Extensive resetting of feldspar Pb isotopic composition in Archean‐Paleoproterozoic granitic rocks from the Kongling terrane, South China: Implications for tracing thermal evolutionary history

Abstract

AbstractFeldspar Pb isotopes have widely been used to trace magmatic formation and evolution processes. However, it remains unclear whether post‐magmatic thermal events can affect their Pb isotopic ratios. Here, the in‐situ Pb isotopic composition of feldspar hosted in granitic rocks (thirteen Archean and one Paleoproterozoic) from the northern Kongling terrane, Yangtze Craton, South China, was analyzed. The samples revealed a substantial variation in their Pb isotopic composition, spanning the gap between the 1.9 Ga and present‐day geochrons, which indicates extensive resetting by later tectonothermal events. This resetting was interpreted to be likely resulted from Paleoproterozoic and Neoproterozoic tectonothermal events related to the assembly and breakup of the Columbia and Rodinia supercontinents. These results suggest that Pb isotopes should be used cautiously when tracing magma sources and petrogenesis in magmatic rocks that have experienced post‐magmatic reworking. However, the in‐situ Pb isotopic composition of feldspar in ancient granitoids may potentially be used to reveal later tectonothermal events. The extensive resetting of the Pb isotopic composition in feldspar by regional thermal events may also provide new insights into our understanding of the Pb isotope paradox.