Hydrocarbon seep and hydrothermal vent paleoenvironments and paleontology: Past developments and future research directions

Hydrocarbon seeps and hydrothermal vents are now known to be common at continental margins and oceanic spreading centers worldwide, exuding fluids rich in CH 4 and H 2S, and teeming with life based on chemosynthesis. These settings have been implicated as the crucibles for life's origin, and as...

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Published in:Palaeogeography, palaeoclimatology, palaeoecology palaeoclimatology, palaeoecology, 2006-03, Vol.232 (2), p.362-407
Main Author: Campbell, Kathleen A.
Format: Article
Language:English
Subjects:
Archaea
Brachiopoda
Chemosynthesis
Evolution
Gastropoda
Hydrocarbon seep
Hydrothermal vent
Marine
Metazoa
Paleoecology
Paleoenvironments
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Summary:Hydrocarbon seeps and hydrothermal vents are now known to be common at continental margins and oceanic spreading centers worldwide, exuding fluids rich in CH 4 and H 2S, and teeming with life based on chemosynthesis. These settings have been implicated as the crucibles for life's origin, and as locales for methane release to the atmosphere from hydrate destabilization during past climate change. Ancient vent and seep deposits are also increasingly recognized, and occur in various sizes, lithologies, biotic compositions, geotectonic settings and ages. Precambrian vents were populated with microbes, with the oldest metazoans in vent settings reported from possibly the Cambrian, but definitely by the Silurian. The oldest purported seep deposit with metazoan fossils is Silurian in age. A largely endemic and chemosymbiotic biota from modern vents and seeps appears distinct phylogenetically from those taxa of deposits older than Late Jurassic, with a shift from extant families of particular bivalves and gastropods to now-extinct family groups of brachiopods, monoplacophorans, bivalves and gastropods. An exception may be worm tubes of possible vestimentiferan origins, with a history in hydrothermal vent paleoenvironments extending back to the Early Paleozoic. Unfortunately their relatively simple morphology and particular style of preservation make comparisons with living groups a challenge. There may also be an ancient “lineage” of vent–seep restricted rhynchonellide brachiopods, which appears to have persisted in these settings from the Late Devonian through the Early Cretaceous. Because biotic components have changed in vent–seep settings through time, several lines of evidence must be marshaled to confirm the origin of suspected deposits in the geologic record. These include distinctive stable isotopic signatures of carbon, oxygen or sulfur in authigenic precipitates and/or tests of foraminiferans, certain mineral paragenetic sequences, and fluid-flow features. Lipid biomarkers also indicate biogeochemical cycling by Archaea and Bacteria, which performed sulfate-dependent, anaerobic oxidation of methane in ancient marine sediments. The origin of an endemic modern vent–seep biota has been attributed to either enhanced accumulation of Paleozoic and Mesozoic relics, or migration of various invertebrate groups into vent and seep environments during the Phanerozoic. Current databases from fossils and molecular characterization of living groups suggest that adaptiv
ISSN:0031-0182
1872-616X
DOI:10.1016/j.palaeo.2005.06.018