Root system dynamics of irrigated tanzania grass (Panicum maximum, Jacq.) pasture managed under different grazing intensities.

The present study was carried out at Escola Superior de Agricultura "Luiz de Queiroz", Piracicaba - SP, SP (22°42'30" S; 47°38'30" W) to evaluate the root system dynamics of irrigated Tanzania grass (Panicum maximum cv. Tanzania) pasture managed under three grazing intensities, determinated by adjusting the post grazing residues to 1000, 2500 and 4000 kg of green dry matter per hectare (GDM.ha-1). The experimental area was irrigated by a central pivot system. Nelore steers were used in a 36 days rotational grazing system, represented by an occupation period of 3 days and resting period of 33 days. Quantitative and qualitative evaluations were both performed. In the former case the variables measured were root mass, surface and length. In the latter case, collected samples were separated into live and dead roots, providing a reliable way to assess grazing intensity effects upon root system dynamics. Root system development responded inversely to grazing intensity. Hard grazing (1000 kg GDM.ha-1) was associated to slower root system regrowth compared to moderate (2500 kg GDM.ha-1) and lenient (4000 kg GDM.ha-1) grazing. In the 1000 kg GDM.ha-1 post-grazing residue no root development was observed up to three weeks, whereas for the other two treatments root regrowth was reactivated after 12 days. The three treatments averaged, 76% and 82% of live and dead roots, respectively, were found in the 0-20 cm soil layer. This information might suggest further research on root system dynamics could focus on sampling in the range of 0-20 cm depth. This seems reasonable, since the results obtained in this soil layer were representative and also because root samplings in depth greater than 20 cm (e.g. 20-40 cm) are not so easy to be performed as compared to samplings taken from 0-20 cm. Sample separation into live and dead roots provided a reliable and more accurate method to analyze the data. In part, this can be attributed to lower variability among samples. It is important to stress that additional work has to be undertaken to study decomposition and turnover of the root system of tropical pastures, as well as the relationship between these variables with biotic and abiotic factors. This effort should provide a better understanding on tissue turnover of the plant as a whole (shoots and root system). Finally, improved methods on root samplings should be developed. Also, new concepts on statistical interpretation for biological processes should be emphasized, due to difficulties in interpreting data on root system by conventional statistical methods. (AU)