The giant Shakhdara migmatitic gneiss dome, Pamir, India–Asia collision zone, II:Timing of dome formation, Tectonics


The giant Shakhdara migmatitic gneiss dome, Pamir, India–Asia collision zone, II:Timing of dome formation, Tectonics

Stübner, K.; Ratschbacher, L.; Weise, C.; Chow, J.; Hofmann, J.; Khan, J.; Rutte, D.; Sperner, B.; Pfänder, J. A.; Hacker, B. R.; Dunkl, I.; Tichomirowa, M.; Stearns, M. A.; Bahram, I.; Gadoev, M.; Gloaguen, R.; Jonckheere, R.; Kanaev, E.; Minaev, V.; Oimahmadoc, I.; Rajabov, N.; Stanek, K. P.

Cenozoic gneiss domes—exposing middle-lower crustal rocks—cover ~30% of the surface exposure of the Pamir, western India-Asia collision zone; they allow an unparalleled view into the deep crust of the Asian plate. We use titanite, monazite, and zircon U/Th-Pb, mica Rb-Sr and 40Ar/39Ar, zircon and apatite fission track, and zircon (U-Th)/He ages to constrain the exhumation history of the ~350 × 90 km Shakhdara-Alichur dome, southwestern Pamir. Doming started at 21–20 Ma along the Gunt top-to-N normal-shear zone of the northern Shakhdara dome. The bulk of the exhumation occurred by ~NNW-ward extrusion of the footwall of the crustal-scale South Pamir normal-shear zone along the southern Shakhdara dome boundary. Footwall extrusion was active from ~18–15 Ma to ~2 Ma at ~10 mm/yr slip and with vertical exhumation rates of 1–3 mm/yr; it resulted in up to 90 km ~N-S extension, coeval with ~N-S convergence between India and Asia. Erosion rates were 0.3–0.5 mm/yr within the domes and 0.1–0.3 mm/yr in the horst separating the Shakhdara and Alichur domes and in the southeastern Pamir plateau; rates were highest along the dome axis in the southern part of the Shakhdara dome. Incision along the major drainages was up to 1.0 mm/yr. Thermal modeling suggests geothermal gradients as high as 60°C/km along the trace of the South Pamir shear zone and their strong N-S variation across the dome; the gradients relaxed to ≤40–45°C/km since the end of doming.

Keywords: Pamir; gneiss dome; synorogenic extension; low-angle detachment

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Publ.-Id: 19619