楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

庄汉平; 冉祟英; 何明勤; 卢家烂; 刘金钟

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楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟

文章导航 > 沉积学报 > 1996 > 14(3): 129-138

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

引用本文:

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

Zhuang Hanping, Ran Chongying, He Mingqin, Lu Jialan, . Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China[J]. Acta Sedimentologica Sinica, 1996, 14(3): 129-138.

Citation:

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

引用本文:

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

Citation:

楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

1.
中国科学院广州地球化学研究所广州 51164
2.
昆明工学院国土系, 昆明 650093

详细信息

作者简介:
庄汉平男 26岁博士生有机地球化学

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文章访问数: 228
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被引次数: 0

Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

1.
Guanzhou Institute of Geochemistry, Chinese Academy of Sciences, Guanzhou 51164
2.
Geology Department, Kunming Institute of Technology, Kunming 65009

摘要

摘要:
云南楚雄中生代陆相盆地发育了良好的含煤、含铜和含膏盐的三位一体的建造组合。煤、膏盐和砂岩铜矿床中有机质在丰度、类型、成熟度、可溶有机质及生物标志物上既有一定差异，又有一定的相似性。煤和膏盐均参与了砂岩铜矿成矿作用，煤系为改造成矿作用提供了丰富的还原性有机质，膏盐提供了氧化性的 SO₄^2-，间接提供了硫源。
- 楚雄盆地 /
- 有机质 /
- 膏盐 /
- 砂岩铜矿床 /
- 有机地球化学
Abstract:
There occur, from down to up, coal-bearing formation (T₃p-T₃g), red cupiferous terrigenous formation (J-K₂d) and red evaporite terrigenous formation (K₂j-K₂z) in the Mesozoic continental Chuxiong basin, Yunnan Province, China. Differences in and relationships of them were stated in the present paper on the basis of studies on assemblage of formations, total organic carbon (TOC), dispersive organic matter soluble organic matter and kerogen. Some conclusions were obtained as follows: (1). the Kangdian continental rift controlled the occurrence of evaporites, copper deposits and coals . Sandstone-hosted copper deposits occurred in the red sandstone which formed when the basin withered, and T OC decreased and salt content increased in the lake water. (2). Organic matter ( OM ) being the type Ⅱ₂ in evaporites had a lower content, and had reached the higher mature stage. However, OM being the type Ⅲ in coal-bearing formation was the richest and had also reached the higher mature stage. OM in copper deposit was the type Ⅲ, but it had even reached the ultimate methane stage. (3). OM and evaporites had played an improtant role in the formation of the copper deposit. OM came mainly from beds and near mudrocks and mobilized and transported copper during the diagenetic mineralization stage. However, during the transformation OM came mainly from coal-bearing formation in the form of reduced copper-and OM-rich deep fluid, while natural water leached evaporites and formed oxidized SO₄^2--rihc saline water. Metallic sulfide formed during the mixing of deep fluid and SO₄^2--rich saline water because OM reduced SO₄^2- into H₂S.
- Chuxiong basin /
- sandstone-hosted copper deposits /
- evaporite /
- organic matter organic geochemistry /

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参考文献(8)

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[2]	冉祟英, 张智筠, 刘卫华, 何明勤, 陈好寿. 康滇裂谷旋回与铜矿层楼结构及其地球化学演化. 中国科学(B 辑) , 1994, (3): 325-330.
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[4]	史继杨. 陆相沉积物和原油中的 β-胡萝卜烷和伽玛蜡烷. 有机地球化学论文集, 北京: 科学出版社, 1986, 59-67.
[5]	王锐良等. 不同沉积环境中伽玛蜡烷的分布特征及其成因探讨. 有机地球化学开放研究实验室年报(1988). 北京: 科学出版社, 1988, 100-107.
[6]	周光甲等. 常用的甾、萜烷类生物标志物指标应用有效性探讨. 有机地球化学论文集, 北京: 科学出版社, 1986, 39-51.
[7]	涂光炽等. 中国层控矿床地球化学 (第3卷). 北京: 科学出版社, 1988, 27-36.
[8]	傅家谟, 史继扬. 石油演化理论与实践(Ⅰ)-石油演化的机理与石油演化的阶段.地球化学, 1975 (2) : 87-104.

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[16]	王新明, 盛国英, 傅家谟, 闵育顺. 广州感潮河段底泥有机质特征 . 沉积学报, 1997, 15(2): 232-235.
[17]	林清, 王国尚, 耿安松, 张干. 青藏高原多年冻土湖沼沉积中的有机质 . 沉积学报, 1997, 15(S1): 24-29.
[18]	周中毅, 范善发, 谢觉新. 晶包有机质——认识碳酸盐岩生油机制的另一侧面 . 沉积学报, 1991, 9(S1): 112-119.
[19]	施继锡. 有机包裹体作为碳酸盐岩区油气远景评价标志的初步研究 . 沉积学报, 1991, 9(S1): 163-170.
[20]	鲍根德. 太平洋西部深海沉积物中有机质、氮、磷的初步研究 . 沉积学报, 1987, 5(1): 114-124.

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楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

1. 中国科学院广州地球化学研究所广州 51164

2. 昆明工学院国土系, 昆明 650093

作者简介:

庄汉平男 26岁博士生有机地球化学

收稿日期: 1995-06-08
刊出日期: 1996-09-10

关键词:

楚雄盆地 /

有机质 /

膏盐 /

砂岩铜矿床 /

有机地球化学

摘要:

云南楚雄中生代陆相盆地发育了良好的含煤、含铜和含膏盐的三位一体的建造组合。煤、膏盐和砂岩铜矿床中有机质在丰度、类型、成熟度、可溶有机质及生物标志物上既有一定差异，又有一定的相似性。煤和膏盐均参与了砂岩铜矿成矿作用，煤系为改造成矿作用提供了丰富的还原性有机质，膏盐提供了氧化性的 SO₄^2-，间接提供了硫源。

English Abstract

Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

1. Guanzhou Institute of Geochemistry, Chinese Academy of Sciences, Guanzhou 51164

2. Geology Department, Kunming Institute of Technology, Kunming 65009

Received Date: 1995-06-08
Publish Date: 1996-09-10

Keywords:

Abstract:

There occur, from down to up, coal-bearing formation (T₃p-T₃g), red cupiferous terrigenous formation (J-K₂d) and red evaporite terrigenous formation (K₂j-K₂z) in the Mesozoic continental Chuxiong basin, Yunnan Province, China. Differences in and relationships of them were stated in the present paper on the basis of studies on assemblage of formations, total organic carbon (TOC), dispersive organic matter soluble organic matter and kerogen. Some conclusions were obtained as follows: (1). the Kangdian continental rift controlled the occurrence of evaporites, copper deposits and coals . Sandstone-hosted copper deposits occurred in the red sandstone which formed when the basin withered, and T OC decreased and salt content increased in the lake water. (2). Organic matter ( OM ) being the type Ⅱ₂ in evaporites had a lower content, and had reached the higher mature stage. However, OM being the type Ⅲ in coal-bearing formation was the richest and had also reached the higher mature stage. OM in copper deposit was the type Ⅲ, but it had even reached the ultimate methane stage. (3). OM and evaporites had played an improtant role in the formation of the copper deposit. OM came mainly from beds and near mudrocks and mobilized and transported copper during the diagenetic mineralization stage. However, during the transformation OM came mainly from coal-bearing formation in the form of reduced copper-and OM-rich deep fluid, while natural water leached evaporites and formed oxidized SO₄^2--rihc saline water. Metallic sulfide formed during the mixing of deep fluid and SO₄^2--rich saline water because OM reduced SO₄^2- into H₂S.

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

引用本文:

庄汉平, 冉祟英, 何明勤, 卢家烂, 刘金钟. 楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理[J]. 沉积学报, 1996, 14(3): 129-138.

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楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

作者简介:
庄汉平男 26岁博士生有机地球化学

计量

Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

计量

目录

楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

1. 中国科学院广州地球化学研究所广州 51164

2. 昆明工学院国土系, 昆明 650093

作者简介:

庄汉平男 26岁博士生有机地球化学

English Abstract

Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

1. Guanzhou Institute of Geochemistry, Chinese Academy of Sciences, Guanzhou 51164

2. Geology Department, Kunming Institute of Technology, Kunming 65009

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楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

作者简介: 庄汉平 男 26岁 博士生 有机地球化学

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Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

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出版历程

目录

楚雄盆地有机质、膏盐与砂岩铜矿生成关系的有机地球化学证据与机理

1. 中国科学院广州地球化学研究所广州 51164 2. 昆明工学院国土系, 昆明 650093

作者简介: 庄汉平 男 26岁 博士生 有机地球化学

English Abstract

Organic Geochemical Evidence and Meachanism of the Genetic Relationship between Organic Matter, Evaporite, and Sandstone-hosted Copper Deposits in Chuxiong Basin, China

1. Guanzhou Institute of Geochemistry, Chinese Academy of Sciences, Guanzhou 51164 2. Geology Department, Kunming Institute of Technology, Kunming 65009

全文HTML

目录

友情链接

期刊在线

联系我们

作者简介:
庄汉平男 26岁博士生有机地球化学

1. 中国科学院广州地球化学研究所广州 51164

2. 昆明工学院国土系, 昆明 650093

作者简介:

庄汉平男 26岁博士生有机地球化学

1. Guanzhou Institute of Geochemistry, Chinese Academy of Sciences, Guanzhou 51164

2. Geology Department, Kunming Institute of Technology, Kunming 65009