Vegetation dynamics and soil characteristics of abandoned cultivated fields

English: Up to the 1980’s marginal soils were successfully ploughed for crop production, but unfortunately those soils soon proved to be marginal. Due to high input costs, the Department of Agriculture soon implemented the “soil conversion scheme” to promote the conversion of those ploughed marginal soils to permanent pastures. It was especially the low maize prices that triggered the conversion scheme in the 1980’s. Regardless the implementation of the soil conversion scheme, many farmers unfortunately just abandoned some of these marginal fields which resulted in many hectares of unproductive previously cultivated fields, being referred to as abandoned fields. The aim of this study was to investigate a few abandoned fields at a single location in the semi-arid central Free State in an attempt to gather information on the dynamics of such disturbed ecosystems and identify their restoration potential. The study investigated the interaction between plant and soil variables to quantify the impact of different soil physical and chemical characteristics on vegetation dynamics (species composition and density). The species richness, as well as the influence of different soil characteristics were determined to identify which might have the biggest influence on the recovery potential of the disturbed area. The soil seed bank was also investigated to quantify the survival potential of climax grass species on abandoned fields, and why these species do not establish voluntarily on these disturbed areas. The main aim of the study was to quantify the influence of soil characteristics on the vegetation dynamics of abandoned fields. The results clearly showed that marginal soils, withdrawn from cash-crop cultivation, are among the most seriously degraded areas with low soil fertility (N and C content). It is creating a more favourable habitat for pioneer grass species. This study sheds more light on the poor natural rehabilitation rate of abandoned fields in the semi-arid Free State Province of South Africa. It was proven that the establishment of climax vegetation might be largely influenced by phosphorus (P), cation exchange capacity (CEC), nitrogen (N), carbon (C), soil compaction and the composition of the soil seed bank. It was note worthy that some of the abandoned fields still showed very slow progress in natural restoration after 20 years. The areas that showed least recovery needed to be cultivated and established with a cultivated pasture like Digitaria eriantha sub. eriantha. On the other hand, other areas recovered to such an extent that oversowing or the placement of Themeda triandra sheafs might improve restoration. The best recovered areas can only be upgraded in productivity by scientific management strategies which include long resting periods. Drastic human interference is an absolute necessity to speed up the process of plant succession (rehabilitation). Future investigation might include long-term trials to monitor the reaction of vegetation and soil characteristics to the introduction of organic matter as well as the seed of climax grass species.