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Heindel, Katrin et al. (2010): Formation of deglacial microbialites in coral reefs off Tahiti (IODP 310) involving sulfate-reducing bacteria
Leg/Site/Hole:
Related Expeditions:
IODP 310
IODP 310 M0005
IODP 310 M0009
IODP 310 M0015
IODP 310 M0016
IODP 310 M0017
IODP 310 M0018
IODP 310 M0021
IODP 310 M0023
Identifier:
ID:
2010-093223
Type:
georefid
ID:
10.2110/palo.2010.p10-032r
Type:
doi
Creator:
Name:
Heindel, Katrin
Affiliation:
University of Bremen, Center of Marine Environmental Sciences, Bremen, Federal Republic of Germany
Role:
author
Name:
Birgel, Daniel
Affiliation:
Role:
author
Name:
Peckmann, Joern
Affiliation:
Role:
author
Name:
Kuhnert, Henning
Affiliation:
Role:
author
Name:
Westphal, Hildegard
Affiliation:
Role:
author
Identification:
Title:
Formation of deglacial microbialites in coral reefs off Tahiti (IODP 310) involving sulfate-reducing bacteria
Year:
2010
Source:
Palaios
Publisher:
Society for Sedimentary Geology, Tulsa, OK, United States
Volume:
25
Issue:
10
Pages:
618-635
Abstract:
During IODP Expedition 310 (Tahiti Sea Level), drowned Pleistocene-Holocene barrier-reef terraces were drilled on the slope of the volcanic island. The deglacial reef succession typically consists of a coral framework encrusted by coralline algae and later by microbialites; the latter make up < or =80% of the rock volume. Lipid biomarkers were analyzed in order to identify organisms involved in reef-microbialite formation at Tahiti, as the genesis of deglacial microbialites and the conditions favoring their formation are not fully understood. Sterols plus saturated and monounsaturated short-chain fatty acids predominantly derived from both marine primary producers (algae) and bacteria comprise 44 wt% of all lipids on average, whereas long-chain fatty acids and long-chain alcohols derived from higher land plants represent an average of only 24 wt%. Bacterially derived mono-O-alkyl glycerol ethers (MAGEs) and branched fatty acids (10-Me-C (sub 16:0) ; iso- and anteiso-C (sub 15:0) and -C (sub 17:0) ) are exceptionally abundant in the microbial carbonates (average, 19 wt%) and represent biomarkers of intermediate-to-high specificity for sulfate-reducing bacteria. Both are relatively enriched in (super 13) C compared to eukaryotic lipids. No lipid biomarkers indicative of cyanobacteria were preserved in the microbialites. The abundances of Al, Si, Fe, Mn, Ba, pyroxene, plagioclase, and magnetite reflect strong terrigenous influx with Tahitian basalt as the major source. Chemical weathering of the basalt most likely elevated nutrient levels in the reefs and this fertilization led to an increase in primary production and organic matter formation, boosting heterotrophic sulfate reduction. Based on the observed biomarker patterns, sulfate-reducing bacteria were apparently involved in the formation of microbialites in the coral reefs off Tahiti during the last deglaciation.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage:
Geographic coordinates:
North:-17.2900
West:-149.3600
East: -149.2400
South:-17.4600
Keywords:
Sedimentary petrology; Isotope geochemistry; bacteria; biomarkers; C-13/C-12; carbon; carbonate rocks; Cenozoic; chemical composition; East Pacific; Expedition 310; French Polynesia; Holocene; ICP mass spectra; Integrated Ocean Drilling Program; IODP Site M0005; IODP Site M0009; IODP Site M0015; IODP Site M0016; IODP Site M0017; IODP Site M0018; IODP Site M0021; IODP Site M0023; isotope ratios; isotopes; limestone; lipids; mass spectra; microbialite; O-18/O-16; Oceania; organic compounds; oxygen; Pacific Ocean; paleoclimatology; paleoecology; paleoenvironment; Pleistocene; Polynesia; productivity; Quaternary; reef environment; sedimentary rocks; Society Islands; South Pacific; Southeast Pacific; spectra; stable isotopes; Tahiti; Tahiti Sea Level Expedition; X-ray diffraction data;
.
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