Atsivor, L.Dowuona, G.N.Adiku, S.G.K.2019-02-272019-02-272001-09Atsivor, L., Dowuona, G.N. & Adiku, S. Plant and Soil (2001) 236: 83. https://doi.org/10.1023/A:1011907420292Volume 236, Issue 1, pp 83–90https://doi.org/10.1023/A:1011907420292http://ugspace.ug.edu.gh/handle/123456789/28400This study assessed the effects of different farming systems, namely woodlot (WL), alley farming (AL), conventional tillage (CT) and natural fallow (NF) on the variability of organic carbon (OC) content and mean weight diameter (MWD) of a degraded Ferric Acrisol in the sub-humid zone of Ghana. The soils under woodlot accumulated the highest amount of organic carbon (18.6 g kg-1) with the least spatial variability apparently due to the greater additions of litter and minimum tillage. The conventionally tilled soil had the least OC content (13.1 g kg-1). Similar to the OC content, the woodlot soils also had the highest aggregate stability (MWD = 1.78 mm) and the least spatial variability. The stability of soil aggregates under the farming systems was greatly influenced by OC content; there was a good correlation between OC and MWD (r > 0.62**). Correlograms showed that OC and MWD are space dependent. The correlation length for OC under the different farming systems followed the order WL > NF > AL > CT, indicating that WL ensured a greater uniform distribution soil organic matter. The spatial distribution in MWD followed the same trend observed for OC. The MWD in the other farming systems was poorly related from point to point with shorter k-values, suggesting lack of uniformity due to low accumulation of OC. Generally, the woodlot system appeared to be a better, low-input restorer of soil productivity.enAggregate stabilityAgroforestryAlley farmingCorrelogramsSpatial variabilityWoodlotArticle