Lithium Isotope Evolution of Cenozoic Seawater

This study presents the first high-resolution long-term history of seawater lithium isotope ratio (δ7LiSW) reconstructed from analyses of chemically cleaned planktonic foraminifera. The lithium isotope ratio of seawater (δ7LiSW ~31.0‰) is at secular equilibrium with its input sources via chemical we...

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Bibliographic Details
Other Authors: Misra, Sambuddha (authoraut), Froelich, Philip N. (professor directing dissertation), Humayun, Munir (university representative), Burnett, Willium C. (committee member), Chanton, Jeffery P. (committee member), Huettel, Marcus (committee member), Department of Earth, Ocean and Atmospheric Sciences (degree granting department), Florida State University (degree granting institution)
Format: Text
Language:English
Published: Tallahassee, Florida: Florida State University 2010
Subjects:
Oceanography
Atmospheric sciences
Meteorology
Planktonic foraminifera
Online Access:https://diginole.lib.fsu.edu/islandora/object/fsu%3A254051/datastream/TN/view/Lithium%20Isotope%20Evolution%20of%20Cenozoic%20Seawater.jpg
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Summary:This study presents the first high-resolution long-term history of seawater lithium isotope ratio (δ7LiSW) reconstructed from analyses of chemically cleaned planktonic foraminifera. The lithium isotope ratio of seawater (δ7LiSW ~31.0‰) is at secular equilibrium with its input sources via chemical weathering of the silicate continents (δ7LiRiv ~23‰), hydrothermal weathering of seafloor silicate basalts (δ7LiHT ~5.6‰) and removal by reverse weathering of authigenic sediments and seafloor basalts (δ7LiSED ~15‰). The δ7LiSW preserved in marine calcitic planktonic foraminifera provides a unique time tracer of changes in the global silica cycle. The Cenozoic 7Li/6Li record of seawater was constructed by analyzing over 300 age and species overlapping foraminifera samples, including both individual species and 'reverse picked' bulk foraminifera samples, from eight DSP/ODP Sites (588, 757, 758, 926, 1262, 1263, 1265, and 1267) with existing high resolution strontium isotope record. To meet the analytical requirements of foraminiferal δ7Li analyses an improved quadrupole-ICP-MS method for 7Li/6Li determination with low total lithium consumption (<0.2 ng/quintuplicate analyses) and high isotope ratio precision (≤ ±0.8‰, 2σ) was developed. A refined single step ion-exchange chromatographic method for quantitative lithium seperation, characterized by low blanks (1.0 ± 0.5 pg-Li) and high column yields (>99.98%), was also developed. The effects of foraminifera cleaning on calcite bound lithium concentrations and isotopic compositions were evaluated. A new analytical ICP-MS method for simultaneous determination of lithium, magnesium, manganese, vanadium, strontium, and barium ratios to calcium in chemically cleaned planktonic foraminifera was also developed. The newly developed analytical method and the improved foraminiferal cleaning technique was applied to late Cretaceous and Cenozoic samples to investigate the correlation between lithium isotopic composition and their lithium, magnesium, and strontium concentrations ...

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