An ∼34 m.y. astronomical time scale for the uppermost Mississippian through Pennsylvanian of the Carboniferous System of the Paleo-Tethyan Realm

The Naqing section in South China is a representative carbonate slope succession in the eastern Paleo-Tethyan realm. It encompasses four global stratotype section and point (GSSP) candidates for the Carboniferous Period. High-resolution magnetic susceptibility measurements through the section have v...

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Bibliographic Details
Published in:Geology (Boulder) 2019, Vol.47 (1), p.83-86
Main Authors: Wu Huaichun, Wu Huaichun, Fang Qiang, Fang Qiang, Wang Xiangdong, Wang Xiangdong, Hinnov, Linda A, Qi Yuping, Qi Yuping, Shen Shuzhong, Shen Shuzhong, Yang Tianshui, Yang Tianshui, Li Haiyan, Li Haiyan, Chen Jitao, Chen Jitao, Zhang Shihong, Zhang Shihong
Format: Article
Language:English
Subjects:
Asia
biostratigraphy
biozones
Calibration
Carbonates
Carboniferous
China
Chordata
Chronostratigraphy
climate forcing
Conodonta
Correlation analysis
Cycles
cyclic processes
cyclostratigraphy
Eccentric orbits
Ecological succession
Far East
Fourier analysis
Geological time
Geology
Lithology
Magnetic permeability
magnetic properties
Magnetic susceptibility
magnetostratigraphy
microfossils
Mississippian
Mudstone
Obliquity
orbital forcing
paleomagnetism
Paleotethys
Paleozoic
Pennsylvanian
sedimentary rocks
Sediments
South China Block
Stratigraphy
Subsystems
Time
Vertebrata
Windows (intervals)
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Summary:The Naqing section in South China is a representative carbonate slope succession in the eastern Paleo-Tethyan realm. It encompasses four global stratotype section and point (GSSP) candidates for the Carboniferous Period. High-resolution magnetic susceptibility measurements through the section have variations that correlate with lithological cycles of lime mudstone, wackestone, and packstone. Astronomical calibration of ∼3 m sedimentary cycles to a 405 k.y. orbital eccentricity cycle period aligns other significant, shorter sedimentary cycles to periods recognizable as short orbital eccentricity (136 k.y., 122 k.y., and 96 k.y.), obliquity (31 k.y.), and precession (22.9 k.y. and 19.7 k.y.). The orbital eccentricity has long-period modulations with 2.4 m.y., 1.6 m.y., and 1.2 m.y. periods, and the obliquity has a 1.2 m.y. modulation cycle. The astronomical calibration indicates durations of 7.6 m.y., 8.1 m.y., 8.5 m.y., 2.87 m.y., and 4.83 m.y. for the Serpukhovian, Bashkirian, Moscovian, Kasimovian, and Gzhelian Stages, respectively. The calibrated durations of the 25 conodont zones collectively indicate a 33.9 m.y. time scale. Biochronological correlation of the Paleo-Tethyan and pan-Euramerican records significantly refines the global chronostratigraphy for the Serpukhovian Stage and the Pennsylvanian subsystem. This new Paleo-Tethyan astronomical time scale opens a new window for understanding the late Paleozoic icehouse world.
ISSN:0091-7613
1943-2682
DOI:10.1130/G45461.1