Zhijin County in Western Guizhou is one of the most important production areas of phosphorites in China. In order to investigate genesis of the phosphorites, their REE compositions were analyzed by using inductively coupled plasma emission mass spectrometry (ICP-MS) method. For comparison, phosphorites from the Lower Cambrian black rock series in Southern China, such as Zunyi in Guizhou and Zhangjiajie in Hunan Province, were also analyzed. The analytical data show that: (1) Xinhua phosphorites possess a quite high and greatly varied total rare earth elements (ΣREE), which varying between 164.23×10-6 and 1395.01×10-6 with average of 642.54×10-6, remarkable differentiation between light (LREE) and heavy rare earth elements (HREE), and the ΣLREE/ΣHREE ratios varying between 5.04 and 6.52. The ΣREE and ΣLREE/ΣHREE ratios of the Zunyi and Zhangjiajie phosphorites are 156.69×10-6~637.41×10-6 with average of 431.75×10-6 and 3.17~6.95 with average of 4.37 respectively; (2) All the phosphorites from Xinhua, Zunyi and Zhangjiajie show remarkable negative Ce anomalies. Besides, the Xinhua phosphorites possess lower δCe, which varying between 0.26 and 0.53 with average of 0.35, while δCe of the Zunyi and Zhangjiajie phosphorites are 0.30~0.66 with average of 0.47, suggesting that all of the phosphorites are typical marine sediments deposited mainly in ancient peri-continental seas, and the depositional position of the Xinhua phosphorite might be deeper; (3) Most phosphorites from Xinhua, Zunyi and Zhangjiajie possess unremarkable positive Eu anomaly, and only a few of samples show obvious ones. The δEu varies between 0.98 and 2.4, suggesting that hot (>200 ℃) and strong reductive hydrothermal fluids might have been involved in genesis of the phosphorites; (4) The Xinhua phosphorite is relatively depleted in HREE, and LaN/NdN and δY of most samples are >1 and >1.5 respectively. Besides, there exists no correlation between δY and δCe, suggesting that the phosphorite was subjected to quite strong weathering and leaching processes, and catagenesis do not greatly modify its REE compositions.
参考文献
| [1] | YE Lianjun;Chen Qinying;Zhao Dongxun.The Phosphorites of China[M].北京:科学出版社,1989:1. |
| [2] | 田升平.中国磷矿基本特征及分布规律[J].化工矿产地质,2000(01):11. |
| [3] | Chen Qinying .Microbiological progress in genesis of phosphorite deposit[J].Scientia Geologica Sinica,1995,30(01):153. |
| [4] | Fan Delian;Liu Tiebin;Ye Jie .Biogeochemistry of black rock series during diagenetic and metallogenetic process[J].Acta Petrologica Sinica,1991,2:65. |
| [5] | Zhang Aiyun;Wu Damao;Guo Lina.Marine Black Shale Formation Geochemistry and Mineralogenetic Significance[M].北京:科学出版社,1987:1. |
| [6] | Li Shengrong .The study on geochemistry of gold and silver and platinum in black rock series of Lower Cambrian in Hunan and Guizhou[D].The Institute of Geochemistry of Chinese Academic of Science,1994. |
| [7] | Li Shengrong;Gao Zhenmin .REE characteristics of black rock series of the lower Cambrian Niutitang formation in Hunan-Guizhou Provinces, China, with a discussion on the REE patterns in marine hydrothermal sediments[J].Acta Minerogical Sinica,1995,15:225. |
| [8] | Wu Chaodong;Chen Qinying .The Genesis and geochemistry characteristics of phosphates of upper Sinian-Lower Cambrian, west Hunan[J].Scicentia Geologica Sinica,1999,34:213. |
| [9] | 甘朝勋.贵州省地质与矿产调研史略(下)[J].贵州地质,1998(01):79. |
| [10] | Yi Chongyu;Gao Linzhi;Xing Yusheng .Advance in the study of perninerlized biota of doushantuo stage in Weng'an, Guizhou province and their geological significance[J].Acta Geologica Sinica,2002,23(01):47. |
| [11] | 刘瑞珣,吕古贤,王方正,正世锋.震旦纪陡山沱期疑源类Tianzhushania属研究进展[J].地质通报,2003(02):87-94. |
| [12] | WU Xianghe;Han Zhijun;Cai Jifeng.Phosphorites in Guizhou[M].北京:地质出版社,1999:1. |
| [13] | Zhang Yongyuan.The geological characteristics of some phosphorite deposit in Guizhou and the smelting experiments on selected ore[A].北京:地质出版社,1974:308. |
| [14] | 刘家仁.试谈织金磷矿的综合利用问题[J].贵州地质,1999(03):253. |
| [15] | Taylor S R;Mclcnnan S M.The Continental Crust:Its Composition and Evolution[M].Oxford:Blackwell Scientific Press,1985:1. |
| [16] | Llyin A V .Rare-earth geochemistry of 'old' phosphorites and probability of syngenetic precipitation and accumulation of phosphate[J].Chemical Geology,1998,144:243. |
| [17] | Shields G.;Stille P. .Diagenetic constraints on the use of cerium anomalies as palaeoseawater redox proxies: an isotopic and REE study of Cambrian phosphorites[J].Chemical geology,2001(1/2):29-48. |
| [18] | Bau M;Dulski P .Distribution of yttrium and rare earths in the Penge and Kuruman iron-formation,Transvaal Suergroup,South Africa[J].Precambrian Research,1996,79:37. |
| [19] | Holser W T .Evaluation of the application of rare-earth elements of paleoceanography[J].Palaeogeography,Palaeoclimatology,Palaeoecology,1997,132:309. |
| [20] | Llyin A V .Rare-earth element geochemistry of the Mesozoic phosphorites of the East European Platform,with applications to some problems of phosphogenesis[J].Geochemistry International,1998,36:489. |
| [21] | Yang Weidong;Xiao Jinkai;Yu Bingsong.Phosphorites Sedimentology, Geochemistry and Sustainable Development of Yunnan and Guizhou[M].北京:地质出版社,2001:1. |
| [22] | Mazumdar A;Banerjee D M;Schidlowski M et al.Rare-earth elements and stable isotope geochemistry of early Cambrian chert-phosphorite assemblages from the Lower Tal formation of the Krol Belt (Lesser Himalaya,India)[J].Chemical Geology,1999,156:275. |
| [23] | Sveriensky D A .Europium redox equilibria in aqueous solution[J].Earth and Planetary Sciences Letters,1984,67:70. |
| [24] | 孙晓明,王敏,薛婷,马名扬,李延河.华南下寒武统黑色岩系铂多金属矿中黄铁矿流体包裹体的He-Ar同位素体系[J].高校地质学报,2003(04):661-666. |
| [25] | MaArthur J M;Walsh J N .Rare earth geochemistry of phosphorites[J].Chemical Geology,1984,47:191. |
| [26] | Bonnoit-Courtois C;Flicoteaux R .Distribution of rare-earth and some trace elements in Tertiary phosphorites from the Senegal Basin and their weathering products[J].Chemical Geology,1989,75:311. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%