% for CT G and CT NG, respectively). C stratification showed a differential effect of grazing: NT G had the highest index (1.31) and Cr G the lowest one (0.98). Our results indicated that the introduction of grazing animals in NT crop systems would not be detrimental to soil conditions and quality, at least in semiarid conditions of Argentina. (C) 2009 Elsevier B.V. All rights reserved.