Premium
In Situ Study of Podzolization on Tephra and Bedrock
Author(s) -
Singer Michael,
Ugolini F. C.,
Zachara J.
Publication year - 1978
Publication title -
soil science society of america journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.836
H-Index - 168
eISSN - 1435-0661
pISSN - 0361-5995
DOI - 10.2136/sssaj1978.03615995004200010023x
Subject(s) - podzol , lysimeter , bedrock , usda soil taxonomy , weathering , soil water , geology , pedogenesis , soil horizon , soil science , soil classification , environmental science , geochemistry , geomorphology
A study was initiated in the Washington Cascades to examine processes of soil genesis in situ through the analysis of soil solution chemistry. Suction plate lysimeters were used to continuously extract soil solution held below 0.1 atm from the O2, A2, IIB2hir, and IVB32 horizons of a forest soil. Movement of elements was in the order Si > Al > Fe > Mn. The O2 and A2 were the source of the Fe, Al, and Si which entered the IIB2hir. Most of the Mn originated in the A2. Virtually all of the Fe, 48.5% of the Al, 50% of the Mn, and 15% of the Si which left the A2 remained in the IIB2hir. According to the soil's morphology, it appears to be a Spodosol, and the lysimeter data indicates that podzolization is the major process of soil formation. The soil does not meet the criteria of a Spodosol in Soil Taxonomy . Two explanations for this are: (i) the soil has not become a Spodosol yet because the intensity of weathering is low or (ii) soil taxonomy criteria for the Spodosol order are not broad enough and need to be broadened to include soils of this type.