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抚顺煤田始新统沉积演化及其对煤和油页岩发育的控制
许圣传^1,2,刘招君²,董清水²,柳世友³,柳蓉²,孟庆涛²
(1.石家庄经济学院资源学院，河北石家庄050031;2.吉林大学地球科学学院，吉林长春130062;3.中国煤炭地质总局吉林省煤炭地质调查研究院，吉林长春130033)

摘要:

通过野外露头测量、沉积特征分析、沉积相恢复、孢粉组合和地球化学数据对比，对抚顺煤田始新统沉积演化过程及其对煤和油页岩发育的控制作用进行研究。结果表明:抚顺煤田始新统从古城子组扇三角洲和沼泽环境开始，经历了计军屯组浅湖和半深-深湖环境，最终演化为西露天绀旋问性沉积;古城子组煤层主要在气候温暖潮湿、河流输入持续增加的淡水沼泽环境中沉积;计军电组油贞岩主要在气候向寒冷干燥条件转化、河流输人减少、水体变咸的半深-深湖坏境中沉积;贫矿油页岩作为煤到富矿油页岩的过渡层位昆示了高等楂物和水生有机质双重输入的特征;煤和油页岩沉积条件的不同造成有机质母质来源的差异和水介质条件的改变，引起与油贞岩共生煤系的 “富氢化”和牛油潜力的增大。

关键词: 抚顺煤IU 沉积演化；油页岩；始新统；地球化学

DOI：10.3969/j.issn.1673-5005.2012.02.008

分类号:P618. 1;TE 121

基金项目:M家&然科学基金项B (40972076)；国七资源部"十一五”重大科技创新项目(200S0106)

Eocene sedimentary evolution and its control over coal & oil shale development in Fushun Coalfield

XU Sheng-chuan^1,2,LIU Zhao-jun²,DONG Qing-shui²,LIU Shi-you³,LIU Rang²,MENG Qing-tao²

(1. College of Resources, Shijiazhuang University of Economics, Shijiazhuang 050031, China ;2. College of Earth Sciences，Jilin University, Changchun 1300621 China;3. Jilin Coal Geologic Survey，China National Administration of Coal Geology，Changchun 130033, China)

Abstract:

Eocene sedimentary evolution and its control over development of coal and oil shale in Fushun Coalfield were investigated through out-crop measurement, deposit character analysis, facies reconstruction, as well as pollen assemble and geochemistry data comparison. The results indicate that the sedimentary evolution started from fan delta and swamp facies associations of the Guchengzi fonualion f then underwent shallow lake and semi-profundal to profundal facies associations of Jijuntun formation, eventually evoluted into cycle deposit of the Xilutian formation. Coal seam of Guchengzi formation was deposited in fresh-water swamp with increasing river inflow under warm and humid dimate. However, oil shale of Jijuntun formation was deposited in saline semi-profundal to profundal lake with decreasing river inflow under relatively cold and arid climate. Lean oil shale as transitional ayer from coal to rich oil shale implies organic input of aquatic organism together with high plant. Sedimentary environment changes of coal and oil shale cause variation of organic origin and water condition, resulting in u hydrogen-enrich-ment" and increasing hydrocarbon potential of coal deposit associated with oil shale in Fushun Coalfield.

Key words: Fushun Cualfieid sedimentary evolution oil shale Eocene geochemistry