Theoretical study of tetrad effects observed in REE distribution coefficients between marine Fe-Mn deposit and deep seawater, and in REE(III)-carbonate complexation constants.

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  • Ohta Atsuyuki
    Department of Earth and Planetary Sciences, Graduate School of Science, Nagoya University
  • Kawabe Iwao
    Department of Earth and Planetary Sciences, Graduate School of Science, Nagoya University

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  • Theoretical study of tetrad effects observed in REE distribution coefficients between marine Fe Mn deposit and deep seawater and in REE 3 carbonate complexation constants

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Abstract

The series variations of logarithms of apparent distribution coefficients for rare earth elements (REE), log Kd(REE), between Fe-Mn deposit and deep water have been examined theoretically based on the experimental log Kd(REE) between Fe oxyhydroxide precipitate and NaCl solution doped with NaHCO3 (Ohta and Kawabe, 2000). The experimental log Kd(REE) values are strongly affected by REE(III)-carbonate complexation. Those experimental ones in the system with the carbonate ion concentration similar to seawater reproduce the characteristics of log Kd(REE) evaluated from field data except for large positive Ce anomaly. REE speciation calculation in seawater by using our REE(III)-carbonate complexation constants indicates that the main REE species is REECO3+(aq) rather than REE(CO3)2-(aq), except for heavy REE. This is different from the result based on previous literature data for REE(III)-carbonate complexation constants. Series variations of log {m(REE(OH)3·nH2O)/[REE(CO3)2-, aq]} and log {m(REE(OH)3·nH2O)/[REECO3+, aq]} evaluated from field data have been compared with those from our experimental data. We have confirmed that our data of carbonate complexation constants are better to explain experimental and natural systems simultaneously than the previous literature data. The refined spin-pairing energy theory (RSPET) can explain the tetrad effects observed in experimental log Kd(REE) and REE(III)-carbonate complexation constants: Racah (E1 and E3) parameters decrease in the order that REE3+(aq, octahydrate) > REECO3+(aq) > REE(CO3)2-(aq) ≥ REE(OH)3·nH2O(ss). This relationship is also compatible with field data. The tetrad effects observed in log Kd(REE) between marine Fe-Mn deposit and seawater and in REE(III)-carbonate complexation constants can be explained by the systematic differences in Racah parameters among the REE(III) species.

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