Abstract:
Stable copper and zinc isotopes in Apollo 17 double drive tube 73001/2. Samples are the < 1 mm size fraction from dissection Pass 2; every four 0.5 cm depth interval subsamples were combined to enable analysis. Steps included chemical dissolution, column chemistry, and isotopic analysis using the Thermo Scientific Neptune Plus multicollector inductively coupled plasma mass spectrometer at Washington University in St. Louis. Isotopes are reported in delta notation in per mil units. Copper isotopes are relative to the standard NIST SRM 976, and zinc isotopes are relative to the standard JMC-Lyon.
How to cite this dataset:
Broussard, M. A., Neuman, M., Koefoed, P., Moynier , F. M., Nie, N. X., Morris, R. V., Jolliff , B. L. J., Wang, K., 2025. Stable Copper and Zinc Isotopes in Apollo 17 Double Drive Tube 73001/2, Version 1.0. Interdisciplinary Earth Data Alliance (IEDA).
https://doi.org/10.60520/IEDA/113735. Accessed 2026-02-06.
Related
Publication(s):
Broussard, M., Neuman, M., Koefoed, P., Moynier, F., Nie, N. X., Morris, R. V., Jolliff, B. L., & Wang, K. (2025). Copper and zinc isotopic variation in Apollo 17 double drive tube 73001/2 reveals space weathering history of lunar regolith. Geochimica et Cosmochimica Acta.
User Contributed Keyword(s):
Zn isotopes, Cu isotopes, lunar soil