Properties of Degraded Soils Cultivated with Amaranth as Influenced by Palm Bunch Refuse Ash

We investigated the effects of palm bunch refuse ash on soil properties and performance of amaranth (Amaranthus cruentus) in 2008, 2009 and 2010. Routine land preparations were made. Seedlings were raised and transplanted after 14 days. The experiment consisted of 5 treatments: 0t/ha, 0.5t/ha,1.0t/ha, 1.5t/ha and 2.0t/ha of palm bunch refuse ash, which were replicated thrice and arranged in a randomized complete block design. Leaf yield data were subjected to analysis of variance (ANOVA) at 5% level of significance. Results indicate improvement in soil properties. In addition to this, therewas significant (p= 0.05) difference in leaf yield of Amaranthus cruentus resulting from varying rates of palm bunch refuse ash application. It is suggested that further studies should evaluate the effect in other soil groups of southeastern Nigeria as this study was conducted on soils developed over coastal plain sands only

Seasonal Dynamics of Soil Organic Matter and Total Nitrogen in soils under different land uses in Owerri Southeastern Nigeria

The study investigated seasonal dynamics of soil organic matter and total nitrogen in soils affected by different land use types in Owerri, Southeastern Nigeria. A total of 72 soil samples were randomly collected at two monthly intervals in the dry season (October/November, December/January and February/March) and rainy season (April/May, June/July and August/September) at 0-20 cm depth in all the studied land uses, namely soils under continuous cassava cultivation (CCS), pineapple orchard soil (POS), bush fallow (FS) and bare fallow (BF.) . Collected soil samples were air dried, passed through 2mm sieve and were analysed using standard methods. The experiment was factorially arranged in randomized complete block design (RCBD), with three factors namely, season, month and landuse. The treatments were replicated three times. Generated soil data were analysed using analysis of variance (ANOVA) and significant means were separated using least significant difference (LSD) at 5% probability. Results showed that soil organic matter and total nitrogen were significantly higher (P<0.05) in the dry season especially between January and April compared to the rainy season where the least was found around June/July in all the studied land uses, although in all cases, their variability was minimal, ranging from 30.49% in (CCS) to 47.68% in bare fallow. Significant positive correlation (P < 0.05) was found between soil organic matter (SOM) and total nitrogen (r2= 0.966 CCS; 0.935 FS, 0.626 POS, and 0.796 BF), and negative correlation with CN ratio (r2=0.917 CCS; 0.729 FS, 0.3 POS; 0.347 BF), respectively, bulk density (r2 = 0.63) only in FS. Similarly significant negative correlations (P< 0.05) were also found between TN and CN ratio (r2 =0.865 CCS, 0.716 FS, 0.796 POS and 0.328 BF).Keywords. Tropical soil, seasonal variability, total nitrogen, organic matter, land use, Southeasthern Nigeria