In Situ Correction of Porosity and Velocity of Pelagic Carbonate Sediments in the Eastern Equatorial Pacific (Sites 846 and 850, ODP Leg 138) |
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Authors: | G. Y. Kim R. H. Wilkens D. C. Kim D. G. Yoo Y. J. Lee |
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Affiliation: | a Petroleum & Marine Resources Division, Korea Institute of Geoscience & Mineral Resources (KIGAM), Daejeon, South Koreab Institute of Geophysics and Planetology, SOEST, University of Hawaii at Manoa, USAc Department of Environmental Exploration Engineering, Pukyong National University, Busan, South Korea |
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Abstract: | During Ocean Drilling Program Leg 138, eleven sites were drilled. The sediments recovered are mainly composed of carbonate-rich pelagic ooze including minor diatom and radiolarian ooze. Average carbonate contents of Sites 846 and 850 are about 59% and 75%, respectively. The porosity and velocity measured in laboratory were corrected to in situ condition using empirical equation (Hamilton, 1976) and delta velocity (log value-laboratory value). The corrected laboratory porosity matches well with logging data, but it is deviating in the intervals of low carbonate content. The correlation between log porosity and the corrected porosity shows a similar trend. Depth profiles between the corrected velocity and logging data do not agree in the intervals of low carbonate content, but the intervals characterized by high carbonate content are relatively matched. This suggests that Hamilton's equation is not appropriate for diatom-rich sediments. The correlation between log velocity and the corrected velocity is also a much better fit than that of laboratory velocity. In addition, the relationship between velocity and porosity is a better fit using corrected data than uncorrected data. Thus, mechanical rebound correction needs to interpret laboratory data to in situ condition. However, the magnitude of rebound by the removal of overburden pressure should be carefully considered because the rebound depends on sediment types. |
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Keywords: | carbonate sediments in situ correction ODP Leg 138 porosity velocity |
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