Supplemental Material: The significance of (ultra)potassic mafic melts in the formation of postcollisional porphyry copper mineralization: An example from the Machangqing Cu-Mo deposit, southeastern Tibet
Key Points
MAIN FINDING: Ultrapotassic mafic melts are crucial for understanding copper mineralization in postcollisional settings.
KEY EVIDENCE: The Machangqing Cu-Mo deposit illustrates the relationship between these melts and mineralization processes.
APPROACH: The study combines field observations with mineralogical and geochemical analyses to assess melt contributions.
SIGNIFICANCE: Insights from this research enhance understanding of copper deposit formation, impacting mining strategies.
Supplemental Material: The significance of (ultra)potassic mafic melts in the formation of postcollisional porphyry copper mineralization: An example from the Machangqing Cu-Mo deposit, southeastern Tibet | Synapse
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