Various organic geochemical parameters and rates of sulfate reduction (SRR)
were determined in four sediment cores off the coast of central Chile. To
examine the effect of organic matter composition on the sulfate reduction r
ates. we estimated the marine and terrestrial contributions to the organic
matter fraction using C/N ratios, carbon isotopic composition, protein and
chlorin concentrations. Whereas three cores, one from the Bay of Concepcion
, one at the entrance of the Bay and one on the shelf appear to be similarl
y dominated by marine organic matter input, the organic fraction of another
core from the shelf is strongly influenced by terrestrial organic matter.
This is demonstrated by higher C/N ratios, lighter C-13(org) values, lower
protein and lower chlorin concentrations. Additionally, the distribution of
sulfate reduction activity with depth at this station differed considerabl
y from the other stations. The marine influenced stations exhibited distinc
t near-surface peaks of sulfate reduction rates with quasi-exponentially de
creasing rates at depth. Sulfate reduction rates at the station influenced
by terrestrial organic material exhibited an attenuated near-surface peak a
nd relatively constant rates with depth. Using sulfate reduction rates as a
measure of organic carbon reactivity, we were unable to identify differenc
es with respect to degradation kinetics between the terrestrially dominated
and marine dominated shelf sediments. It was therefore proposed that the m
arine organic matter being degraded through the sulfate reduction process i
s diluted by non-reactive components, including terrestrially derived organ
ic matter leading to the observed sulfate reduction rate distribution. (C)
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