Reconciliation of the excess 176Hf conundrum in meteorites: Recent disturbances of the Lu-Hf and Sm-Nd isotope systematics
Bast R, Scherer EE, Sprung P, Mezger K, Fischer-Gödde M, Taetz S, Böhnke M, Schmid-Beurmann H, Münker C, Kleine T, Srinivasan G
Research article (journal) | Peer reviewedAbstract
The long-lived 176Lu-176Hf and 147Sm-143Nd radioisotope systems are commonly used chronometers, but when applied to meteorites, they can reveal disturbances. Specifically, Lu-Hf isochrons commonly yield dates up to $300 Myr older than the solar system and varying initial 176Hf/177Hf values. We investigated this problem by attempting to construct mineral and whole rock isochrons for eucrites and angrites. Meteorites from different parent bodies exhibit similar disturbance features suggesting that a common process is responsible. Minerals scatter away from isochron regressions for both meteorite classes, with low-Hf phases such as plagioclase and olivine typically being most displaced above (or left of) reference isochrons. Rela- tively Hf-rich pyroxene is less disturbed but still to the point of steepening Lu-Hf errorchrons. Using our Lu-Hf and Sm-Nd data, we tested various Hf and Lu redistribution scenarios and found that decoupling of Lu/Hf from 176Hf/177Hf must post- date the accumulation of significant radiogenic 176Hf. Therefore early irradiation or diffusion cannot explain the excess 176Hf. Instead, disturbed meteorite isochrons are more likely caused by terrestrial weathering, contamination, or common laboratory procedures. The partial dissolution of phosphate minerals may predominantly remove rare earth elements including Lu, leav- ing relatively immobile and radiogenic Hf behind. Robust Lu-Hf (and improved Sm-Nd) meteorite geochronology will require the development of chemical or physical methods for removing unsupported radiogenic Hf and silicate-hosted terrestrial con- taminants without disturbing parent-daughter ratios. (C) 2017 Elsevier Ltd. All rights reserved.
Details about the publication
Authors from the University of Münster
| Bast, Rebecca | Institute for Mineralogy |
| Böhnke, Mischa | Institute for Mineralogy |
| Fischer-Gödde, Mario | Professorship for experimental and analytical planetology (Prof. Kleine) |
| Kleine, Thorsten | Professorship for experimental and analytical planetology (Prof. Kleine) |
| Scherer, Erik | Professur für Isotopengeochemie (Prof. Scherer) |
| Schmid-Beurmann, Hinrich | Institute for Mineralogy |
| Taetz, Stephan | Seniorprofessur für Mineralogie (Prof. Putnis) |
Projects the publication originates from
Duration: 01/10/2014 - 30/09/2016 | 3rd Funding period Funded by: DFG - Priority Programme Type of project: Subproject in DFG-joint project hosted outside University of Münster | |
Duration: 01/07/2012 - 30/06/2014 | 2nd Funding period Funded by: DFG - Priority Programme Type of project: Subproject in DFG-joint project hosted outside University of Münster | |
Duration: 01/12/2009 - 30/11/2011 | 1st Funding period Funded by: DFG - Priority Programme Type of project: Subproject in DFG-joint project hosted outside University of Münster |
Promotionen, aus denen die Publikation resultiert
| Lu-Hf systematics of early solar system materials: Solving the 176Lu decay constant discrepancy Candidate: Bast, Rebecca | Supervisors: Scherer, Erik E.; Mezger, Klaus Period of time: 01/02/2011 - 17/06/2016 Doctoral examination procedure finished at: Doctoral examination procedure at University of Münster |