Robert G. Maliva scite author profile

In the modern oceans, the removal of dissolved silica from sea water is principally a biological process carried out by diatoms, with lesser contributions from radiolaria, silicoflagellates, and sponges. Because such silica in sediments is often redistributed locally during diagenesis to from nodular or bedded chert, stratigraphic changes in the facies distribution of early diagenetic chert provide important insights into the development of biological participation in the silica cycle. The abundance of chert in upper Proterozoic peritidal carbonates suggests that at this time silica was removed from seawater principally by abiological processes operating in part of the margins of the oceans. With the evolution of demosponges near the beginning of the Cambrian Period, subtidal biogenetic cherts became increasingly common, and with the Ordovician rise of radiolaria to ecological and biogeochemical prominence, sedimented skeletons became a principal sink for oceanic silica. Cherts of Silurian to Cretaceous age share many features of facies distribution and petrography but they differ from Cenozoic siliceous deposits. These differences are interpreted to reflect the mid-Cretaceous radiation of diatoms and their subsequent rise to domination of the silica cycle. Biogeochemical cycles provide an important framework for the paleobiological interpretation of the organisms that participate in them.

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Environmental issues in seawater reverse osmosis desalination: Intakes and outfalls

Missimer

2018

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Meteoric-like fabrics forming in marine waters: Implications for the use of petrography to identify diagenetic environments

Melim

Swart

Maliva

1995

Geol

111

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Arid Lands Water Evaluation and Management

Maliva¹,

Missimer²

2012

154

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Meteoric and Marine-Burial Diagenesis in the Subsurface of Great Bahama Bank

Melim¹,

Swart²,

Maliva³

2001

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Diagenetic replacement controlled by force of crystallization

Maliva¹,

Siever²

1988

Geol

143

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A new mechanism for pressure solution in porous quartzose sandstone

Tada

Maliva

Siever

1987

Geochimica et Cosmochimica Acta

112

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Robert G. Maliva

Secular change in the Precambrian silica cycle: Insights from chert petrology

Secular Change in Chert Distribution: A Reflection of Evolving Biological Participation in the Silica Cycle

Environmental issues in seawater reverse osmosis desalination: Intakes and outfalls

Meteoric-like fabrics forming in marine waters: Implications for the use of petrography to identify diagenetic environments

Arid Lands Water Evaluation and Management

Meteoric and Marine-Burial Diagenesis in the Subsurface of Great Bahama Bank

Diagenetic replacement controlled by force of crystallization

A new mechanism for pressure solution in porous quartzose sandstone

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