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Banerjee, Neil R. et al. (2003): Life in the oceanic desert; microbial alteration of oceanic basaltic glass from the Ontong Java Plateau
Leg/Site/Hole:
Related Expeditions:
ODP 192
Identifier:
ID:
2004-085621
Type:
georefid
Creator:
Name:
Banerjee, Neil R.
Affiliation:
University of Alberta, Department of Earth and Atmospheric Sciences, Edmonton, AB, Canada
Role:
author
Name:
Muehlenbachs, Karlis
Affiliation:
University of bergen, Norway
Role:
author
Name:
Furnes, Harald
Affiliation:
Role:
author
Identification:
Title:
Life in the oceanic desert; microbial alteration of oceanic basaltic glass from the Ontong Java Plateau
Year:
2003
Source:
In: Anonymous, Geological Society of America, 2003 annual meeting
Publisher:
Geological Society of America (GSA), Boulder, CO, United States
Volume:
35
Issue:
6
Pages:
221-222
Abstract:
Mid-ocean ridge black smokers are recognized as oases of life that support diverse and densely populated communities of organisms. But the diversity and total biomass of organisms drops suddenly away from these oases into the relative desert of the ocean floor. Recent ocean drilling has opened a window into the deep biosphere and has led to the discovery of microbial activity in the upper oceanic crust characterized by endolithic microbial alteration of basaltic glass. We report microscopic textural, geochemical, isotopic, and biomolecular evidence for microbial alteration of volcanic glass from pillow basalt margins and shards preserved in poorly sorted tuffs from the Early Cretaceous ( approximately 120 Ma) Ontong Java Plateau drilled during ODP Leg 192. Petrographic analysis of the glasses reveals an astounding density and variety of exceptionally preserved granular and tubular microbial alteration textures. Both textures are observed to extend away from fractures and shard boundaries, where liquid water was once present, into unaltered glass. It is likely the glass shards were initially exposed to high water-rock ratios that may make glass in the tuffs more susceptible to microbial alteration than glassy seafloor pillow basalts. Detailed SEM imaging of these features reveals complex channels, delicate filaments, and desiccated biofilm. Microbial alteration features are associated with elevated levels of C, N, S, P, and K in X-ray element maps. Carbon isotope ratios of disseminated carbonates in bioaltered glass are depleted by as much as -16 per mil, suggesting biologic fractionation. Temperatures calculated from oxygen isotope ratios of carbonate, assuming equilibrium with seawater, suggest formation at elevated temperatures, between 25 degrees and 80 degrees C, possibly due to passive geothermal heat flow. The results of nucleic acid staining and detailed laser scanning confocal microscopy confirm the presence of DNA/RNA localized within the microbial alteration features along channel walls, probably within desiccated biofilms. The presence of DNA/RNA suggests the biogenic features are relatively recent and that the microbes may currently be active. We believe the oceanic crust is not a desert but instead hosts a still unquantified flourishing deep biosphere that may contribute significantly to global geochemical fluxes.
Language:
English
Genre:
Rights:
URL:
Coverage:
Geographic coordinates:
North:1.0000
West:105.0500
East: 164.3000
South:-9.0000
Keywords:
Oceanography; Igneous and metamorphic petrology; alteration; Asia; basalts; biodiversity; biogenic processes; biomass; biota; black smokers; C-13; carbon; chemical composition; Cretaceous; crust; ecology; ecosystems; Far East; geochemistry; glasses; hydrothermal alteration; hydrothermal vents; igneous rocks; Indonesia; isotope fractionation; isotopes; Java; Leg 192; Lower Cretaceous; marine environment; marine geology; Mesozoic; metasomatism; mid-ocean ridges; Ocean Drilling Program; ocean floors; oceanic crust; Ontong Java Plateau; Pacific Ocean; petrography; sea water; SEM data; stable isotopes; submarine environment; volcanic glass; volcanic rocks; volcanism; West Pacific; X-ray data;
.
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