Timing, quantification and tectonic modelling of Pliocene-Quaternary movements in the NW Himalaya: evidence from fission track dating

Variable exhumation rates, deduced from the Pliocene-Quaternary FT zircon-a patite ages from the Himalayan Metamorphic Belt (HMB) of the NW Himalaya al ong the Sutlej Valley in Himachal Pradesh, have been modelled in the tecton ic framework of fast exhumed Lesser Himalayan windows, which caused lateral extensional sliding of the metamorphic nappe cover along the well-known Ma in Central Thrust (MCT) and differential movements along thrust zones as we ll. In the northern belt of the Higher Himalayan Crystallines (HHC), two di stinct clusters of the FT apatite ages have been deciphered: apatite ages h aving a weighted mean of 4.9 +/- 0.2 Ma (1 sigma) in basal parts on the han ging wall of the MCT, and 1.49 +/- 0.07 Ma (1 sigma) in the hanging wall of a newly, recognized NE, dipping Chaura thrust further north. Fast exhumati on of the Chaura thrust hanging wall has been inferred at a rate of 4.82 +/ - 0.55 mm/yr from the zircon-apatite cogenetic pairs during 1.54 Ma and 0.9 7 Ma, and 2.01 +/- 0.35 mm/yr since 1.49 Ma. In comparison, its foot wall h as been exhumed at a much slower rate of 0.61 +/- 0.10 mm/yr since 4.9 Ma. The overlying Vaikrita Thrust zone rocks reveal an exhumation rate of 1.98 +/- 0.34 mm/yr from 2.70 +/- 0.40 Ma to 1.31 +/- 0.22 Ma and 2.29 +/- 0.66 mm/ yr since 1.31 +/- 0.22 Ma. Using these data, a vertical displacement of ca. 2.08 +/- 9.68 km has been calculated along the Chaura thrust between 4 .9 and 1.50 Ma on an average rate of 0.6 mm/yr. It is of the order of 1.18 km from 2.70 Ma to 1.54 Ma along the Vaikrita Thrust, and 0.78 mm/yr from 1 .31 Ma to 0.97 Ma, and has behaved as an extensional normal fault during th ese periods. Tectonic modelling of the exhumation rates in the NW Himalaya reveals fastest uplifting Himalayan domes and windows like the Nanga Parbat in Pakistan, Suru and Chisoti domes in Zanskar and Kishwar-Kulu-Rampur Win dow axis in SE Kashmir and Himachal Pradesh during Pliocene-Quaternary, The se windows appear to have caused lateral extensional sliding of the Himalay an metamorphic nappes in the lower parts. The middle parts of the HHC belt have witnessed both overthrusting and extensional faulting due to complex a nd variable exhumation patterns within the hanging and foot walls of the MC T and Vaikrita Thrust along the Sutlej Valley, thus causing movement of upt hrust crustal wedge between the extensional ones. Thus, FT zircon-apatite a ges provide evidence for the presence of a number of crustal wedges having distinct tectonothermal history within the HHC. (C) 2000 Elsevier Science B .V. All rights reserved.