Es. Mendonca et Dl. Rowell, MINERAL AND ORGANIC FRACTIONS OF 2 OXISOLS AND THEIR INFLUENCE ON EFFECTIVE CATION-EXCHANGE CAPACITY, Soil Science Society of America journal, 60(6), 1996, pp. 1888-1892
The mineral and organic fractions of a clayey Red Yellow Latosol (Typi
c Acrustox) and a sandy loam Dark Red Latosol (Typic Haplustox) sample
d under the Cerrado Region of Brazil were characterized, and their inf
luence on the effective cation-exchange capacity was evaluated, Kaolin
ite and sesquioxides dominate the clay fraction of both soils, but the
clayey soil is at a more advanced stage of weathering, It also holds
a larger amount of organic matter and has more fulvic acid than humic
acid throughout the profile. In the sandy soil, the reverse applies to
the surface horizon, with equal amounts of humic and fulvic acids in
lower horizons. More humic and fulvic acids were extracted from both s
oils by NaOH than by Na4P2O5, with CaHPO4 and water extracting similar
small amounts of C. The total acidity, the carboxyl groups, and the p
henolic-OH groups were measured in humic and fulvic acids. The humic a
cid was about half as reactive as the fulvic acid in both soils. Fulvi
c acid is therefore the main source of charge in the clayey soil, but
in the surface horizon of the sandy soil, humic acid contributes to mo
re charge. The soils have low effective cation-exchange capacity value
s, which decrease with depth and depend primarily on the content of or
ganic matter, as shown by regression and multiple regression analysis.