Abstract:
Expansive soils tend to be fairly high in natural fertility and their unique morphology makes
them quite interesting. Soils found in Serowe, Central Botswana, commonly exhibit variable
degrees of periodic shrinking and swelling which often leave visible cracks and sometimes
undulating micro-topography (gilgai) on the landscape. The use of expansive soils is often
constrained due to severe management problems often associated with their physico-chemical
properties. Therefore, basic site-specific pedological research is pivotal to understanding some
of the unresolved edaphological and environmental aspects of expansive soils. The overarching
aim of this study is to undertake a pedological investigation of the expansive soils from Serowe,
which hitherto have been poorly studied. The main objective of this study is to advance our
understanding on the pedology of the soils from Serowe. Specific objectives include to: (i)
characterize the soils using macromorphological, physical, chemical, mechanical and
mineralogical properties; (ii) evaluate mineral weathering intensities of the soils; (iii) identify
the pedogenic processes responsible for their formation; and (iv) provide an updated high
resolution classification of the soils in accordance to FAO-WRB system and USDA Soil
Taxonomy. Five representative soil profiles (SP1, SP2, SP3, SP4 and SP5) were randomly sited
on flat to undulating landscapes and samples were collected from each genetic horizon for
laboratory analysis. Selected pedological parameters including particle size distribution, pH
(H2O and KCl), bulk density, porosity, organic matter, calcium carbonates contents, electrical
conductivity, cation exchange capacity, coefficient of linear extensibility (COLE) and Atterberg
limits were determined using routine laboratory procedures. X-ray fluorescence
spectrophotometer and x-ray diffractometer were used for total elemental composition and clay
mineral analysis respectively. Geochemical ratios including CIA, CIW, and ICV were used to
assess mineral weathering; mass-balance plots for elemental redistribution and pedogenic ratios
for quantitative pedogenesis. In-situ observations showed that all the soils have vertic properties
and were generally very deep (>150 cm). By the virtue of their colour, the soils qualified as dark
and chromic. With the exception of SP3, all other soil profiles had sandy clay loam texture with
sand content ranging from 60.2 to 85.0 %, silt 0.2 to 15.0 % and clay content 20.8 to 33.8 %.
SP3 and SP5 had consistently subangular blocky structure while SP1, SP2 and SP4 had
subangular blocky structure on the top horizons (<25 cm) and angular blocky structure in the
subsurface horizons. The bulk density values ranged from 1.14 to 1.67g/cm3 with medium to
high porosity (20 – 40 %). pH (H2O) values ranged from 6.9 to 8.0. The electrical conductivity
values ranged from 0.07 to 0.40 dS/m. CEC values for all profiles were medium to high (˃ 12
Cmol/kg). The COLE rod values were high to very high (0.4 - 0.8). Elemental dominance for
profiles SP1, SP2, SP3 and SP4 was: SiO2 ˃ Al2O3 ˃ Fe2O3 ˃ CaO ˃ MgO, whereas SP5 had
SiO2 ˃ Al2O3 ˃ CaO ˃ Fe2O3 ˃ MgO. The soils were young and immature with ICV ˃ 1 with
incipient to moderate weathering (50 – 80 %) except four horizons;
SP1 (A and Ak), SP2 (Bt) and SP3 (Bsstb) which showed intense weathering (˃ 80%). The soils
had mixed mineralogy consisting of smectite, nontronite, montmorillonite, vermiculite, illite,
mica, sepiolite, palygorskite, chlorite, chrysotite and kaolinite. Local environmental factors
including parent material and topography exerted the most influence on the pedoclimate which
led to the pedogenesis of these soils via humification, clay-humic complexation, profile
homogenization by vertic pedoturbation, calcification, hydrolysis, and salinization. In line with
WRB system, SP1, SP2 and SP4 were Grumic, gleyic Vertisols (Calcuric, mesotrophic) whereas
SP3 and SP5 are Vertic, gleyic Acrisols (Abruptic) and Vertic, gleyic Alisols respectively. The
Soil Taxonomy correlation were Glayey, smectitic, hyperthermic haplusterts for SP1, SP2 and
SP4, and were fine-silty, mixed, hyperthemic haplargirds for SP3 andSP5. Application of the
recommended practices would go a long way in ensuring sustainable management of the soil
resources given its huge agronomic potentials.