地质学
独居石
地质年代学
地体
变质作用
变质岩
构造学
山脊
锆石
地球化学
变形(气象学)
板块构造
辐射定年
变形机理
变质核杂岩
岩石学
岩浆
古生物学
地震学
高原(数学)
热年代学
大洋中脊
作者
Nicholas E. Powell,J. Ryan Thigpen,Brandon M. Spencer,Arthur J. Merschat,David P. Moecher,Calvin A. Mako,Robert D. Hatcher,Harold H. Stowell,Andrew Kylander‐Clark
出处
期刊:Tectonics
[Wiley]
日期:2026-05-01
卷期号:45 (5)
摘要
Abstract The southern Appalachian orogen preserves a complex distribution of metamorphism and deformation varying in timing, magnitude, and spatial extent. These complexities give rise to disparate interpretations for southern Appalachian tectonic evolution, which complicates the testing and interpretation of tectonic models in this system. New monazite (Mnz) and xenotime (Xtm) laser ablation split stream (LASS) analyses alongside Mnz‐Xtm thermometry in the orogenic core in the eastern Blue Ridge (EBR), western Inner Piedmont (WIP), and Cat Square terranes (CST) of North Carolina yield new constraints that define distinct pro‐ and retrograde metamorphic events. The EBR preserves two prograde thermal events: the Taconic (∼470‐440 Ma, >660°C) and Neoacadian (∼380‐340 Ma, 600–700°C), separated by a period of cooling (exhumation?) and followed by garnet breakdown from 339 to 329 Ma. Evidence of pervasive Neoacadian ductile deformation in the EBR is largely limited to the Brevard fault zone (BFZ), indicating that a major rheological gradient existed across the BFZ during the Neoacadian and early Alleghanian. Southeast of the BFZ, in the WIP and CST, monazite data define a protracted Neoacadian evolution from early mineral growth at ∼405 Ma at ∼450–600°C to >700°C at ∼360 Ma, followed by early Alleghanian retrograde metamorphism and deformation (<345 Ma, 350–500°C). These constraints, together with previously reported thermobarometric data, define a P‐T‐t evolution for the WIP and CST consistent with Neoacadian crustal flow, while the coeval presence of a thermal‐rheological boundary along the BFZ further supports a model of Neoacadian crustal “escape” flow within the orogen.
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