An anomalous enrichment in marine sulfate delta S-34(SO4), is preserved in globally-distributed latest Ediacaran-early Cambrian strata. The proximity of this anomaly to the Ediacaran-Cambrian boundary and the associated evolutionary radiation has invited speculation that the two are causally related. Here we present a high-resolution record of paired sulfate (delta S-34(SO4),) and pyrite (delta S-34(pyr)) from sediments spanning ca. 547-540 million years ago (Ma) from the Ara Group of the Huqf Super-group, Sultanate of Oman. We observe an increase in delta S-34(SO4) from similar to 20%. to similar to 42%., beginning at ca. 550 Ma and continuing at least through ca. 540 Ma. There is a concomitant increase in delta S-34(pyr) over this interval from similar to - 15 parts per thousand to 10 parts per thousand. This globally correlative enrichment, here termed the Ara anomaly, constitutes a major perturbation to the sulfur cycle. The absolute values of delta S-34(pyr) reported here and in equivalent sections around the world, require the isotopic composition of material entering the ocean (delta S-34(in)) to be significantly more enriched than modern (similar to 3 parts per thousand) values, likely in excess of 12 parts per thousand during the late Ediacaran-early Cambrian. Against this background of elevated delta S-34(in), the Ara anomaly is explained not by increased fractionation between sulfate and pyrite (Delta delta S-34), but by an increase in pyrite burial (f(pyr)), most likely driven by enhanced primary production and sequestration of organic carbon, consistent with earlier reports of elevated organic carbon burial and widespread phosphorite deposition.

• 出版日期2008-6-1