Abstract
Precise crystallisation ages have been determined for a range of Apollo basalts from Pb-Pb isochrons generated using Secondary Ion Mass Spectrometry (SIMS) analyses of multiple accessory phases including K-feldspar, K-rich glass and phosphates. The samples analysed in this study include five Apollo 11 high-Ti basalts, one Apollo 14 high-Al basalt, seven Apollo 15 low-Ti basalts, and five Apollo 17 high-Ti basalts. Together with the samples analysed in two previous similar studies, Pb-Pb isochron ages have been determined for all of the major basaltic suites sampled during the Apollo missions. The accuracy of these ages has been assessed as part of a thorough review of existing age determinations for Apollo basalts, which reveals a good agreement with previous studies of the same samples, as well as with average ages that have been calculated for the emplacement of the different basaltic suites at the Apollo landing sites. Furthermore, the precision of the new age determinations helps to resolve distinctions between the ages of different basaltic suites in more detail than was previously possible. The proposed ages for the basaltic surface flows at the Apollo landing sites have been reviewed in light of these new sample ages. Finally, the data presented here have also been used to constrain the initial Pb isotopic compositions of the mare basalts, which indicate a significant degree of heterogeneity in the lunar mantle source regions, even among the basalts collected at individual landing sites.
| Original language | English |
|---|---|
| Pages (from-to) | 29-53 |
| Number of pages | 25 |
| Journal | Geochimica et Cosmochimica Acta |
| Volume | 266 |
| Early online date | 31 Jul 2019 |
| DOIs | |
| Publication status | Published - 1 Dec 2019 |
Funding
The authors thank the Apollo astronauts for collecting the samples analysed in this study, and all those who helped make the missions possible. This manuscript benefitted greatly from the editorial guidance of Dr. James Day and the detailed comments of three anonymous referees. The authors also thank Linda Chappell at the Lunar and Planetary Institute library for kindly supplying copies of various publications that made it possible to recalculate many of the old basalt ages in the literature. This work was funded by grants from the Knut and Alice Wallenberg Foundation ( 2012.0097 ) and the Swedish Research Council (VR 2012-4370 and 2017-4151 ) to MJW and AAN. Additionally, JFS acknowledges funding from the European Commission Horizon 2020 Research and Innovation programme , through a Marie Skłodowska-Curie Actions Fellowship grant ( 794287 ), and MA acknowledges funding from Science and Technology Facilities Council (STFC) grants ( #ST/L000776/1 and #ST/P000657/1 ). During acquisition of data for this study, the NordSIMS facility was primarily funded by Swedish Research Council infrastructure grants 2014-6375 and 2017-00617 , with additional support from the University of Iceland and the Swedish Museum of Natural History; this is NordSIMS publication #605. This research has made use of NASA’s Astrophysics Data System. Appendix A
| Funders | Funder number |
|---|---|
| European Commission Horizon 2020 | |
| Swedish Museum of Natural History | |
| Horizon 2020 Framework Programme | |
| H2020 Marie Skłodowska-Curie Actions | 794287 |
| Science and Technology Facilities Council | 2014-6375, 2017-00617, /P000657/1, /L000776/1 |
| Knut och Alice Wallenbergs Stiftelse | 2012.0097 |
| Vetenskapsrådet | 2017-4151, VR 2012-4370 |
| Háskóli Íslands |
Keywords
- Apollo
- chronology
- lunar volcanism
- mare basalt
- Pb isotopes