An evaluation of methods for identifying and interpreting buried soils in late Quaternary loess in Alaska: A section in <i>Geologic studies in Alaska by the U.S. Geological Survey, 1998</i>

Daniel R. Muhs; Thomas A. Ager; Josh M. Been; Joseph G. Rosenbaum; Richard J. Reynolds

doi:10.3133/70180665

An evaluation of methods for identifying and interpreting buried soils in late Quaternary loess in Alaska: A section in Geologic studies in Alaska by the U.S. Geological Survey, 1998

Professional Paper 1615

By: Daniel R. Muhs, Thomas A. Ager, Josh M. Been, Joseph G. Rosenbaum, and Richard J. Reynolds

https://doi.org/10.3133/70180665

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Larger Work: Geologic studies in Alaska by the U.S. Geological Survey, 1998
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Abstract

The presence of buried soils in Alaskan loess is controversial, and therefore criteria for identifying buried soils in these deposits need to be evaluated. In this paper, morphologic and chemical criteria for identifying buried soils are evaluated by studying modern soils developed mostly in Holocene loess under tundra, boreal forest, and transitional coastal-boreal forest vegetation in different parts of Alaska. Data from modern Alaskan soils that developed under vegetation similar to that of the present indicate that soil morphology, organic-matter concentrations, and P concentrations can be useful diagnostic tools for identifying buried soils. Soil morphologic criteria, particularly horizon colors and horizon sequences, are essential for identifying buried soils, but some minimally developed soils may resemble organic-rich alluvial, colluvial, or lacustrine deposits. Organic matter and total P contents and distributions can aid in such studies because in well-drained soils these constituents show rapid declines with depth. However, neither of these techniques may work if the upper genetic horizons of buried soils are eroded.

If buried soils are present in Alaskan loess, it would also be desirable to have techniques for determining the dominant vegetation under which the soils formed. Such techniques could then be used to reconstruct former vegetation types and paleoclimates in Alaska. A previous study suggested that tundra and boreal forest vegetation have distinctive carbon isotopic compositions, although both are dominated by C₃ plants. If this is the case, then the carbon isotopic composition of organic matter in buried soils could be used to reconstruct former vegetation types. A larger suite of modern soils from Alaskan tundra and forest were analyzed to test this hypothesis. Results indicate that modern soil O horizons in these two biomes have the same range of δ¹³C values, and therefore carbon isotope compositions cannot be used to reconstruct former tundra or boreal forest.

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Additional publication details
Publication type	Report
Publication Subtype	USGS Numbered Series
Title	An evaluation of methods for identifying and interpreting buried soils in late Quaternary loess in Alaska: A section in Geologic studies in Alaska by the U.S. Geological Survey, 1998
Series title	Professional Paper
Series number	1615
DOI	10.3133/70180665
Year Published	2000
Language	English
Publisher	U.S. Geological Survey
Publisher location	Denver, Co
Contributing office(s)	Geosciences and Environmental Change Science Center, New York Water Science Center
Description	20 p.
Larger Work Type	Report
Larger Work Subtype	USGS Numbered Series
Larger Work Title	Geologic studies in Alaska by the U.S. Geological Survey, 1998 (Professional Paper 1615)
First page	127
Last page	146
Country	United States
State	Alaska
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