OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

科学通报 2011

牙形石稀土元素的环境意义:来自湖北宜昌黄花场奥陶系牙形石的证据

, PP. 3091-3097

陈孝红,周炼,危凯,王瑾,李志宏

Keywords: 奥陶纪,牙形石,稀土元素,古环境,宜昌

Full-Text Cite this paper Add to My Lib

Abstract:

利用LA-ICP-MS对系统采自华南奥陶系标准剖面——宜昌黄花场剖面的牙形石进行了高分辨率微区分析.结果表明随着沉积环境水体加深、量能减小,牙形石稀土元素存在(La/Yb)N与(La/Sm)N值减小,而δCe值变大的趋势.伴随沉积环境由浅水碳酸盐台地-台地边缘向广海陆棚-陆棚盆地演化,牙形石的REE配分曲线由右倾斜型逐步变为平坦型、左倾斜型和帽型.从而不仅证明牙形石稀土元素(REE)的组成特征以及配分模式具有重要的古环境指示意义,而且为牙形石等磷酸盐生物壳体的稀土元素在古环境重建中的应用提供了可靠的依据.

References

[1]	5 Bolhar R, Van Kranendonk M J. A non-marine depositional setting for the northern Fortescue Group, Pilbara Craton, inferred from trace element geochemistry of stromatolitic carbonates. Precambrain Res, 2007, 155: 229-250？？
[2]	6 陈孝红, 张淼, 王传尚. 华南地区奥陶纪几丁虫. 北京: 地质出版社, 2009
[3]	8 汪啸风, 倪世钊, 曾庆銮, 等. 长江三峡地区生物地层学(2): 早古生代分册. 北京: 地质出版社, 1987. 43-146
[4]	17 Zhang T G, Shen Y A, Zhan R B, et al. Large perturbations of the carbon and sulfur cycle associated with the Late Ordovician mass extinction in South China. Geol, 2009, 37: 299-302？？
[5]	18 Wang X F, Erdtmann B D, Hoffknecht A, et al. Bioclast reflectance——A new frontier of organic petrology. Beijing: Geology Publishing House, 1997. 1-80
[6]	19 Trotter J A, Eggins M S. Chemical systematics of conodont apatite determined by laser ablation ICPMS. Chem Geol, 2006, 233: 196-216？？
[7]	20 周炼, 胡兆初, 袁红林, 等. 扬子克拉通早奥陶世古海水地球化学特征: 来自牙形石微量元素的证据. 地球化学, 2005, 34: 227-234
[8]	23 Reynard B, Lécuyer C, Grandjean P. Crystal-chemical controls on rare-earth element concentrations in fossil biogenic apatites and implication for paleoenvironmental reconstructions. Chem Geol, 1999, 155: 233-241？？
[9]	24 Grandjean-Lécuyer P, Feist R, Albarede F. Rare earth elements in old biogenic apatites. Geochim Cosmochim Acta, 1993, 57: 2507-2514？？
[10]	25 Gromet L P, Dymek R F, Haskin L A, et al. The North American Shale Composite: Its compilation, major and trace element characteristics. Geochim Cosmochim Acta, 1984, 48: 2469-2482？？
[11]	26 Lécuyer C, Grandjean P, Barrat J A, et al. δ18O and REE content of phosphatic brachiopods: A comparison between modern and Lower Paleozoic populations. Geochim Cosmochim Acta, 1998, 62: 2429-2436？？
[12]	27 Owen A W, Armstrong H A, Floyd J D. Rare earth element geochemistry of upper Ordovician cherts from the Southern Upland of Scotland. J Geol Soc, 1999, 156: 191-204？？
[13]	28 Patricka D, Martin J E, Parris D C, et al. Paleoenvironmental interpretations of rare earth element signatures in mosasaurs (reptilia) from the upper Cretaceous Pierre Shale, central South Dakota, USA. Palaeogeogr Palaeoclimatol Palaeoecol, 2004, 212: 277-294
[14]	29 杜远生, 朱杰, 顾松竹, 等. 北祁连造山带寒武系-奥陶系硅质岩沉积地球化学特征及其对多岛洋的启示. 中国科学D 辑: 地球科学, 2007, 37: 1314-1329
[15]	30 Zhang T G, Trela W, Jiang S Y, et al. Major oceanic redox condition change correlated with the rebound of marine animal diversity during the Late Ordovician. Geology, 2011, 39: 675-678？？
[16]	31 图凡伊, 周志毅. 湖北宜昌大坪奥陶纪阿仑尼克期三叶虫生态组合. 古生物学报, 2002, 41: 10-18
[17]	32 许效松, 万方, 尹福光, 等. 奥陶系宝塔组灰岩的环境相、生态相与成岩相. 矿物岩石, 2001, 21: 64-68
[18]	33 Wang X F, Chen X H. Palaeobiogeography and palaeoclimatology of Ordovician in China. Profess Pap Stratigr Palaeontol, 1999, 27: 24-27
[19]	34 Armstrong H A, Pearson D G, Griselin M. Thermal effects on rare earth element and strontium isotope chemistry in single conodont elements. Geochim Cosmochim Acta, 2001, 65: 435-441？？
[20]	35 Wright J, Seymour R S, Shaw H F. REE and Nd isotopes in conodont apatite: Variations with geological age and depositional environment. Geol Soc Am Spec Pap, 1984, 196: 325-340
[21]	36 Liu Y G, Miah M R U, Sehmitt R A. Cerium: A chemical tracer for paleo-oceanic redox conditions. Geochim Cosmochima Acta, 1988, 52: 1361-1371？？
[22]	37 陈孝红, 汪啸风. 长江三峡地区早古生代多重地层划分与海平面升降事件. 华南地质与矿产, 1999, 3: 1-11
[23]	38 Murray R W, Brinck R M B, Jones D L, et al. Rare earth elements as indicators of different marine depositional environments in chert and shale. Geology, 1990, 18: 268-271？？
[24]	39 Wilde P, Quinby-Hunt M S, Erdtmann B D. The whole-rock cerium anomaly: A potential indicator of eustatic sea level changes in shales of anoxic facies. Sendiment Geol, 1996, 101: 43-53？？
[25]	40 严德天, 陈代钊, 王清晨, 等. 扬子地区奥陶系-志留系界限附近地球化学研究. 中国科学D 辑: 地球科学, 2009, 39: 285-299
[26]	41 De Bear H J W, German C R, Erdfiled H, et al. Rare earth element distributions in anoxic waters of Cariaco Trench. Geochim Cosmochim Acta, 1988, 52: 1203-1219？？
[27]	1 Wright J, Schrader H, Holser W T. Paleoredox variations in ancient oceans recorded by rare earth elements in fossil apatite. Geochim Cosmochim Acta, 1987, 51: 631-644？？
[28]	2 Grandjean P, Cappetta H, Albarède F. The REE and εNd of 40-70 Ma old fish debris from the West African platform. Geophys Res Lett, 1988, 15: 389-392？？
[29]	3 Girard C, Lécuyer C. Variations in Ce anomalies of conodonts through the Frasnian/Famennian boundary of Poland (Kowala-Holy Cross Mountains): Implications for the redox state of seawater and biodiversity. Palaeogeogr Palaeoclimatol Palaeoecol, 2002, 181: 299-311？？
[30]	4 Lécuyer C, Reynard B, Grandjean P. Rare earth element evolution of Phanerozoic seawater recorded in biogenic apatites. Chem Geol, 2004, 204: 63-102？？
[31]	7 Chen X H, Wang X F. Early Palaeozoic chrono-, and sequence- stratigraphy in the Yangtze Gorges area, China with an approach of palaeobiogeography. Gondwana Res, 1999, 2: 627-632？？
[32]	9 陈孝红, 汪啸风, 李志宏, 等. 扬子地区中奥陶统大湾阶底界精细生物地层分带与对比. 古生物学报, 2003, 42: 317-327
[33]	10 周志强, 周志毅, 袁文伟. 湖北宜昌地区晚奥陶世三叶虫动物群及分带. 古生物学报, 2005, 44: 327-357
[34]	11 Wang X F, Stouge S, Chen X H, et al. The Global Stratotype Section and Point for the base of the Middle Ordovician Series and the Third Stage (Dapingian). Epis, 2009, 32: 96-113
[35]	12 陈旭, 丘金玉. 宜昌奥陶纪的古环境演变. 地层学杂志, 1986, 10: 1-15
[36]	13 曾庆銮. 峡东地区奥陶纪腕足类群落与海平面升降变化. 中国地质科学院宜昌地质矿产研究所所刊, 1991, 16: 19-39
[37]	14 胡明毅, 龚文平, 肖传桃, 等. 湖北宜昌黄花场奥陶世岩相和沉积环境. 石油与天然气地质, 1996, 17: 347-352
[38]	15 袁文伟, 周志毅, 张俊明, 等. 湘鄂西奥陶纪Tremadocian 期三叶虫相. 地层学杂志, 2000, 24: 275-282
[39]	16 周志毅, 周志强, 袁文伟, 等. 湘鄂西部地区晚奥陶世三叶虫相和古地理演化. 地层学杂志, 2000, 24: 249-263
[40]	21 Elderfield H, Upstill-Goddard R, Sholkovitz E R. The rare earth element in river, estuaries, and coastal seas and their siginificance to the composition of ocean water. Geochim Cosmochim Acta, 1990, 54: 971-991？？
[41]	22 Bertram C J, Elderfield H, Aldridge R J, et al. 87Sr/86Sr, 143Nd/144Nd and REEs in Silurian phosphatic fossils. Earth Planet Sci Lett, 1992, 113: 239-249

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133