In order to get the correct isotopic age, SHRIMP U-Pb zircon date of Precambrian hornblende granite in Well TD2, located in the central aeromagnetic belt in the eastern of the Tarim basin, was carried out. The result showed a dependable age of 1908.2 ± 8.6 Ma, which demonstrated that the granite pluton is the result of the magmatic activity in early Palaeoproterozoic. It is indicated that the central aeromagnetic belt across Tarim basin, divided it into north and south block, is formed before Neoproterozoic by a large scale tectonothermal events based on the seismic and drilling date. The Tarim continent may have different age and type basements formed the united crystalline basement in Precambrian. This result has yielded new intraplate evidence to constrain the relation between the Tarim plate and the Colombia supercontinent.
Tarim basin, located at northwest of china, is an ancient craton basin that has an uniform crystalline basement [
TD2 well had drilled Precambrian basement formations in depth between 4996 to 5040 m and 0.97 meters long of core was acquired. The lithology is altered hornblende granite with light gray or light green-gray color. The rocks have granitic texture, vermicular structure and block structure. The mineral content of platy prismatic K-feldspar, hypautomorphic columnar albite, anhedral quartz, hornblende and pyrite are 49% - 54%, 5% - 30%, 1% - 20%, 10% - 20% and <1%. The hornblendes (only remains can be seen) are columnar and granular which metasomatized by byssolite and chlorite. Fine-grained pyrite can also be seen in hormblendes. Quartz (wavy extinction) and feldspar usually generate cracks resulting from structural compression.
This article choose cores of Precambrian granite in well TD2 to analyse. Samples were prepared using facilities
at the Department of Hebei Geological Survey in Langfang city, China. Rock samples were first disaggregated in a jaw crusher and powdered. The zircons were then separated using standard elutriation, heavy-liquid and magnetic mineral separation techniques. Zircons with different crystal shape and color were picked up through bioscopes to make zircon target. The zircon grains were then imaged by visible light and scanning electron microscope equipped with cathodoluminescence (CL) at Institute of Mineral Resources, Chinese Academy of Geological Sciences. The isotopic U-Pb-Th analyses were obtained using the SHRIMP II at Beijing Shrimp Center and the Pb, U and Th concentrations were referenced to the standard zircon TEMORA (417 Ma). The undetermined and standard zircons were first fixed together at epoxy target, then polished, washed and plated gold to measure. Cracks and inclusions would be avoid while measuring. Statistical treatment and plotting of concordia diagrams were achieved using the Squid 1.0 and Isoplot/Ex program of Ludwig (2001). The value of common Pb in zircons were normalized to the measured 208Pb. Individual corrected ratios and ages are reported with 1σ analytical errors. The weighted mean 206Pb/238U ages are presented at 95% confidence levels.
Most of select zircon particles with uniform size are colorless transparent euhedral crystals. Individual zircon crystals which have developed cylindrical and conical surface are columnar euhedral and on average 100 - 200 µm in longth and 1:1 - 3:1 in aspect ratio. Some zircon crystals contain cracks and cores. Most of zircons that have obviously zonal structures were all magmatic crystallization (
By analyzing U-Pb isotopic age of 16 measuring points from well TD2 samples (
Zircon-SHRIMP dating demonstrates that the apparent age of 206Pb/238U is concentrated between 1755.3 - 1942.4 Ma, with average age of 1845.7 Ma. In 207Pb/235U - 206Pb/238U diagram, 16 measuring dates are crowded together on or near concordia and obtain an concordant age of 7908.2. ± 8.6 Ma (MSWD = 1.2), which may represent the crystallization age of granites.