Dr. Schlezinger et Bl. Howes, Organic phosphorus and elemental ratios as indicators of prehistoric humanoccupation, J ARCH SCI, 27(6), 2000, pp. 479-492
Human occupation enriches soils with phosphorus, which may provide a useful
chemical tracer for site delineation in archaeological studies. In the pre
sent study, fine scale soil profiles of inorganic, particulate organic and
total phosphorus through a prehistoric Indian site and nearby control site
in Cape Cod, MA, indicated a greater predictive value of particulate organi
c P over inorganic P and total P in determining the vertical boundaries of
an anthrosol. The value of inorganic P and total P as occupation tracers wa
s confounded by vertical migration of inorganic P species. Inorganic P mobi
lity was found to result from diagenesis and other post-depositional altera
tions, including the effects of recent sea water flooding on soil concentra
tions of dominant exchangeable cations. Parallel measurements of organic ca
rbon and total nitrogen confirmed organic enrichment within the anthrosol.
Evaluations of elemental ratios distinguished the anthrosol from the unimpa
cted soil locations by a 50% higher average C:P ratio and a two-fold higher
average C:N ratio of its residual organic fraction which declined exponent
ially with depth. Combining C, N and organic P data yielded a robust tracer
for distinguishing anthropogenic organic matter enrichment from naturally
occurring deposition through all soil levels examined at this prehistoric s
ite. Profiles of organic matter C:OP and C:N ratios indicated that C enrich
ment occurred well below the stratigraphically defined anthrosol boundary i
ndicating site habitation prior to the anthrosol deposition. This contentio
n of earlier site usage was supported by comparison of depth profiles of C:
OP ratios with lithic debitage density profiles. Significant correlations b
etween C:OP ratios and lithic debitage density suggested that C enrichment
relative to OP may be a useful indicator of habitation and may yield insigh
t into intra-site variation in the intensity of land use.