Pleistocene sediment offloading and the global sulfur cycle

S. Markovic; A. Paytan; U. G. Wortmann

doi:10.5194/bg-12-3043-2015

Pleistocene sediment offloading and the global sulfur cycle

S. Markovic, A. Paytan, U. G. Wortmann

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29 Scopus citations

Abstract

Quaternary sea level fluctuations have greatly affected the sediment budgets of the continental shelves. Previous studies suggested that this caused a considerable increase in the net loss of shelf sediments. Since sediment accumulation and erosion are closely tied to the formation and re-oxidation of pyrite, we use a high-resolution record of sulfur isotope ratios (³⁴S/³²S) of marine sulfate to evaluate the implications of the so-called "shelf sediment offloading" on the global sulfur cycle. Modeling of our delta;³⁴S record suggests that erosion during sea level lowstands was only partly compensated by increased sedimentation during times of rising sea level and sea level highstands. Furthermore, our data suggests that shelf systems reached a new equilibrium state about 700 ka, which considerably slowed or terminated shelf sediment offloading.

Original language	English
Pages (from-to)	3043-3060
Number of pages	18
Journal	Biogeosciences
Volume	12
Issue number	10
DOIs	https://doi.org/10.5194/bg-12-3043-2015
State	Published - 27 May 2015
Externally published	Yes

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Earth-Surface Processes

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AU - Paytan, A.

AU - Wortmann, U. G.

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N2 - Quaternary sea level fluctuations have greatly affected the sediment budgets of the continental shelves. Previous studies suggested that this caused a considerable increase in the net loss of shelf sediments. Since sediment accumulation and erosion are closely tied to the formation and re-oxidation of pyrite, we use a high-resolution record of sulfur isotope ratios (34S/32S) of marine sulfate to evaluate the implications of the so-called "shelf sediment offloading" on the global sulfur cycle. Modeling of our delta;34S record suggests that erosion during sea level lowstands was only partly compensated by increased sedimentation during times of rising sea level and sea level highstands. Furthermore, our data suggests that shelf systems reached a new equilibrium state about 700 ka, which considerably slowed or terminated shelf sediment offloading.

AB - Quaternary sea level fluctuations have greatly affected the sediment budgets of the continental shelves. Previous studies suggested that this caused a considerable increase in the net loss of shelf sediments. Since sediment accumulation and erosion are closely tied to the formation and re-oxidation of pyrite, we use a high-resolution record of sulfur isotope ratios (34S/32S) of marine sulfate to evaluate the implications of the so-called "shelf sediment offloading" on the global sulfur cycle. Modeling of our delta;34S record suggests that erosion during sea level lowstands was only partly compensated by increased sedimentation during times of rising sea level and sea level highstands. Furthermore, our data suggests that shelf systems reached a new equilibrium state about 700 ka, which considerably slowed or terminated shelf sediment offloading.

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Pleistocene sediment offloading and the global sulfur cycle

Abstract

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