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古地理学报 2014

云贵交界地区中上三叠统之交地球化学特征及其环境意义

DOI: 10.7605/gdlxb.2014.04.041, PP. 503-516

曾雄伟,程龙,王建坡,危凯,杨梅

Keywords: 云南,贵州,中上三叠统,微量元素,稀土元素,氧化还原环境,兴义动物群,关岭生物群

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Abstract:

中国西南部云贵交界地区中上三叠统海相地层以拥有丰富的海生爬行动物化石为特色的古生物群落而闻名。近期,笔者在云贵交界地区发现了一个完整的中上三叠统竹杆坡组至上三叠统小凹组剖面,即云南罗平江底剖面。在该剖面中,分别在竹杆坡组纹层灰岩段顶部及小凹组上部发现了典型的兴义动物群及关岭生物群生物组合。为了研究中晚三叠世之交生物群落演化的环境背景,对采集的97件地球化学样品进行了常量、微量及稀土元素测试与分析。微量和稀土元素的分析结果表明,竹杆坡组纹层灰岩段及小凹组处于缺氧环境,产兴义动物群及关岭生物群的地层含氧量相对增加,而两生物群落之间的竹杆坡组瘤状灰岩段主要为贫氧环境。中晚三叠世之交的海水含氧量的变化规律与生物群落的演替较为吻合,说明该时期海水含氧量的变化对生物演替具有一定的控制作用。

References

[1]	常华进,储雪蕾,冯连君,等. 2009. 氧化还原敏感微量元素对古海洋沉积环境的指示意义[J]. 地质论评,55(1):91-99.
[2]	陈孝红,陈立德,王传尚. 2003. 贵州关岭生物群的埋藏环境与古生态特点[J]. 地质通报,22(4):278-284.
[3]	郝维城,孙元林,江大勇,等. 2006. 盘县动物群研究进展[J]. 北京大学学报(自然科学版),42(6):817-823.
[4]	唐宾,郝维城,孙作玉. 2005. 贵州关岭动物群产出地层的地球化学特征及对物源和沉积环境的指示意义[J]. 古地理学报,7(2):261-274.
[5]	王成源,康沛泉,王志浩. 1998. 以牙形刺确定胡氏贵州龙(Kueichousaurus hui Yang)层的时代[J]. 微体古生物学报,15(2):196-198.
[6]	王尚彦. 2006. 关岭生物群的生活环境与演化[J]. 地质学报,80(4):481-490.
[7]	汪啸风,陈孝红,程龙,等. 2009. 关岭及相关生物群沉积与生态环境的探讨[J]. 古生物学报,48(3):509-526.
[8]	熊国庆,王剑,胡仁发. 2008. 贵州梵净山地区震旦系微量元素特征及沉积环境[J]. 地球学报,29(1):51-60.
[9]	曾雄伟,陈孝红,程龙,等. 2013. 扬子台地西南缘竹杆坡组的厘定[J]. 地层学杂志,37(4):479-484.
[10]	张启跃,周长勇,吕涛,等. 2008. 云南罗平中三叠世安尼期生物群的发现及其意义[J]. 地质论评,54(4):523-526.
[11]	赵丽君,王立亭,李淳. 2008. 中国三叠纪海生爬行动物化石研究的回顾与进展[J]. 古生物学报,47(2):232-239.
[12]	Chen X H,Zhou L,Wei K, et al. 2012. The environmental index of the rare earth elements in conodonts:Evidence from the Ordovician conodonts of the Huanghuachang Section,Yichang area[J]. Chinese Science Bulletin,57(4):349-359.
[13]	Cheng L,Wings O,Chen X H, et al. 2006. Gastroliths in the Triassic ichthyosaur Panjiangsaurus from China[J]. Journal of Paleontology,80(3):583-588.
[14]	Cheng Y N,Wu X C,Ji Q. 2004. Triassic marine reptiles gave birth to live young[J]. Nature,432:383-386.
[15]	Gromet L P,Dymek R F,Haskin L A, et al. 1984. The “North American shale composite”:Its compilation,major and trace element characteristics[J]. Geochimica et Cosmochimica Acta,48:2469-2482.
[16]	Hatch J R,Leventhal J S. 1992. Relationship between inferred redox potential of the depositional environment and geochemistry of the Upper Pennsylvanian(Missourian)Stark Shale Member of the Dennis Limestone,Wabaunsee County,Kansas,U.S.A[J]. Chemical Geology,99:65-82.
[17]	Jiang D Y,Motani R,Hao W C, et al. 2008. New primitive ichthyosaurian(Reptilia,Diapsida)from the Middle Triassic of Panxian,Guizhou,southwestern China and its position in the Triassic biotic recovery[J]. Progress in Natural Science,18(10):1315-1319.
[18]	Jones B,Manning D A C. 1994. Comparison of geochemical indices used for the interpretation of palaeoredox conditions in ancient mudstones[J]. Chemical Geology,111:111-129.
[19]	Lehrmann D J,Enos P,Payne J L, et al. 2005. Permian and Triassic depositional history of the Yangtze platform and Great Bank of Guizhou in the Nanpanjiang basin of Guizhou and Guangxi,south China[J]. Albertiana,33:147-166.
[20]	Li C,Wu X C,Cheng Y N, et al. 2006. An unusual archosaurian from the marine Triassic of China[J]. Naturwissenschaften,93:200-206.
[21]	Li C,Wu X C,Rieppel O, et al. 2008. An ancestral turtle from the Late Triassic of southwestern China[J]. Nature,456:497-501.
[22]	Li C,Zhao L J,Wang L T. 2007. A new species of the Macrocnemus(Reptilia:Protorosauria)from the Middle Triassic of southwestern China and its palaeogeographical implications[J]. Science in China,Series D:Earth Science,50(11):1601-1605.
[23]	Li J L. 2006. A brief summary of the Triassic marine reptiles of China[J]. Vertebrata PalAsiatica,44(1):99-108.
[24]	Madhavaraju J,Gonzalez-Leon C M,Lee Y I1, et al. 2010. Geochemistry of the Mural Formation(Aptian-Albian)of the Bisbee Group,Northern Sonora,Mexico[J]. Cretaceous Research,31:400-414.
[25]	Owen A W,Armstrong H A,Floyd J D. 1999. Rare earth element geochemistry of upper Ordovician cherts from the southern Uplands of Scotland[J]. Journal of the Geological Society,London,156:191-204.
[26]	Racki G,Racka M,Matyja H, et al. 2002. The Frasnian/Famennian boundary interval in the South Polish-Moravian shelf basins:Integrated event-stratigraphical approach[J]. Palaeogeography,Palaeoclimatology,Palaeoecology,181:251-297.
[27]	Rieppel O. 2000. Paraplacodus and the phylogeny of the Placodontia(Reptilia:Sauropterygia)[J]. Zoological Journal of the Linnean Society,130(4):635-659.
[28]	Rimmer S M. 2004. Geochemical paleoredox indicators in Devonian-Mississippian black shales,Central Appalachian Basin(USA)[J]. Chemical Geology,206:373-391.
[29]	Riquier L,Tribovillard N,Averbuch O, et al. 2006. The Late Frasnian Kellwasser horizons of the Harz Mountains(Germany):Two oxygen-deficient periods resulting from different mechanisms[J]. Chemical Geology,233:137-155.
[30]	Tribovillard N,Algeo T J,Lyons T, et al. 2006. Trace metals as paleoredox and paleoproductivity proxies:An update[J]. Chemical Geology,232:12-32.
[31]	Wang X F,Bachmann G H,Hagdorn H, et al. 2008. The Late Triassic black shales of the Guanling area,Guizhou Province,south-west China:A unique marine reptile and pelagic crinoid fossil lagerstatte[J]. Palaeontology,51:27-61.
[32]	Yan D T,Chen D Z,Wang Q C, et al. 2009. Geochemical changes across the Ordovician-Silurian transition on the Yangtze Platform,South China[J]. Science in China, Series D:Earth Sciences,52(1):38-54.
[33]	Zeng J W,Xu R,Gong Y M. 2011. Hydrothermal activities and seawater acidification in the Late Devonian F-F transition:Evidence from geochemistry of rare earth elements[J]. Science in China, Series D: Earth Sciences,54(4):540-549.

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