Arthur J. Spivack scite author profile

Diverse microbial communities and numerous energy-yielding activities occur in deeply buried sediments of the eastern Pacific Ocean. Distributions of metabolic activities often deviate from the standard model. Rates of activities, cell concentrations, and populations of cultured bacteria vary consistently from one subseafloor environment to another. Net rates of major activities principally rely on electron acceptors and electron donors from the photosynthetic surface world. At open-ocean sites, nitrate and oxygen are supplied to the deepest sedimentary communities through the underlying basaltic aquifer. In turn, these sedimentary communities may supply dissolved electron donors and nutrients to the underlying crustal biosphere.

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Metabolic Activity of Subsurface Life in Deep-Sea Sediments

Dhondt

Rutherford

Spivack

2002

Science

504

386

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Global maps of sulfate and methane in marine sediments reveal two provinces of subsurface metabolic activity: a sulfate-rich open-ocean province, and an ocean-margin province where sulfate is limited to shallow sediments. Methane is produced in both regions but is abundant only in sulfate-depleted sediments. Metabolic activity is greatest in narrow zones of sulfate-reducing methane oxidation along ocean margins. The metabolic rates of subseafloor life are orders of magnitude lower than those of life on Earth's surface. Most microorganisms in subseafloor sediments are either inactive or adapted for extraordinarily low metabolic activity.

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Endospore abundance, microbial growth and necromass turnover in deep sub-seafloor sediment

Lomstein

Langerhuus

Dhondt

et al. 2012

Nature

320

308

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Arthur J. Spivack

Distributions of Microbial Activities in Deep Subseafloor Sediments

Metabolic Activity of Subsurface Life in Deep-Sea Sediments

Endospore abundance, microbial growth and necromass turnover in deep sub-seafloor sediment

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