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Distribution, form, and signigicance of plant opal in Oregon soils

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Title Distribution, form, and signigicance of plant opal in Oregon soils
Names Norgren, Joel A. (creator)
Simonson, Gerald H. (advisor)
Date Issued 1972-05-08 (iso8601)
Note Graduation date: 1973
Abstract This study was undertaken to increase knowledge of opal phytoliths
in plants and soils of Oregon, and thus encourage further use of
phytoliths in future pedologic investigations.
Content of plant opal in needles from ten common Oregon conifer
species ranged from 0.2 to 7.9%. Western larch (Larix occidentalis)
contained the greatest quantity of plant opal, but durable silt-size
opal phytoliths were not present. Ponderosa pine (Pinus ponderosa)
and Engelmann spruce (Picea engelmannii) contained opal phytoliths
which appeared potentially useful as indicators of past species presence.
However, occurrence of these forms was not confirmed in the
soils studied. In contrast, phytoliths from Douglas-fir (Pseudotsuga
menziesii) needles were distinctive of the species and present in many
soils. The quantity of these phytoliths present in ten soils which
currently support Douglas-fir forests varied from 40 to 6300 pounds
per acre. This range of values is attributed both to variation in length of time during which Douglas-fir has grown at a given site and to
variation in phytolith content of the needles produced at the different
locations examined. In general, Douglas-fir needles grown on soils
formed in less weathered parent materials or those containing fresh
volcanic ash contained higher phytolith concentrations. Maximum
phytolith concentration in needles was greater than 450 times the
minimum recorded.
Plant opal content of leaves from five grasses and one sedge
species averaged approximately 20 and 6%, respectively, of oven-dried weight. Estimated phytolith content was approximately 7% for
the grasses and 2.4% for the sedge. Principal phytolith forms from
each of these species were described and their relative abundance
tabulated. The proportions determined for various coarse silt-size
phytolith shapes in the 20 to 50 μ fraction of a given species were
called phytolith assemblages. These assemblages were utilized to
identify the origin of phytoliths from soils.
Rod-shaped phytoliths dominated the assemblages of all species
examined (47 to 95%), but kinds of rods varied between species. Rods
with wavy margins were present in two species. Smooth rods were
predominant in two other species and rough rods were predominant in
a third pair of species. Hookbases comprised approximately 40% of
two assemblages and were significant components (5 to 25%) of three
others. Four assemblages contained a significant component of hairs
(8 to 28%). Phytolith content of three Columbia Plateau Haploxerolls (Walla
Walla series and two profiles of the Condon series) from loess, ranged
from 230,000 to 530,000 pounds per acre. Phytolith assemblages of
these profiles were rather uniform. Only relatively small proportional
differences in form were evident between profiles or between
horizons within a given profile. Rod-shaped phytoliths dominated all
horizons of all three profiles (90 to 100%). Smooth rods were the
major type in all but two of the 15 horizons studied, and wavy rods
were only a minor component. These data were interpreted to indicate
that Idaho fescue (Festuca idahoensis) had been the primary source of
phytoliths.
Phytolith content of two Xerolls (Wallowa and Hurwal series)
from the Blue Mountains of northeastern Oregon, was approximately
1,000,000 pounds per acre. A nearby, light-colored, forested soil,
formed in volcanic ash (Andept, Tolo series), contained only half as
much plant opal. The phytoliths in all three of these profiles were
derived from grass. Phytolith assemblages from the two grassland
soils were similar to those of the Columbia Plateau profiles. Phytolith
assemblages from the forested soil were markedly different from
those of the other six profiles. Pinegrass (Calamagrostis rubescens)
was identified as the most probable source of phytoliths in this profile.
The only alluvial soil examined contained more than twice as
much plant opal in a buried profile as occurred in the surficial profile. Phytolith assemblages from the buried horizons differed
from those of the surficial sequence, indicating a change in species
composition.
Microscopic examination revealed that clay-size structures
composed 60 to 100% (by volume) of the plant opal in the species
examined. Estimated maximum annual yields of this finely divided
plant opal, for the soils under consideration, ranged from 80 pounds
per acre (conifers) to 300 pounds per acre (grass). These suggest
that plant opal constitutes a major portion of the silica budget of many
Oregon soils.
Opal phytoliths occurring in soil provide a useful tool for
studying many aspects of soil formation. Quantitative comparison
between contrasting soils or parent materials is apt to be unreliable,
however, due to large differences which may occur in phytolith
content of a given plant species growing on different kinds of soil.
Statistical evaluation of the many variables relating to phytolith
assemblages and rates of accumulation is necessary before quantitative
conclusions can reliably be made from phytolith data.
Genre Thesis/Dissertation
Topic Soils -- Oregon
Identifier http://hdl.handle.net/1957/47527

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