Other
Scientific paper
Aug 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001e%26psl.191..101a&link_type=abstract
Earth and Planetary Science Letters, Volume 191, Issue 1-2, p. 101-114.
Other
13
Scientific paper
We report age data by TIMS U-Pb, LA-ICP-MS and 39Ar-40Ar techniques for main magmatic events in the Lower Swat region of Pakistan, in order to constrain the tectonic evolution of the northwestern Himalaya. The pre-Himalayan history of the Indian continent is documented by single-zircon U-Pb results from the peraluminous Choga granite gneiss, which yielded a 468+/-5 Ma lower concordia intercept interpreted to approximate the time of magmatic emplacement. The presence of a well-defined 870+/-7 Ma inherited component (upper intercept) suggests a plutonic or volcanic protolith residing at unexposed levels of the Indian crust. Zircon data for the Swat granite gneiss from the northern part of the Loe Sar dome give an emplacement age of 267+6/-3 Ma, which is at variance with earlier correlations favoring an early Paleozoic origin. Subsequent to metamorphic overprint by the Himalayan orogeny, the Swat granite was intruded by late kinematic alkali-granite dykes. Single zircons from one of these dykes show reproducible 206Pb/238U data giving a precise mean age of 29.26+/-0.12 Ma, whereas the 207Pb/235U ages scatter between 34 and 81 Ma, pointing to huge and variable enrichment in 207Pb. The unsupported 207Pb can be explained by incorporation of 231Pa, an intermediate long-lived daughter nuclide in the 235U decay chain, in excess of the secular equilibrium ratio. LA-ICP-MS measurements confirm the presence of unsupported 207Pb, but do not show any correlation between the latter and other selected trace element concentrations in these zircons. A concordant Ar-Ar muscovite age of 28.4+/-1.1 Ma obtained for the same dyke postdates regional mica `cooling' ages and indicates a lack of younger regional events capable of resetting the K-Ar system in muscovite. Because the dyke is pre- to synkinematic relative to normal faulting and related north-vergent folds, its emplacement age provides a maximum age for this event or reflects already ongoing local extension. A lower limit of 15 Ma has previously been established by apatite fission track analysis. The 29-15 Ma age bracket for normal faulting is coeval with extension along the South Tibetan Detachment System (STDS) on the north side of the High Himalaya. This suggests that the Indus Suture in Pakistan has acted as a western continuation of the STDS and that related faulting was roughly contemporaneous over most of the Himalaya.
Anczkiewicz Robert
Burg Jean-Pierre
Günther Detlef
Meier Matthias M. M.
Oberli Felix
No associations
LandOfFree
Timing of normal faulting along the Indus Suture in Pakistan Himalaya and a case of major 231Pa/235U initial disequilibrium in zircon does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with Timing of normal faulting along the Indus Suture in Pakistan Himalaya and a case of major 231Pa/235U initial disequilibrium in zircon, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Timing of normal faulting along the Indus Suture in Pakistan Himalaya and a case of major 231Pa/235U initial disequilibrium in zircon will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-953409