SIMS U-Pb Zircon Geochronological and Carbon Isotope Chemostratigraphic Constraints on the Ediacaran-Cambrian Boundary Succession in the Three Gorges Area, South China

Taiyu Huang, Daizhao Chen, Yi Ding, Xiqiang Zhou, Gongjing Zhang

Journal of Earth Science ›› 2020, Vol. 31 ›› Issue (1) : 69-78.

Journal of Earth Science ›› 2020, Vol. 31 ›› Issue (1) : 69-78. DOI: 10.1007/s12583-019-1233-x
Petrology and Geochronology

SIMS U-Pb Zircon Geochronological and Carbon Isotope Chemostratigraphic Constraints on the Ediacaran-Cambrian Boundary Succession in the Three Gorges Area, South China

Author information +
History +

Abstract

The Ediacaran-Cambrian succession in South China records dramatic biological, oceanic and geochemical changes, but it is not well constrained geochronologically. This study reports a new SIMS U-Pb date of 543.4±3.5 Ma (MSWD=1.2) from a tuffaceous layer in the Zhoujiaao Section, and carbonate C-O isotopes in both Zhoujiaao and Sixi sections, Three Gorges area. This tuffaceous layer is present in the upper Dengying Formation (i.e., the Baimatuo Member) which is characterized by a stable δ13Ccarb plateau and the beginning of a negative δ13Ccarb shift near its upper boundary. In accordance with the existing biostratigraphic and chemostratigraphic data, this new date corroborates that the upper boundary of the Dengying Formation in South China is approximately equivalent to the Ediacaran-Cambrian boundary (ca. 541 Ma). This age also provides the minimum age of the last appearance of the Shibantan biota in the Three Gorges area, indicating that the terminal Ediacaran index fossils (e.g., Cloudina, Sinotubulites) are not reliable stratigraphic markers for further subdivision of the uppermost Ediacaran.

Keywords

U-Pb dating / carbon isotope chemostratigraphy / Dengying Formation / Ediacaran-Cambrian boundary / Three Gorges area / Shibantan biota / geochemistry

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾
Taiyu Huang, Daizhao Chen, Yi Ding, Xiqiang Zhou, Gongjing Zhang. SIMS U-Pb Zircon Geochronological and Carbon Isotope Chemostratigraphic Constraints on the Ediacaran-Cambrian Boundary Succession in the Three Gorges Area, South China. Journal of Earth Science, 2020, 31(1): 69‒78 https://doi.org/10.1007/s12583-019-1233-x

References

Publishing order | Descend order by publishing year | Descend order by cited within
Amthor J E, Grotzinger J P, Schröder S, . Extinction of Cloudina and Namacalathus at the Precambrian-Cambrian Boundary in Oman. Geology, 2003, 31 5 431.
Bowring S A, Grotzinger J P, Condon D J, . Geochronologic Constraints on the Chronostratigraphic Framework of the Neoproterozoic Huqf Supergroup, Sultanate of Oman. American Journal of Science, 2007, 307(10): 1097-1145.
Cai Y P, Hua H, Schiffbauer J D, . Tube Growth Patterns and Microbial Mat-Related Lifestyles in the Ediacaran Fossil Cloudina, Gaojiashan Lagerstätte, South China. Gondwana Research, 2014, 25(3): 1008-1018.
Cai Y P, Xiao S H, Hua H, . New Material of the Biomineralizing Tubular Fossil Sinotubulites from the Late Ediacaran Dengying Formation, South China. Precambrian Research, 2015, 261: 12-24.
Cai Y P, Xiao S H, Li G X, . Diverse Biomineralizing Animals in the Terminal Ediacaran Period Herald the Cambrian Explosion. Geology, 2019, 47(4): 380-384.
Charvet J. The Neoproterozoic-Early Paleozoic Tectonic Evolution of the South China Block: An Overview. Journal of Asian Earth Sciences, 2013, 74: 198-209.
Chen D Z, Wang J G, Qing H R, . Hydrothermal Venting Activities in the Early Cambrian, South China: Petrological, Geochronological and Stable Isotopic Constraints. Chemical Geology, 2009, 258(3/4): 168-181.
Chen D Z, Zhou X Q, Fu Y, . New U-Pb Zircon Ages of the Ediacaran-Cambrian Boundary Strata in South China. Terra Nova, 2015, 27(1): 62-68.
Chen Z, Zhou C M, Meyer M, . Reply to Comment on “Trace Fossil Evidence for Ediacaran Bilaterian Animals with Complex Behaviors” [Precambrian Res. 224 (2013) 690–701]. Precambrian Research, 2013, 231: 386-387.
Chen Z, Zhou C M, Xiao S H, . New Ediacara Fossils Preserved in Marine Limestone and their Ecological Implications. Scientific Reports, 2014, 4(1): 4180-4190.
Compston W, Zhang Z, Cooper J A, . Further SHRIMP Geochronology on the Early Cambrian of South China. American Journal of Science, 2008, 308(4): 399-420.
Condon D. U-Pb Ages from the Neoproterozoic Doushantuo Formation, China. Science, 2005, 308(5718): 95-98.
Cui L L, Wang X. Determination of Carbon and Oxygen Isotopes of Geological Samples with a Complicated Matrix: Comparison of Different Analytical Methods. Anal Methods, 2014, 6(22): 9173-9178.
Ding L F, Li Y, Chen H X. Discovery of Micrhystridium Regulare from Sinian-Cambrian Boundary Strata in Yichang, Hubei, and Its Stratigraphic Significance. Acta Micropalaeontologica Sinica, 1992, 9(3): 303-309.
Ding L F, Zhang L Y, Li Y, . The Study of the Late Sinian-Early Cambrian Biotas from the Northern Margin of the Yangtze Platform, 1992, Beijing: Scientific and Technical Documents Publishing House
Ding Q X, Xing Y S, Wang Z Q, . Tubular and Trace Fossils from the Sinian Dengying Dormation in the Miaohe-Liantuo Area, Hubei Province. Geological Review, 1993, 39(1): 118-125.
Ding Y, Chen D Z, Zhou X Q, . Paired δ13Ccarb13Corg Evolution of the Dengying Formation from Northeastern Guizhou and Implications for Stratigraphic Correlation and the Late Ediacaran Carbon Cycle. Journal of Earth Science, 2018.
Duda J P, Blumenberg M, Thiel V, . Geobiology of a Palaeoecosystem with Ediacara-Type Fossils: The Shibantan Member (Dengying Formation, South China). Precambrian Research, 2014, 255: 48-62.
Duda J P, Zhu M Y, Reitner J. Depositional Dynamics of a Bituminous Carbonate Facies in a Tectonically Induced Intra-Platform Basin: The Shibantan Member (Dengying Formation, Ediacaran Period). Carbonates and Evaporites, 2016, 31(1): 87-99.
Goldberg T, Strauss H, Guo Q J, . Reconstructing Marine Redox Conditions for the Early Cambrian Yangtze Platform: Evidence from Biogenic Sulphur and Organic Carbon Isotopes. Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 254(1/2): 175-193.
Grotzinger J P, Bowring S A, Saylor B Z, . Biostratigraphic and Geochronologic Constraints on Early Animal Evolution. Science, 1995, 270(5236): 598-604.
Guo J F, Li Y, Li G X. Small Shelly Fossils from the Early Cambrian Yanjiahe Formation, Yichang, Hubei, China. Gondwana Research, 2014, 25(3): 999-1007.
Hua H, Chen Z, Yuan X L. The Advent of Mineralized Skeletons in Neoproterozoic Metazoa-New Fossil Evidence from the Gaojiashan Fauna. Geological Journal, 2007, 42(3/4): 263-279.
Hua H, Chen Z, Yuan X L, . Skeletogenesis and Asexual Reproduction in the Earliest Biomineralizing Animal Cloudina. Geology, 2005, 33 4 277.
Ishikawa T, Ueno Y, Komiya T, . Carbon Isotope Chemostratigraphy of a Precambrian/Cambrian Boundary Section in the Three Gorge Area, South China: Prominent Global-Scale Isotope Excursions just before the Cambrian Explosion. Gondwana Research, 2008, 14(1–2): 193-208.
Ishikawa T, Ueno Y, Shu D G, . Irreversible Change of the Oceanic Carbon Cycle in the Earliest Cambrian: High-Resolution Organic and Inorganic Carbon Chemostratigraphy in the Three Gorges Area, South China. Precambrian Research, 2013, 225: 190-208.
Jenkins R J F, Cooper J A, Compston W. Age and Biostratigraphy of Early Cambrian Tuffs from SE Australia and Southern China. Journal of the Geological Society, 2002, 159(6): 645-658.
Jiang G Q, Kaufman A J, Christie-Blick N, . Carbon Isotope Variability across the Ediacaran Yangtze Platform in South China: Implications for a Large Surface-to-Deep Ocean δ13C Gradient. Earth and Planetary Science Letters, 2007, 261(1/2): 303-320.
Jiang G Q, Shi X Y, Zhang S H, . Stratigraphy and Paleogeography of the Ediacaran Doushantuo Formation (ca. 635-551 Ma) in South China. Gondwana Research, 2011, 19(4): 831-849.
Jiang G Q, Wang X Q, Shi X Y, . The Origin of Decoupled Carbonate and Organic Carbon Isotope Signatures in the Early Cambrian (ca. 542–20 Ma) Yangtze Platform. Earth and Planetary Science Letters, 2012, 317-318: 96-110.
Kaufman A, Knoll A. Neoproterozoic Variations in the C-Isotopic Composition of Seawater: Stratigraphic and Biogeochemical Implications. Precambrian Research, 1995, 73(1/2/3/4): 27-49.
Lan Z W, Li X H, Chu X L, . SIMS U-Pb Zircon Ages and Ni-Mo-PGE Geochemistry of the Lower Cambrian Niutitang Formation in South China: Constraints on Ni-Mo-PGE Mineralization and Stratigraphic Correlations. Journal of Asian Earth Sciences, 2017, 137: 141-162.
Li C, Hardisty D S, Luo G, . Uncovering the Spatial Heterogeneity of Ediacaran Carbon Cycling. Geobiology, 2017, 15(2): 211-224.
Li D, Ling H F, Jiang S Y, . New Carbon Isotope Stratigraphy of the Ediacaran-Cambrian Boundary Interval from SW China: Implications for Global Correlation. Geological Magazine, 2009, 146(4): 465-484.
Li D, Ling H F, Shields-Zhou G A, . Carbon and Strontium Isotope Evolution of Seawater across the Ediacaran-Cambrian Transition: Evidence from the Xiaotan Section, NE Yunnan, South China. Precambrian Research, 2013, 225: 128-147.
Li X H, Tang G Q, Gong B, . Qinghu Zircon: A Working Reference for Microbeam Analysis of U-Pb Age and Hf and O Isotopes. Chinese Science Bulletin, 2013, 58(36): 4647-4654.
Linnemann U, Ovtcharova M, Schaltegger U, . New High-Resolution Age Data from the Ediacaran-Cambrian Boundary Indicate Rapid, Ecologically Driven Onset of the Cambrian Explosion. Terra Nova, 2019, 31(1): 49-58.
Liu S G, Sun W, Luo Z L, . Xingkai Taphrogenesis and Petroleum Exploration from Upper Sinian to Cambrian Strata in Sichuan Basin. Journal of Chengdu University of Technology, 2013, 40(5): 511-520.
Lyons T W, Reinhard C T, Planavsky N J. The Rise of Oxygen in Earth’s Early Ocean and Atmosphere. Nature, 2014, 506(7488): 307-315.
Maloof A C, Porter S M, Moore J L, . The Earliest Cambrian Record of Animals and Ocean Geochemical Change. Geological Society of America Bulletin, 2010, 122(11/12): 1731-1774.
Marshall C R. Explaining the Cambrian “Explosion” of Animals. Annual Review of Earth and Planetary Sciences, 2006, 34(1): 355-384.
Meyer M, Xiao S H, Gill B C, . Interactions between Ediacaran Animals and Microbial Mats: Insights from Lamonte Trevallis, a New Trace Fossil from the Dengying Formation of South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 2014, 396: 62-74.
Narbonne G M. The Ediacara Biota: Neoproterozoic Origin of Animals and Their Ecosystems. Annual Review of Earth and Planetary Sciences, 2005, 33(1): 421-442.
Okada Y, Sawaki Y, Komiya T, . New Chronological Constraints for Cryogenian to Cambrian Rocks in the Three Gorges, Weng’an and Chengjiang areas, South China. Gondwana Research, 2014, 25(3): 1027-1044.
Shen B, Xiao S H, Zhou C M, . Yangtziramulus Zhangi New Genus and Species, a Carbonate-Hosted Macrofossil from the Ediacaran Dengying Formation in the Yangtze Gorges Area, South China. Journal of Paleontology, 2009, 83(4): 575-587.
Sláma J, Košler J, Condon D, . Ple.ovice Zircon.A New Natural Reference Material for U-Pb and Hf Isotopic Microanalysis. Chemical Geology, 2008, 249(1–2): 1-35.
Steiner M, Li G X, Qian Y, . Neoproterozoic to Early Cambrian Small Shelly Fossil Assemblages and a Revised Biostratigraphic Correlation of the Yangtze Platform (China). Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 254(1–2): 67-99.
Sun W G. Late Precambrian Pennatulids (Sea Pens) from the Eastern Yangtze Gorge, China: Paracharnia gen. nov. Precambrian Research, 1986, 31(4): 361-375.
Wang J, Li Z X. History of Neoproterozoic Rift Basins in South China: Implications for Rodinia Break-Up. Precambrian Research, 2003, 122(1/2/3/4): 141-158.
Wang D, Ling H F, Li D, . Carbon Isotope Stratigraphy of Yanjiahe Formation across the Ediacaran.Cambrian Boundary in the Three Gorges Area. Journal of Stratigraphy, 2012, 26(6): 715-720.
Wang J G, Chen D Z, Wang D, . Petrology and Geochemistry of Chert on the Marginal Zone of Yangtze Platform, Western Hunan, South China, during the Ediacaran-Cambrian Transition. Sedimentology, 2012, 59(3): 809-829.
Wang J G, Chen D Z, Yan D T, . Evolution from an Anoxic to Oxic Deep Ocean during the Ediacaran.Cambrian Transition and Implications for Bioradiation. Chemical Geology, 2012, 306–307: 129-138.
Wang X Q, Shi X Y, Jiang G Q, . New U-Pb Age from the Basal Niutitang Formation in South China: Implications for Diachronous Development and Condensation of Stratigraphic Units across the Yangtze Platform at the Ediacaran.Cambrian Transition. Journal of Asian Earth Sciences, 2012, 48: 1-8.
Wang X Q, Shi X Y, Jiang G Q, . Organic Carbon Isotope Gradient and Ocean Stratification across the Late Ediacaran-Early Cambrian Yangtze Platform. Science China Earth Sciences, 2014, 57(5): 919-929.
Weber B, Steiner M, Zhu M Y. Precambrian.Cambrian Trace Fossils from the Yangtze Platform (South China) and the Early Evolution of Bilaterian Lifestyles. Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 254 1/2 328.349.
Wiedenbeck M, Alle P, Corfu F, . Three Natural Zircon Standards for U-Th-Pb, Lu-Hf, Trace Element and Ree Analyses. Geostandards and Geoanalytical Research, 1995, 19(1): 1-23.
Xiao S H, Laflamme M. On the Eve of Animal Radiation: Phylogeny, Ecology and Evolution of the Ediacara Biota. Trends in Ecology & Evolution, 2009, 24(1): 31-40.
Xiao S H, Narbonne G M, Zhou C M, . Towards an Ediacaran Time Scale: Problems, Protocols, and Prospects. Episodes, 2016, 39 4 540.
Xiao S H, Shen B, Zhou C M, . A Uniquely Preserved Ediacaran Fossil with Direct Evidence for a Quilted Bodyplan. Proceedings of the National Academy of Sciences, 2005, 102(29): 10227-10232.
Yang B, Steiner M, Zhu M Y, . Transitional Ediacaran.Cambrian Small Skeletal Fossil Assemblages from South China and Kazakhstan: Implications for Chronostratigraphy and Metazoan Evolution. Precambrian Research, 2016, 285: 202-215.
Yang C, Li X H, Zhu M Y, . SIMS U-Pb Zircon Geochronological Constraints on Upper Ediacaran Stratigraphic Correlations, South China. Geological Magazine, 2017, 154(6): 1202-1216.
Yao W H, Li Z X, Li W X, . Detrital Provenance Evolution of the Ediacaran.Silurian Nanhua Foreland Basin, South China. Gondwana Research, 2015, 28(4): 1449-1465.
Zhou C M, Xiao S H. Ediacaran Δ13C Chemostratigraphy of South China. Chemical Geology, 2007, 237(1/2): 89-108.
Zhou C M, Yuan X L, Xiao S H, . Ediacaran Integrative Stratigraphy and Timescale of China. Science China Earth Sciences, 2019, 62(1): 7-24.
Zhu M, Zhuravlev A Y, Wood R A, . A Deep Root for the Cambrian Explosion: Implications of New Bio- And Chemostratigraphy from the Siberian Platform. Geology, 2017, 45(5): 459-462.
Zhu M Y. The Origin and Cambrian Explosion of animals: Fossil Evidences from China. Acta Palaeontologica Sinica, 2010, 49(3): 269-287.
Zhu M Y, Babcock L E, Peng S C. Advances in Cambrian Stratigraphy and Paleontology: Integrating Correlation Techniques, Paleobiology, Taphonomy and Paleoenvironmental Reconstruction. Palaeoworld, 2006, 15(3/4): 217-222.
Zhu M Y, Lu M, Zhang J M, . Carbon Isotope Chemostratigraphy and Sedimentary Facies Evolution of the Ediacaran Doushantuo Formation in Western Hubei, South China. Precambrian Research, 2013, 225: 7-28.
Zhu M Y, Yang A H, Yuan J L, . Cambrian Integrative Stratigraphy and Timescale of China. Science China Earth Sciences, 2019, 62(1): 25-60.
Zhu M Y, Zhang J M, Steiner M, . Sinian-Cambrian Stratigraphic Framework for Shallow- to Deep-Water Environments of the Yangtze Platform: An Integrated Approach. Progress in Natural Science, 2003, 13(12): 951-960.
Zhu M Y, Zhang J M, Yang A H. Integrated Ediacaran (Sinian) Chronostratigraphy of South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, 254(1/2): 7-61.
Zhu R X, Li X H, Hou X G, . SIMS U-Pb Zircon Age of a Tuff Layer in the Meishucun Section, Yunnan, Southwest China: Constraint on the Age of the Precambrian-Cambrian Boundary. Science in China Series D: Earth Sciences, 2009, 52 9 1385.1392.

Accesses

Citations

Detail
Sections
Recommended

/