Author(s)

Olayinka Olakunle Olatunji^*, Yetunde Oyeyiola, Gbade Oyewunmi Oyediran

Crop Production and Soil Science Department, Ladoke Akintola University of Technology, Ogbomoso, Nigeria.

The study investigats the morphological, physical and chemical characteristic of a toposequence on basement complex in Ejioku area, south-western Nigeria on latitude 07°28.675'N; and longitude 004°07.219'E; 180 m above sea level at the upper slope. It terminates at the valley bottom on latitude 07°28.756'N; and longitude 004°07.229'E; 175 m above sea level. The topography of the site is moderately slope (not greater than 10%). The aim is to examine the two forms of sesquioxides (crystalline-dithionite extractible Fe & Al and amorphous-oxalate Fe & Al) and their distribution on the toposequence. The crystalline form of Fe oxide dominates all the positions and ranges from 7.2 g/kg at the valley bottom to 444.3 g/kg at the crest compared to the amorphous forms that range from 2.7 g/kg to 10.9 g/kg. The crystalline and amorphous aluminium oxide contents of the soils are low (2.9 g/kg - 43.3 g/kg and 1.3 g/kg - 8.7 g/kg respectively). There is significant negative relationship between Fe_d and Fe_d/Fe_o (r =-0.15; P < 0.01; n = 16). There is also a correlation between Fe_o and Al_d (r = 0.63; P < 0.01; n = 16), Fe_O and Fe_O/Fe_d (r = 0.44; P < 0.01; n = 16), signifying a high level of weathering. The relatively high amount of Fe_d virtually at all the horizons indicates that the crystalline and less active forms of the oxides exist more on the landscape and may be responsible for the non-availability of some nutrient like phosphorus that may be sorbed to their crystals lattice. All forms of Al in the soils are low especially, the oxalate extractable forms, when compare with the dithionite extractable forms. However, there is a significant correlation between Al_d and Fe_o/Fe_d (r = 0.57; P < 0.01). As a result of high accumulation of crystalline form of Fe and Al oxide with increasing depth, most especially, at the crest/upper slope, there is greater amount of concretions, nodules and plinthites which will lead to further deterioration of the soil for agricultural purposes.

Plinthites, Sesquioxides, Toposequence, Dithionite Extractable, Oxalate Extractable

Olatunji, O. , Oyeyiola, Y. and Oyediran, G. (2015) Assessment of Dithionite and Oxalate Extractable Iron and Aluminium Oxides on a Landscape on Basement Complex Soil in South-Western Nigeria. Open Journal of Soil Science, 5, 266-275. doi: 10.4236/ojss.2015.511025.