Martian differentiation history inferred from copper isotopesOPEN ACCESS 

De-Liang Wang, Dan Zhu, Ying-Kui Xu, Shui-Jiong Wang, Shi-Jie Li, Zi-Ru Liu, Yang Li, Zhi Li, Hong Tang, Xiong-Yao Li & Jian-Zhong Liu

Nature Communications, Volume 16, article number 9298, Published: 21 October 2025

LINK (OPEN ACCESS)
PDF (OPEN ACCESS)

“Sulfide segregation plays an important role in redistributing chalcophile elements during planetary differentiation, yet its efficiency on Mars remains poorly constrained. Here, we report the Cu isotopic evidence for planetary-scale sulfide segregation during martian differentiation. We find that the bulk silicate Mars exhibits a measurable enrichment in isotopically heavy Cu (δ65CuBSMa = −0.03 ± 0.08‰, 2 SD) compared with its chondritic precursors (δ65Cu = −0.30 ± 0.09‰). This isotopic offset cannot be explained by magma ocean devolatilization alone and instead requires preferential incorporation of isotopically light Cu into the core via sulfide segregation. A two-stage core formation model, constrained by established martian building blocks, yields an upper limit for mantle sulfur (400–443 μg/g) with corresponding copper (6–8 μg/g) abundances. These values are consistent with previous estimates for a sulfur-poor martian mantle, as such a mantle facilitates the generation of S-undersaturated melts. Our model further supports a sulfur-rich martian core (~16.1 wt.% S and ~354 μg/g Cu). These findings identify sulfide segregation as a key control on Cu isotopic compositions and chalcophile element budgets during planetary differentiation, providing constraints on Mars’ early evolution.”