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...

地质学报 2005

松辽盆地白垩系泉头组碎屑沉积岩Nd、Pb同位素组成及成岩物质来源初步探讨

, PP. 653-660

Keywords: Nd、Pb同位素,白垩系泉头组,碎屑沉积岩,花岗岩,物质来源,松辽盆地,庆安地区

Full-Text Cite this paper Add to My Lib

Abstract:

本文研究了松辽盆地庆安地区盖层白垩系泉头组碎屑沉积岩以及相关基底花岗岩的Nd、Pb同位素组成。结果表明,白垩系泉头组碎屑沉积岩和花岗岩都为地壳物质产物,其物质来源以先存陆壳的再循环物质为主,并且碎屑沉积岩和粗粒黑云母花岗岩和粗粒似斑状二长花岗岩的物质来源主要为上地壳,而细粒碱长花岗岩主要为下地壳;Pb同位素组成表明碎屑沉积岩和粗粒黑云母花岗岩和粗粒似斑状二长花岗岩属于同源产物,细粒碱长花岗岩则不同于前两者。通过对比Nd同位素组成,表明松辽盆地庆安地区的物质环境和物源与华北地块相近,而不同于华南地块,似应归于华北地块范畴。

References

[1]	王嗣敏,刘招君,董清水,等.2000.陆相盆地层序地层形成机制分析--以松辽盆地为例.长春科技大学学报,30(2):139～144.
[2]	闫全人,高山林,王宗起,等.2002.松辽盆地火山岩的同位素年代、地球化学特征及意义.地球化学,31(2):169～179.
[3]	张宏飞,高山,张本仁,等.2001.大别山地壳结构的Pb同位素地球化学示踪.地球化学,30(4):395～401.
[4]	赵杰,罗梅,刘峰,杨雪虹.2002.松辽盆地北部可地浸砂岩型铀矿形成条件与分布特征.成都理工学院学报,29(2):137～143.
[5]	Allegre C J, Othman D B. 1980. Nd-Sr isotopic relationship in granitoid rocks and continental crust development: chemical approach to orogenesis. Nature,286:335～342.
[6]	Chen Duofu, Chen Guangqian, Chen Xianpei. 2002. Lead isotope geochemistry of Wengfu phosphorite deposits of Doushantuo age of Neoproterozoic and its application. Geochimica, 31 ( 1 ): 49～54 (in Chinese with English Abstract).
[7]	DePaolo D J. 1981. Neodymium isotopes in the colorado front range and crust-mantle evolution in the Proterozoic. Nature,291:193～196.
[8]	Faure G. 1986. Principles of isotope geology. 2nd ed. New York:John Wiley and Sons,321～347.
[9]	Goldstein S L,O\'Nions R K,Hamillton P J A. 1984. Sm-Nd isotopic study of atmospheric dusts and particulates from major river system. Earth Planet. Sci. Lett. , 70: 221～236.
[10]	Jiang Sihong, Yang Yueqing, Nie Fengjun, Wang Jianmin, Li Fuxi, Jia Linzhu. 2001. Studies on the sulfur and lead isotopic geology of the Zhulazhaga gold deposit in the Alxa district, Inner Mongolia,China. Geological Review, 47 (4): 438～445 (in Chinese with English Abstract).
[11]	Kagami H,Iwata M,Sano S, Honma H. 1987. Srand Nd compositions and Rb、 Sr、 Sm and Nd concentrations of standard samples.Technical Rep. ISEI Okayama Uni. Ser. B, 1～16.
[12]	Li Long,Zheng Yongfei, Zhou Jianbo. 2001. Dynamic model for Pb isotope evolution in the continental crust of China. Acta Petrologica Sinica, 17 (1): 61～68 (in Chinese with English Abstract).
[13]	Liu Jiaqi. 1989. The fomation and evoltion of the rift system in Northeastern China. Sci Ceol. Sinica, 17 (3): 209～216 (in Chinese with English Abstract).
[14]	McLennan S M, Taylor S R. 1983. Continental freeboard,sedimentation rates and growth of continental crust. Nature, 306:169～172.
[15]	O\'Nions R K, et al. 1983. A Nd-isotopic investigation of sediments related to crustal development in British Isles. Earth Planet. Sci.Lett. , 63:229～240.
[16]	The Compiling Group of Petroleum Geology. 1993. Petroleum geology of China (Vol. 2 )-Daqing, Jilin Oil Field. Beijing: Petroleum Industrial Publishing House, 13～347 (in Chinese with English Abstract).
[17]	Volpe A M, Macdougall J D. 1990. Geochemistry and isotopic characteristics of mafic (phulad ophiolite) and related rocks in the delhi supergroup, rajasthan, India: implications for rifting in the Proterozoic. Precamb. Res. ,48:167～191.
[18]	Wang Gan, Jin Ming, Teng Runqiu, Zhang Bangtong. 2003.Relationship of geochemical characteristics of target horizon and getaceous depositional system to uranium mineralization in Qingan Area, Songliao Basin. Uranium Geology, 19 (2): 73～80 (in Chinese with English Abstract).
[19]	Xu Deru, Liang Xinquan, Tang Hongfeng. 2002. Geochemical characteristics of Baoban Group metasedimentary rocks in Western Hainan, China. Geochimica, 31 (2): 153～160 (in Chinese with English Abstract).
[20]	Yan Quanren, Gao Shanlin, Wang Zongqi, et al. 2002. Geochronology and geochemistry of volcanic rocks from the Songliao Basin and their implications. Geochimica, 31 (2): 169～179 (in Chinese with English Abstract).
[21]	Zhang Hongfei, Gao Shan, Zhang Benren, et al. 2001. Pb isotopic study on crustal of Dabie mountains,central China. Geochimica,30(4):395～401 (in Chinese with English Abstract).
[22]	Zhao Zhonghua, Liu Guangchuan, Cui Changyuan. 1998. The prospecting direction for sandstone type uranium depositin interlayered oxidation zonein the South-west of Songliao Basin.Mineralogy Petrology and Geochemistry, 17 (3): 156～159 (in Chinese with English Abstract).
[23]	陈多福,陈光谦,陈先沛.2002.贵州瓮福新元古代陡山沱期磷矿床铅同位素特征及来源探讨.地球化学,31(1):49～54.
[24]	高瑞祺,萧德铭.1995.松辽及其外围盆地油气勘探新进展.北京:石油工业出版社,1～229.
[25]	胡恭任,章邦桐.1998.赣中变质基底的Nd同位素组成和物质来源.岩石矿物学杂志,17(1):35～40.
[26]	江思宏,聂凤军.2003.冀西北水泉沟A杂岩体成因的Nd同位素证据.地质论评,49(4):355～360.
[27]	刘嘉麒.1989.论中国东北大陆裂谷系的形成与演化.地质科学,17(3):209～216.
[28]	凌洪飞,沈渭州,章邦桐,等.1992.江西修水地区震旦纪前后沉积岩的Nd同位素组成和物质来源.岩石学报,8(2):190～194.
[29]	沈渭洲,朱金初,刘昌实.1993.华南基底变质岩的Sm-Nd同位素及其对花岗岩类物质来源的制约.岩石学报,9(2):115～124.
[30]	包志伟,赵振华,张佩华,王一先.2003.张家口水泉沟正长岩杂岩体成因的REE和Sr、Nd、Pb同位素证据.地质论评,49(6):596～604.
[31]	大庆油田石油地质志编写组.1993.中国石油地质志(卷二)大庆油田.北京:石油工业出版社,13～347.
[32]	黑龙江省地质矿产局.1993.黑龙江省区域地质志.北京:地质出版社,56～459.
[33]	江思宏,杨岳清,聂凤军,王剑民,李福喜,贾林柱.2001.阿拉善地区朱拉扎噶金矿床硫、铅同位素研究.地质论评,47(4):438～445.
[34]	李龙,郑永飞,周建波.2001.中国大陆地壳铅同位素演化的动力学模型.岩石学报,17(1):61～68.
[35]	刘招君,王东坡,刘立,等.1992.松辽盆地白垩纪沉积特征.地质学报,66(4):327～338.
[36]	陆松年,李怀坤,李惠民,等.1997.金矿密集区的基底特征与成矿作用研究--以小秦岭、冀北和胶北金矿密集区为例.北京:地质出版社,39～44.
[37]	王敢,金明,滕润球,章邦桐.2003.松辽盆地庆安地区白垩纪沉积体系和目的层地球化学特征及与铀矿化的关系.铀矿地质,19(2):73～80.
[38]	许得如,梁新权,唐红峰.2002.琼西抱板群变质沉积岩地球化学研究.地球化学,31(2):153～160.
[39]	于文卿.1998.松辽盆地演化历史和铀成矿地质条件.铀矿地质,14(5):257～264.
[40]	赵忠华,刘广传,崔长远.1998.松辽盆地西南部层间氧化带砂岩型铀矿找矿方向.矿物岩石地球化学通报,17(3):156～159.
[41]	Bao Zhiwei, Zhao Zhenhua, Zhang Peihua, Wang Yixian. 2003. REE,Sr, Nd, and Pb isotopic evidence for the petrogenesis of the Shuiquangou syenite complex in NW Hebei Province, China.Geological Review, 49 (6): 596～604 (in Chinese with English Abstract).
[42]	DePaolo D J,Johnson R W, et al. 1979. Genesis in the New Britain Island-arc:constraints from Nd and Sr isotopes and trace element fattems. Contrib. Mineral Petrol. , 70:367～379.
[43]	Doe B R,Stacey J S. 1974. The application of lead isotopes to the problems of ore genesis and ore prospect evalution. Econ. Geol. ,69 (6): 757～776.
[44]	Gao Rui-qi, Xiao De-ming. 1995. Programs of petroleum and gas exploratioms in the Songliao Basin and its adjacert basins. Beijing:Petroleum Industry Publishing House, 1～229 (in Chinese).
[45]	Hu Gongren, Zhang Bangtong. 1998. Neodymium isotope composition and source materials of the meta-basement in central Jiangxi Province. Acta Petrologica et Mineralogica, 17 (1): 35～40 (in Chinese with English Abstract).
[46]	Jiang Sihong,Nie Fengjun. 2003. Nd-isotope constrants on origin of the Shuiquangou intrusive complex, North-Western Hebei, China.Geological Review, 49 ( 4 ): 355～360 (in Chinese with English Abstract).
[47]	Kagami H,Yokoose H,Homma H. 1989.87Sr/86Sr and 143Nd/144Nd ratios of GSJ rock reference samples: JB-1a、 JA-1 and JG-1a.Geochem. J. ,23:209～214.
[48]	Ling Hongfei,Shen Werzhou,Zhang Bangtong, et al. 1992. Difference in neodymium isotope composition and source materials between pre- and post-sinian deposits in Northwestern Jiangxi. Acta Petrologica Asinica, 8 (2): 190～194 (in Chinese with English Abstract).
[49]	Liu Zhaojun, Wang Dongpo, Liu Li, et al. 1992. Sendimentary characteristics of the cretaceous Songliao Basin. Acta Ceologica Sinia, 66(4):327～338(in Chinese with English Abstract).
[50]	Lu Songnian, Li Huaikun, Li Hueimin, et al. 1997. Study on the basement characteristics and ore-forming processes in massive gold mineialization area-case study of the Xiaoqinling, North Hebei and North Shangdong areas. Beijing: Geological Publishing House,39～44(in China).
[51]	MeCulloch M T, Wasserburg G J. 1978. Sm-Nd and Rb-Sr chronology of continental crust formatiom. Science, 200:1003～1011.
[52]	Sano S, Tazaki K. 1994. Preparation of samples for isotopic analysis of Sr and Nd in natural rocks and minerals and analytical results of rock reference sample JB-1. Mem. Fac. Educ. Ehime Univ. ,Nat.Sci. , 15 (1): 55～65 (in Japanese with English abstract).
[53]	Shen Werzhou, Zhu Jinchu, Liu Changshi. 1993. Sm-Nd isotope composition of the meta-basement and restricting source materials of granites, South China. Acta Petrologica Sinica, 9 (2): 115～124(in Chinese with English Abstract).
[54]	The Geologic and Miningic Bureau of Heilongjiang Pronvice. 1993.Regional Geoiogy of Heilongjiang Pronvice. Beijing: Geological Publishing House, 56～459 (in Chinese with English Abstract ).
[55]	Wang Simin, Liu Zhaojun, Dong Qingshui, et al. 2000. The mechanism of formation analysis of continental sequence stratigraphy. Journal of Changchun University of Science and Technology, 30(2): 139～144(in Chinese with English Abstract).
[56]	Wasserburg G, Jacobsen S B, DePaolo D J, et al. 1981. Precise determination of Sm/Nd ratios. Sm and Nd Isotopic Abundances in Standard Solutions. Geochim. Cosmochim Acta, 45: 2311～2323.
[57]	Yu Wenqing. 1998. Evolution history and uranium metallogenic geological conditions of Songliao Basin. Uranium Geology,14(5):257～264(in Chinese with English Abstract).
[58]	Zhao Jie, Luo Mei, Liu Feng, Yang Xuehong. 2002. Formation conditions distribution features of situ leachableg sandstone-type uranium mineralization in the North of Songliao Basin. Journal of Chengdu University of Technology, 29(2):137～143(in Chinese with English Abstract).

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133