Dynamics of growth and components of herbage accumulation in elephant grass cv. Napier subjected to strategies of rotational stocking manament

Sward structure and herbage accumulation result in integrated processes of plant adaptation to environmental and management conditions ranging from the turnover of tissues on individual tillers to aspects of tiller population dynamics in a community level. Based on the hypothesis that strategies of rotational stocking management modify the relationships among individuals within a plant community and alter the proportion of different tiller categories, interfering with the dynamics of morphogenetic responses and components of herbage accumulation, the objective of this study was to evaluate how the morphogenetic responses and structural characteristics of basal and aerial tillers are integrated during regrowth and what are the consequences to herbage accumulation and sward structure of elephant grass from January 2011 to April 2012. Treatments corresponded to combinations between two post- (post-grazing heights of 35 and 45 cm) and two pre-grazing conditions (95% and maximum canopy light interception during regrowth - LI95% and LIMáx), and were allocated to experimental units (850 m2 paddocks) according to a 2x2 factorial arrangement and a randomised complete block design, with four replications. Distinct growth strategies were used by elephant grass cv. Napier in response to LI pre-grazing management targets. These were characterised by changes in the proportion and population of different tiller classes, as illustrated by the higher [aerial tillers/(basal tillers + stems of conduction)] ratio of swards managed with the LIMax target. The more intense competition for light, consequence of longer regrowth periods for this LI pre-grazing target resulted in higher rates of stem elongation and lower leaf elongation rates per phyllochron day during the intermediate and final phases of regrowth. Such pattern of response, associated with the lower growth rate of aerial relative to basal tillers, resulted in lower rates of leaf growth and higher rates of stem growth, which determined reduction in rates of net leaf accumulation on swards managed with the LIMax target relative to those managed with the LI95% target. Swards managed with the LI95% target showed stable values of sward height pre-grazing (85 cm) during months of active plant growth (September 2011 to April 2012). Higher values of the [aerial tillers/(basal tillers + stems of conduction)] ratio were recorded during autumn and winter, a result in line with the expressive contribution of aerial tillers to herbage accumulation at that time of the year. Targets of post-grazing height used did not interfere with the proportion of basal and aerial tillers in plant population and with the dynamics of the morphogenetic responses throughout regrowth, but influenced in a different manner the morphogenetic and structural characteristics of basal and aerial tillers and growth rate during regrowth, with shorter grazing intervals recorded on swards managed at 45 cm. Targets of LI pre-grazing play a central role in defining the compensatory mechanisms determining the competitive ability of elephant grass cv. Napier, which are maximised with the LI95% target. (AU)