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References (92)
-
H. Visscher, C. Looy, M. Collinson, H. Brinkhuis, Johanna Cittert, Wolfram Kürschner, M. Sephton (2004)
Environmental mutagenesis during the end-Permian ecological crisis.Proceedings of the National Academy of Sciences of the United States of America, 101 35
-
S. Kershaw, Tingshan Zhang, G. Lan (1999)
A ?microbialite carbonate crust at the Permian–Triassic boundary in South China, and its palaeoenvironmental significancePalaeogeography, Palaeoclimatology, Palaeoecology, 146
-
L. Hardie (1996)
Secular variation in seawater chemistry: An explanation for the coupled secular variation in the mineralogies of marine limestones and potash evaporites over the past 600 m.y.Geology, 24
-
C. Korte, P. Pande, P. Kalia, H. Kozur, M. Joachimski, H. Oberhänsli (2010)
Massive volcanism at the Permian–Triassic boundary and its impact on the isotopic composition of the ocean and atmosphereJournal of Asian Earth Sciences, 37
-
W. Shen, Yangting Lin, Lin Xu, Jian-feng Li, Yasheng Wu, Yongge Sun (2007)
Pyrite framboids in the Permian–Triassic boundary section at Meishan, China: Evidence for dysoxic depositionPalaeogeography, Palaeoclimatology, Palaeoecology, 253
-
C. Koeberl, K. Farley, B. Peucker‐Ehrenbrink, M. Sephton (2004)
Geochemistry of the end-Permian extinction event in Austria and Italy: No evidence for an extraterrestrial componentGeology, 32
-
J. Dickins, Yang Zunyi, Yin Hongfu, S. Lucas, S. Acharyya (1997)
Late Palaeozoic and Early Mesozoic Circum-Pacific Events and Their Global Correlation: List of contributors -
K. Grice, Changqun Cao, G. Love, M. Böttcher, R. Twitchett, E. Grosjean, R. Summons, S. Turgeon, W. Dunning, Yu-gan Jin (2005)
Photic Zone Euxinia During the Permian-Triassic Superanoxic EventScience, 307
-
J. Hays (1971)
Faunal Extinctions and Reversals of the Earth's Magnetic FieldGeological Society of America Bulletin, 82
-
G. Luo, X. Lai, G. Shi, Haishui Jiang, Hongfu Yin, S. Xie, J. Tong, Kexin Zhang, Weihong He, P. Wignall (2008)
Size variation of conodont elements of the Hindeodus–Isarcicella clade during the Permian–Triassic transition in South China and its implication for mass extinctionPalaeogeography, Palaeoclimatology, Palaeoecology, 264
-
S. Xie, R. Pancost, Hongfu Yin, Hongmei Wang, R. Evershed (2005)
Two episodes of microbial change coupled with Permo/Triassic faunal mass extinctionNature, 434
-
Haijun Song, J. Tong, Zhong‐Qiang Chen (2011)
Evolutionary dynamics of the Permian–Triassic foraminifer size: Evidence for Lilliput effect in the end-Permian mass extinction and its aftermathPalaeogeography, Palaeoclimatology, Palaeoecology, 308
-
G. Luo, Yongbiao Wang, T. Algeo, L. Kump, X. Bai, Hao Yang, L. Yao, S. Xie (2011)
Enhanced nitrogen fixation in the immediate aftermath of the latest Permian marine mass extinctionGeology, 39
-
Changqun Cao, Quan‐Feng Zheng (2009)
Geological event sequences of the Permian-Triassic transition recorded in the microfacies in Meishan sectionScience in China Series D: Earth Sciences, 52
-
J. Ogg, G. Ogg, F. Gradstein (2008)
The Concise Geologic Time Scale -
E. Eide, T. Torsvik (1996)
Paleozoic supercontinental assembly, mantle flushing, and genesis of the Kiaman SuperchronEarth and Planetary Science Letters, 144
-
W. Shen, Yongge Sun, Yangting Lin, Dehan Liu, Pingxia Chai (2011)
Evidence for wildfire in the Meishan section and implications for Permian-Triassic eventsGeochimica et Cosmochimica Acta, 75
-
FANWeiming, WANGYuejun, PENGTouping, MIAOLaicheng, Guofeng (2004)
Ar-Ar and U-Pb geochronology of Late Paleozoic basalts in western Guangxi and its constraints on the eruption age of Emeishan basalt magmatism, 49
-
J. Golonka, M. Ross, C. Scotese (1994)
Phanerozoic Paleogeographic and Paleoclimatic Modeling Maps -
(2009)
Progress in study of conodont sequence for the GSSP section at Meishan , Changxing , Zhejiang Province , South China ( in Chinese ) -
Xie Shu-cheng (2009)
EPISODIC CHANGES OF THE EARTH SURFACE SYSTEM ACROSS THE PERMIAN-TRIASSIC BOUNDARY:MOLECULAR GEOBIOLOGICAL RECORDS -
D. Anderson (1982)
Hotspots, polar wander, Mesozoic convection and the geoidNature, 297
-
W. Kiessling, E. Flügel, J. Golonka (2002)
Phanerozoic reef patterns, 72
-
(1990)
Paleozoic world maps and symposium introduction -
A. Knoll, R. Bambach, J. Payne, S. Pruss, W. Fischer (2007)
Paleophysiology and End-Permian Mass ExtinctionEarth and Planetary Science Letters, 256
-
Zhang Kexin, Tong Jinnan, Yin Hongfu, Wu Shunbao (1997)
Sequence Stratigraphy of the Permian–Triassia Boundary Section of Changxing, Zhejiang, Southern ChinaActa Geologica Sinica ‐ English Edition, 71
-
C. Marshall, A. Hallam, P. Wignall (1997)
Mass Extinctions and Their Aftermath -
G. Retallack (2002)
Carbon dioxide and climate over the past 300 MyrPhilosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 360
-
P. Ward, J. Botha, R. Buick, M. Kock, D. Erwin, G. Garrison, J. Kirschvink, Roger Smith (2005)
Abrupt and Gradual Extinction Among Late Permian Land Vertebrates in the Karoo Basin, South AfricaScience, 307
-
Yin Hongfu, Huang Siji, Zhang Kexing, H. Hansen, Yang Feng-qing, Ding Meihua, Bi Xianmei, W. Sweet, Yang Zunyi, J. Dickins (1992)
The effects of volcanism on the Permo-Triassic mass extinction in South China -
H. Kozur (2007)
Biostratigraphy and event stratigraphy in Iran around the Permian–Triassic Boundary (PTB): Implications for the causes of the PTB biotic crisisGlobal and Planetary Change, 55
-
Tong Jin-nan (2009)
ADVANCE IN THE STUDY OF EARLY TRIASSIC LIFE AND ENVIRONMENT -
Haijun Song, P. Wignall, J. Tong, Hongfu Yin (2012)
Two pulses of extinction during the Permian–Triassic crisisNature Geoscience, 6
-
G. Retallack, A. Jahren (2008)
Methane Release from Igneous Intrusion of Coal during Late Permian Extinction EventsThe Journal of Geology, 116
-
G. Racki, P. Wignall (2005)
Chapter 10 late permian double-phased mass extinction and volcanism: an oceanographic perspectiveDevelopments in Palaeontology and Stratigraphy, 20
-
Yanan Shen, J. Farquhar, Hua Zhang, A. Masterson, Tonggang Zhang, B. Wing (2011)
Multiple S-isotopic evidence for episodic shoaling of anoxic water during Late Permian mass extinctionNature Communications, 2
-
E. Flügel (2002)
Triassic Reef Patterns -
J. Payne, A. Turchyn, A. Paytan, D. DePaolo, D. Lehrmann, M. Yu, Jiayong Wei (2010)
Calcium isotope constraints on the end-Permian mass extinctionProceedings of the National Academy of Sciences, 107
-
C. Scotese, W. Mckerrow (1990)
Revised World maps and introductionGeological Society, London, Memoirs, 12
-
G. Retallack (1995)
Permian-Triassic Life Crisis on LandScience, 267
-
F. Gradstein, J. Ogg, Alan Smith (2005)
A Geologic Time Scale 2004: CONCEPTS AND METHODS -
R. Mundil, K. Ludwig, I. Metcalfe, P. Renne (2004)
Age and Timing of the Permian Mass Extinctions: U/Pb Dating of Closed-System ZirconsScience, 305
-
Yin Hongfu, Huang Siji, Zhang Kexin, Yang Feng-qing, Ding Meihua, Bi Xianmei, Zhang Suxin (2009)
Volcanism at the Permian‐Triassic Boundary in South China and Its Effects on Mass ExtinctionActa Geologica Sinica-english Edition, 2
-
Y. Isozaki (2009)
Illawarra Reversal: The fingerprint of a superplume that triggered Pangean breakup and the end-Guadalupian (Permian) mass extinctionGondwana Research, 15
-
A. Vrzhosek (1997)
Late Palaeozoic and Early Mesozoic Circum-Pacific Events and Their Global Correlation: Late Permian bimodal volcanism in South Primorye -
Haijun Song, P. Wignall, Zhong‐Qiang Chen, J. Tong, D. Bond, X. Lai, Xiaoming Zhao, Haishui Jiang, Chunbo Yan, Z. Niu, J. Chen, Hao Yang, Yongbiao Wang (2011)
Recovery tempo and pattern of marine ecosystems after the end-Permian mass extinctionGeology, 39
-
P. Wignall (2001)
Large igneous provinces and mass extinctionsEarth-Science Reviews, 53
-
In Jin, Yan Wang, Wen Wang, Q. Shang, Changqun Cao, D. Erwin (2000)
Pattern of marine mass extinction near the Permian-Triassic boundary in South China.Science, 289 5478
-
Chunjiang Wang (2007)
Anomalous hopane distributions at the Permian-Triassic boundary, Meishan, China - : Evidence for the end-Permian marine ecosystem collapseOrganic Geochemistry, 38
-
Haijun Song, J. Tong, Yanlin Xiong, Dongying Sun, L. Tian, Huyue Song (2012)
The large increase of δ13Ccarb-depth gradient and the end-Permian mass extinctionScience China Earth Sciences, 55
-
S. Xie, R. Pancost, Junhua Huang, P. Wignall, Jianxin Yu, Xinyan Tang, Lin Chen, Xianyu Huang, X. Lai (2007)
Changes in the global carbon cycle occurred as two episodes during the Permian–Triassic crisisGeology, 35
-
T. Worsley, D. Nance, J. Moody (1984)
Global tectonics and eustasy for the past 2 billion yearsMarine Geology, 58
-
(2013)
Two discrete pulses to the Permian - Triassic extinction -
Peter Ward, David Montgomery, Roger Smith (2000)
Altered river morphology in south africa related to the permian-triassic extinctionScience, 289 5485
-
S. Stanley, Xiao Yang (1994)
A Double Mass Extinction at the End of the Paleozoic EraScience, 266
-
S. Shen, J. Crowley, Yue Wang, S. Bowring, D. Erwin, P. Sadler, Changqun Cao, D. Rothman, C. Henderson, J. Ramezani, Hua Zhang, Yanan Shen, Xiangdong Wang, Wei Wang, Lin Mu, Wen-zhong Li, Yuegang Tang, Xiao-Lei Liu, Lu-jun Liu, Yong Zeng, Yao-fa Jiang, Yu-gan Jin (2011)
Calibrating the End-Permian Mass ExtinctionScience, 334
-
G. Racki (2003)
End‐Permian mass extinction: oceanographic consequences of double catastrophic volcanismLethaia, 36
-
(1979)
Stratigraphy of the Triassic System of Northeastern Asia . Academy of Sciences , USSR , Siberian Branch , Institute of Geology and Geophysics -
J. Payne, D. Lehrmann, Jiayong Wei, M. Orchard, D. Schrag, A. Knoll (2004)
Large Perturbations of the Carbon Cycle During Recovery from the End-Permian ExtinctionScience, 305
-
H. Svensen, S. Planke, A. Polozov, N. Schmidbauer, F. Corfu, Y. Podladchikov, B. Jamtveit (2008)
Siberian gas venting and the end-Permian environmental crisisEarth and Planetary Science Letters, 277
-
Chunjiang Wang, H. Visscher (2007)
Abundance anomalies of aromatic biomarkers in the Permian–Triassic boundary section at Meishan, China — Evidence of end-Permian terrestrial ecosystem collapsePalaeogeography, Palaeoclimatology, Palaeoecology, 252
-
G. Retallack (2001)
A 300-million-year record of atmospheric carbon dioxide from fossil plant cuticlesNature, 411
-
M. Joachimski, X. Lai, S. Shen, Haishui Jiang, G. Luo, Bo Chen, Jun Chen, Yadong Sun (2012)
Climate warming in the latest Permian and the Permian-Triassic mass extinctionGeology, 40
-
Hongfu Yin, Zhang Kexin, Jinnan Tong, Yang Zunyi, Shunbao Wu (2001)
The Global Stratotype Section and Point (GSSP) of the Permian-Triassic boundaryEpisodes, 24
-
S. Xie, R. Pancost, Yongbiao Wang, Hao Yang, P. Wignall, G. Luo, C. Jia, Lin Chen (2010)
Cyanobacterial blooms tied to volcanism during the 5 m.y. Permo-Triassic biotic crisisGeology, 38
-
Charles Henderson, A. Baud (2020)
Correlation of the Permian-Triassic Boundary in Arctic Canada and Comparison with Meishan, ChinaStratigraphy
-
R. Berner (2002)
Examination of hypotheses for the Permo–Triassic boundary extinction by carbon cycle modelingProceedings of the National Academy of Sciences of the United States of America, 99
-
G. Racki (1999)
Silica-secreting biota and mass extinctions: survival patterns and processesPalaeogeography, Palaeoclimatology, Palaeoecology, 154
-
Hongfu Yin, Q. Feng, X. Lai, A. Baud, J. Tong (2007)
The protracted Permo-Triassic crisis and multi-episode extinction around the Permian–Triassic boundaryGlobal and Planetary Change, 55
-
D. Erwin (1993)
The Terminal P-Tr Events. (Book Reviews: The Great Paleozoic Crisis. Life and Death in the Permian.)Science
-
C. Teichert, B. Kummel, W. Sweet (1973)
Permian-Triassic strata, Kuh-E-Ali Bashi, northwestern IranBulletin of the Museum of Comparative Zoology at Harvard College, 145
-
Yukio Isozaki (1997)
Permo-Triassic Boundary Superanoxia and Stratified Superocean: Records from Lost Deep SeaScience, 276 5310
-
Ding Meihua (1992)
Permo-Triassic Events in the Eastern Tethys: Conodont sequences in the Upper Permian and Lower Triassic of South China and the nature of conodont faunal changes at the systemic boundary -
R. Berner (2005)
The carbon and sulfur cycles and atmospheric oxygen from middle Permian to middle TriassicGeochimica et Cosmochimica Acta, 69
-
Jianghai Yang, Peter Cawood, Yuansheng Du, Hu Huang, Hongwei Huang, Ping Tao (2012)
Large Igneous Province and magmatic arc sourced Permian–Triassic volcanogenic sediments in ChinaSedimentary Geology, 261
-
J. Veevers, R. Tewari (1995)
Permian-Carboniferous and Permian-Triassic magmatism in the rift zone bordering the Tethyan margin of southern PangeaGeology, 23
-
J. Sepkoski (1984)
A kinetic model of Phanerozoic taxonomic diversity. III. Post-Paleozoic families and mass extinctionsPaleobiology, 10
-
Q. Feng, Weihong He, Songzhu Gu, Youyan Meng, Yuxi Jin, F. Zhang (2007)
Radiolarian evolution during the latest Permian in South ChinaGlobal and Planetary Change, 55
-
WANGYongbiao, TongJinnan, WangJiasheng, ZhouXiugao (2005)
Calcimicrobialite after end-Permian mass extinction in South China and its palaeoenvironmental significance -
G. Luo, L. Kump, Yongbiao Wang, J. Tong, M. Arthur, Hao Yang, Junhua Huang, Hongfu Yin, S. Xie (2010)
Isotopic evidence for an anomalously low oceanic sulfate concentration following end-Permian mass extinctionEarth and Planetary Science Letters, 300
-
Yan Jia-xin (2006)
Synchronized Osciliations in Phanerozoic Chemical Composition of Seawater,Carbonate Sedimentation and Biotic Evolution:Progresses and ProspectsGeological Science and Technology Information
-
J. Sepkoski (1997)
Biodiversity: Past, Present, and FutureJournal of Paleontology, 71
-
Xianyu Huang, D. Jiao, Liqiang Lu, S. Xie, Junhua Huang, Yongbiao Wang, Hongfu Yin, Hongmei Wang, Kexin Zhang, X. Lai (2007)
The fluctuating environment associated with the episodic biotic crisis during the Permo/Triassic transition: Evidence from microbial biomarkers in Changxing, Zhejiang ProvinceScience in China Series D: Earth Sciences, 50
-
M. Richards, D. Engebretson (1992)
Large-scale mantle convection and the history of subductionNature, 355
-
Changqun Cao, G. Love, L. Hays, Wei Wang, S. Shen, R. Summons (2009)
Biogeochemical evidence for euxinic oceans and ecological disturbance presaging the end-Permian mass extinction eventEarth and Planetary Science Letters, 281
-
Hongfu Yin, S. Xie, G. Luo, T. Algeo, Kexin Zhang (2012)
Two episodes of environmental change at the Permian–Triassic boundary of the GSSP section MeishanEarth-Science Reviews, 115
-
Yigang Xu, B. He, Sun‐Lin Chung, M. Menzies, F. Frey (2004)
Geologic, geochemical, and geophysical consequences of plume involvement in the Emeishan flood-basalt provinceGeology, 32
-
Haijun Song, P. Wignall, J. Tong, D. Bond, Huyue Song, X. Lai, Kexin Zhang, Hongmei Wang, Yanlong Chen (2012)
Geochemical evidence from bio-apatite for multiple oceanic anoxic events during Permian-Triassic transition and the link with end-Permian extinction and recoveryEarth and Planetary Science Letters, 353
-
Changqun Cao, Wei Wang, Yu-gan Jin (2002)
Carbon isotope excursions across the Permian-Triassic boundary in the Meishan section, Zhejiang Province, ChinaChinese Science Bulletin, 47
-
Xia Wenchen, Z. Ning, Wang Guoqing, Youshitaka Kakuwa (2004)
Pelagic radiolarian and conodont biozonation in the Permo-Triassic boundary interval and correlation to the Meishan GSSP, 50
-
T. Algeo, Zhong‐Qiang Chen, M. Fraiser, R. Twitchett (2011)
Terrestrial–marine teleconnections in the collapse and rebuilding of Early Triassic marine ecosystemsPalaeogeography, Palaeoclimatology, Palaeoecology, 308
-
G. Retallack, J. Veevers, R. Morante (1996)
Global coal gap between Permian-Triassic extinction and Middle Triassic recovery of peat-forming plantsGeological Society of America Bulletin, 108
- Publisher
- Springer Journals
- Copyright
- Copyright © 2013 by Science China Press and Springer-Verlag Berlin Heidelberg
- Subject
- Earth Sciences; Earth Sciences, general
- ISSN
- 1006-9313
- eISSN
- 1869-1897
- DOI
- 10.1007/s11430-013-4624-3
- Publisher site
- See Article on Publisher Site
Abstract
The greatest Phanerozoic mass extinction happened at the end-Permian to earliest Triassic. About 95% species, 82% genera, and more than half families became extinct, constituting the sole macro-mass extinction in geological history. This event not only caused the great extinction but also destroyed the 200 Myr-long Paleozoic marine ecosystem, prompted its transition to Mesozoic ecosystem, and induced coal gap on land as well as reef gap and chert gap in ocean. The biotic crisis during the Paleozoic-Mesozoic transition was a long process of co-evolution between geospheres and biosphere. The event sequence at the Permian-Triassic boundary (PTB) reveals two-episodic pattern of rapidly deteriorating global changes and biotic mass extinction and the intimate relationship between them. The severe global changes coupling multiple geospheres may have affected the Pangea integration on the Earth’s surface spheres, which include: the Pangea integration→enhanced mountain height and basin depth, changes of wind and ocean current systems; enhanced ocean basin depth→the greatest Phanerozoic regression at PTB, disappearance of epeiric seas and subsequent rapid transgression; the Pangea integration→thermal isolation effect of continental lithosphere and decrease of mid-ocean ridges→development of continental volcanism; two-episode volcanism causing LIPs of the Emeishan Basalt and the Siberian Trap (259–251 Ma)→global warming and mass extinction; continental aridification and replacement of monsoon system by latitudinal wind system→destruction of vegetation; enhanced weathering and CH 4 emission→negative excursion of δ 13 C; mantle plume→crust doming→regression; possible relation between the Illa-warra magnetic reversal and the PTB extinction, and so on. Mantle plume produced the Late Permian LIPs and mantle convection may have caused the process of the Pangea integration. Subduction, delamination, and accumulation of the earth’s cool lithospheric material at the “D” layer of CMB started mantle plume by heat compensation and disturbed the outer core thermo-convection, and the latter in turn would generate the mid-Permian geomagnetic reversal. These core and mantle perturbations may have caused the Pangea integration and two successive LIPs in the Permian, and probably finally the mass extinction at the PTB.
Journal
Science in China Series D: Earth Sciences – Springer Journals
Published: Nov 1, 2013