Litcius/Paper detail

Magnetostratigraphy of U-Pb–dated boreholes in Svalbard, Norway, implies that magnetochron M0r (a proposed Barremian-Aptian boundary marker) begins at 121.2 ± 0.4 Ma

Yang Zhang, James G. Ogg, Daniel Minguez, Mark W. Hounslow, Snorre Olaussen, Felix M. Gradstein, Selen Esmeray‐Senlet

2021Geology27 citationsDOIOpen Access PDF

Abstract

Abstract The age of the beginning of magnetic polarity Chron M0r, a proposed marker for the base of the Aptian Stage, is disputed due to a divergence of published radioisotopic dates and ambiguities in stratigraphic correlation of sections. Our magnetostratigraphy of core DH1 from Svalbard, Norway, calibrates a bentonite bed, dated by U-Pb methods to 123.1 ± 0.3 Ma, to the uppermost part of magnetozone M1r, which is ∼1.9 m.y. before the beginning of Chron M0r. This is the first direct calibration of any high-precision radioisotopic date to a polarity chron of the M sequence. The interpolated age of 121.2 ± 0.4 Ma for the beginning of Chron M0r is younger by ∼5 m.y. than its estimated age used in the Geologic Time Scale 2012, which had been extrapolated from radioisotopic dates on oceanic basalts and from Aptian cyclostratigraphy. The adjusted age model implies a commensurate faster average global oceanic spreading rate of ∼12% during the Aptian–Santonian interval. Future radioisotopic dating and high-resolution cyclostratigraphy are needed to investigate where to expand the mid-Jurassic to earliest Cretaceous interval by the required ∼4 m.y.

Topics & Concepts

AptianCyclostratigraphyGeologyMagnetostratigraphyPaleontologyCretaceousChemostratigraphyChronostratigraphyDinocystPaleomagnetismIsotopes of carbonPalynologyIsotopePollenEcologyQuantum mechanicsPhysicsBiologyStructural basinGeological and Geochemical AnalysisPaleontology and Stratigraphy of FossilsGeology and Paleoclimatology Research