Litcius/Paper detail

Resolving the nature and evolution of the Bangong−Nujiang Tethyan Ocean: New perspectives from the intraplate oceanic-island fragments preserved in Northern Tibet

Jian‐Jun Fan, Bo‐Chuan Zhang, Yaoling Niu, An‐Bo Luo, Yu‐Jie Hao

2023Geological Society of America Bulletin21 citationsDOI

Abstract

The nature and tectonic evolution of the Bangong−Nujiang Tethyan Ocean remain unresolved, which seriously restricts our understanding of the role of this ocean in the Tethys tectonic domain and hinders in-depth study of the geodynamics of the Tethyan tectonic evolution. The study of intraplate oceanic-island fragments in the Bangong−Nujiang Suture Zone of Northern Tibet, which are remnants of the oceanic crust, is important for determining the nature and tectonic evolution of the Bangong−Nujiang Tethyan Ocean. Here, we present a combined analysis of petrological, geochronological, geochemical, and Sr-Nd isotope data for the five intraplate oceanic-island fragments preserved in the Bangong−Nujiang Suture Zone. The oldest intraplate oceanic-island fragment in the Bangong−Nujiang Suture Zone is of Late Permian−Triassic age, and the underlying oceanic lithosphere is Late Permian or older, which indicates the development of the Bangong−Nujiang Tethyan Oceanic basin at this time. The opening time of the Bangong−Nujiang Tethyan Ocean must be even earlier than the Late Permian. At least four Triassic intraplate oceanic-island fragments have been recognized in the Bangong−Nujiang Suture Zone, and their assemblages and geochemistry are mostly similar to present-day oceanic-island basalts that erupted onto the thick lithosphere of mature oceanic basins. All of these observations indicate that the Bangong−Nujiang Tethyan Ocean evolved into a mature oceanic basin during the Triassic. The youngest intraplate oceanic-island fragments are of Late Jurassic−Early Cretaceous ages, which effectively argues for the continued presence of the Bangong−Nujiang Tethyan Ocean at this time. The abundant data of the intraplate oceanic-island fragments provide strong evidence that the Bangong−Nujiang Tethyan Ocean was a broad oceanic basin that separated Cimmeria from Gondwana during the Permian−Early Cretaceous and experienced complex evolution over at least 160 m.y.

Topics & Concepts

Intraplate earthquakeGeologyPaleontologyOceanic basinFibrous jointLithosphereOceanic crustTethys OceanPlate tectonicsPermianTectonicsEarth scienceStructural basinSubductionAnatomyMedicineGeological and Geochemical AnalysisGeochemistry and Elemental AnalysisGeological and Geophysical Studies