Kenig, Fabien et al. (2003): Branched aliphatic alkanes with quaternary substituted carbon atoms in modern and ancient geologic samples

Leg/Site/Hole:
IODP 301
Identifier:
2007-127052
georefid
10.1073/pnas.1735581100
doi
Creator:
Kenig, Fabien
University of Illinois, Department of Earth and Environmental Sciences, Chicago, IL, United States
author
Simons, Dirk-Jan H.
University of Hawaii, United States
author
Crich, David
Argonne National Laboratory, United States
author
Cowen, James P.
author
Ventura, Gregory T.
author
Rehbein-Khalily, Tatiana
author
Brown, Todd C.
author
Anderson, Ken B.
author
Identification:
Branched aliphatic alkanes with quaternary substituted carbon atoms in modern and ancient geologic samples
2003
Proceedings of the National Academy of Sciences of the United States of America
National Academy of Sciences, Washington, DC, United States
100
22
12554-12558
A pseudohomologous series of branched aliphatic alkanes with a quaternary substituted carbon atom (BAQCs, specifically 2,2-dimethylalkanes and 3,3- and 5,5-diethylalkanes) were identified in warm (65 degrees C) deep-sea hydrothermal waters and Late Cretaceous black shales. 5,5-Diethylalkanes were also observed in modern and Holocene marine shelf sediments and in shales spanning the last 800 million years of the geological record. The carbon number distribution of BAQCs indicates a biological origin. These compounds were observed but not identified in previous studies of 2.0 billion- to 2.2 billion-year-old metasediments and were commonly misidentified in other sediment samples, indicating that BAQCs are widespread in the geological record. The source organisms of BAQCs are unknown, but their paleobiogeographic distribution suggests that they have an affinity for sulfides and might be nonphotosynthetic sulfide oxidizers.
English
Serial
Coverage:Geographic coordinates:
North:47.4556
West:-127.4526East: -127.4526
South:47.4556
General geochemistry; Stratigraphy; aliphatic hydrocarbons; alkanes; Archaea; bacteria; biomarkers; black shale; Canada; Cascadia Basin; Cenomanian; Cenozoic; clastic rocks; Cretaceous; diethylalkanes; East Pacific; Eh; Expedition 301; fatty acids; FTIR spectra; global; Holocene; hydrocarbons; infrared spectra; Integrated Ocean Drilling Program; Juan de Fuca Ridge; lipids; marine environment; marine sediments; mass spectra; Mesoproterozoic; Mesozoic; modern; Neoproterozoic; North Pacific; Northeast Pacific; ODP Site 1026; organic acids; organic compounds; oxidation; Pacific Ocean; Paleoproterozoic; Phanerozoic; Precambrian; Proterozoic; Quaternary; sampling; sea water; sedimentary rocks; sediments; shelf environment; spectra; substitution; sulfides; temperature; Turonian; Upper Cretaceous; upper Precambrian;
.