Joan M. Bernhard scite author profile

It is generally agreed that the origin and initial diversification of Eucarya occurred in the late Archaean or Proterozoic Eons when atmospheric oxygen levels were low and the risk of DNA damage due to ultraviolet radiation was high. Because deep water provides refuge against ultraviolet radiation and early eukaryotes may have been aerotolerant anaerobes, deep-water dysoxic environments are likely settings for primeval eukaryotic diversification. Fossil evidence shows that deep-sea microbial mats, possibly of sulphur bacteria similar to Beggiatoa, existed during that time. Here we report on the eukaryotic community of a modern analogue, the Santa Barbara Basin (California, USA). The Beggiatoa mats of these severely dysoxic and sulphidic sediments support a surprisingly abundant protistan and metazoan meiofaunal community, most members of which harbour prokaryotic symbionts. Many of these taxa are new to science, and both microaerophilic and anaerobic taxa appear to be represented. Compared with nearby aerated sites, the Santa Barbara Basin is a 'symbiosis oasis' offering a new source of organisms for testing symbiosis hypotheses of eukaryogenesis.

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Foraminifera in the Arabian Sea oxygen minimum zone and other oxygen-deficient settings: taxonomic composition, diversity, and relation to metazoan faunas

Gooday

Bernhard

Levin

et al. 2000

Deep Sea Research Part II: Topical Studies in Oceanography

262

149

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Benthic foraminifera of dysoxic sediments: chloroplast sequestration and functional morphology

Bernhard

Bowser

1999

Earth-Science Reviews

179

152

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Blake Ridge methane seeps: characterization of a soft-sediment, chemosynthetically based ecosystem

Dover

Aharon

Bernhard

et al. 2003

Deep Sea Research Part I: Oceanographic Research Papers

169

150

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Joan M. Bernhard

Foraminifera of oxygen-depleted environments

The Santa Barbara Basin is a symbiosis oasis

Foraminifera in the Arabian Sea oxygen minimum zone and other oxygen-deficient settings: taxonomic composition, diversity, and relation to metazoan faunas

Benthic foraminifera of dysoxic sediments: chloroplast sequestration and functional morphology

Blake Ridge methane seeps: characterization of a soft-sediment, chemosynthetically based ecosystem

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