Heindel, Katrin et al. (2009): Data report; Bioerosion in the reef framework, IODP Expedition 310 off Tahiti (Tiarei, Maraa, and Faaa sites)

Leg/Site/Hole:
IODP 310
Identifier:
2009-022890
georefid
10.2204/iodp.proc.310.201.2009
doi
Creator:
Heindel, Katrin
University of Bremen, MARUM-Center for Marine Environmental Sciences, Bremen, Federal Republic of Germany
author
Westphal, Hildegard
Tohoku University, Japan
author
Wisshak, Max
British Geological Survey, United Kingdom
author
Identification:
Data report; Bioerosion in the reef framework, IODP Expedition 310 off Tahiti (Tiarei, Maraa, and Faaa sites)
2009
In: Camoin, Gilbert F., Iryu, Yasufumi, McInroy, David, Asami, Ryuji, Braaksma, Hendrik, Cabioch, Guy, Castillo, Paterno, Cohen, Anne L., Cole, Julia E., Deschamps, Pierre, Fairbanks, Richard G., Felis, Thomas, Fujita, Kazuhiko, Hathorne, E. C., Lund, Steve P., Machiyama, Hideaki, Matsuda, Hiroki, Quinn, Terrence M., Sugihara, Kaoru, Thomas, Alexander, Vasconcelos, Crisogono de Olivera, Verwer, Klaas, Webster, Jody M., Westphal, Hildegard, Woo, Kyung Sik, Yamada, Tsutomu, Yokoyama, Yusuke, Proceedings of the Integrated Ocean Drilling Program; Tahiti sea level; Expedition 310 of the mission-specific drilling platform from and to Papeete, Tahiti, French Polynesia, Sites M0005-M0026, 6 October-16 November 2005
IODP Management International, Washington, DC, United States
310
The coral reef framework off Tahiti was drilled during Integrated Ocean Drilling Program (IODP) Expedition 310 in order to study environmental change (including sea level rise) following the Last Glacial Maximum (LGM). Cores from sites located in the three drilling areas (Tiarei to the north, Faaa to the west, and Maraa to the southwest of the island of Tahiti) were studied in order to characterize the microbioerosion patterns in the post-LGM deglacial reef framework. A total of 19 samples were examined for information on environmental conditions directly after the demise of the shallow-water corals and during subsequent encrustation by coralline algae and microbialites. Microbioerosion patterns imply that conditions during reef growth were deeper euphotic to dysphotic. The reasons for the largely absent shallow euphotic indications lay in the proposed rapid sea level rise leaving a drowned reef in a "cryptophotic" position of most samples, in enhanced turbidity condensing the photic zonation, or in a combination of these factors. The sea level rise scenario combined with increased nutrient levels are considered the primary factors because entirely cryptophotic conditions of the sediment cores are less probable.
English
Serial
Coverage:Geographic coordinates:
North:-17.0000
West:-150.0000East: -149.0000
South:-18.0000
Sedimentary petrology; algae; bioerosion; biogenic processes; biogenic structures; boreholes; carbonate rocks; Chlorophyta; cores; cyanobacteria; deglaciation; East Pacific; endolithic taxa; erosion; Expedition 310; French Polynesia; fungi; ichnofossils; Integrated Ocean Drilling Program; lebensspuren; microfossils; Oceania; Pacific Ocean; paleoenvironment; Plantae; Polynesia; reefs; sea-level changes; sedimentary rocks; sedimentary structures; SEM data; Society Islands; South Pacific; Southeast Pacific; Tahiti; Tahiti Sea Level Expedition; ultrastructure;
.