石油与天然气地质
石油與天然氣地質
석유여천연기지질
OIL & GAS GEOLOGY
2014年
1期
33-41
,共9页
高键%何生%何治亮%周雁%赵明亮
高鍵%何生%何治亮%週雁%趙明亮
고건%하생%하치량%주안%조명량
稀土元素%氧同位素%方解石脉体%油气保存%中扬子地区
稀土元素%氧同位素%方解石脈體%油氣保存%中颺子地區
희토원소%양동위소%방해석맥체%유기보존%중양자지구
rare earth element%oxygen isotope%calcite vein%petroleum preservation%Middle Yangtze region
野外观察中扬子京山地区逆冲推覆带和冲断褶皱带内奥陶系、二叠系和三叠系发育多期沿裂缝分布的方解石脉。通过稀土元素( REE),电子探针,氧同位素,流体包裹体分析及盆地模拟对方解石脉成因进行了研究。奥陶系和三叠系方解石脉REE呈现轻稀土元素(LREE)富集,重稀土元素(HREE)亏损,明显的正铕(Eu)异常,说明成脉流体受到了热液流体的影响;二叠系方解石脉REE总量低,LREE低度富集,HREE配分曲线平坦,中等程度负铈( Ce)异常,显示成脉流体为大气淡水成因。根据电子探针Fe,Mn元素分析,部分奥陶系方解石脉成因与其围岩碳酸盐溶解有关;二叠系方解石脉成因主要与大气淡水淋滤碳酸盐成分有关,三叠系方解石脉成因与其他层位海相碳酸盐成分有关。利用氧同位素温度和流体包裹体均一温度,结合研究区虚拟井的埋藏史和热史模拟结果,推测3套地层裂缝方解石脉体形成深度约在2000~2500 m,形成时间约为距今150~60 Ma。综合方解石脉地球化学特征分析认为,燕山期构造挤压抬升作用伴随的热液流体、成岩流体及地表水下渗作用使京山地区油气保存条件遭受了一定程度的破坏。
野外觀察中颺子京山地區逆遲推覆帶和遲斷褶皺帶內奧陶繫、二疊繫和三疊繫髮育多期沿裂縫分佈的方解石脈。通過稀土元素( REE),電子探針,氧同位素,流體包裹體分析及盆地模擬對方解石脈成因進行瞭研究。奧陶繫和三疊繫方解石脈REE呈現輕稀土元素(LREE)富集,重稀土元素(HREE)虧損,明顯的正銪(Eu)異常,說明成脈流體受到瞭熱液流體的影響;二疊繫方解石脈REE總量低,LREE低度富集,HREE配分麯線平坦,中等程度負鈰( Ce)異常,顯示成脈流體為大氣淡水成因。根據電子探針Fe,Mn元素分析,部分奧陶繫方解石脈成因與其圍巖碳痠鹽溶解有關;二疊繫方解石脈成因主要與大氣淡水淋濾碳痠鹽成分有關,三疊繫方解石脈成因與其他層位海相碳痠鹽成分有關。利用氧同位素溫度和流體包裹體均一溫度,結閤研究區虛擬井的埋藏史和熱史模擬結果,推測3套地層裂縫方解石脈體形成深度約在2000~2500 m,形成時間約為距今150~60 Ma。綜閤方解石脈地毬化學特徵分析認為,燕山期構造擠壓抬升作用伴隨的熱液流體、成巖流體及地錶水下滲作用使京山地區油氣保存條件遭受瞭一定程度的破壞。
야외관찰중양자경산지구역충추복대화충단습추대내오도계、이첩계화삼첩계발육다기연렬봉분포적방해석맥。통과희토원소( REE),전자탐침,양동위소,류체포과체분석급분지모의대방해석맥성인진행료연구。오도계화삼첩계방해석맥REE정현경희토원소(LREE)부집,중희토원소(HREE)우손,명현적정유(Eu)이상,설명성맥류체수도료열액류체적영향;이첩계방해석맥REE총량저,LREE저도부집,HREE배분곡선평탄,중등정도부시( Ce)이상,현시성맥류체위대기담수성인。근거전자탐침Fe,Mn원소분석,부분오도계방해석맥성인여기위암탄산염용해유관;이첩계방해석맥성인주요여대기담수림려탄산염성분유관,삼첩계방해석맥성인여기타층위해상탄산염성분유관。이용양동위소온도화류체포과체균일온도,결합연구구허의정적매장사화열사모의결과,추측3투지층렬봉방해석맥체형성심도약재2000~2500 m,형성시간약위거금150~60 Ma。종합방해석맥지구화학특정분석인위,연산기구조제압태승작용반수적열액류체、성암류체급지표수하삼작용사경산지구유기보존조건조수료일정정도적파배。
Field observation shows that multiple phases of calcite veins occur along fractures in the Ordovician ,Permian and Triassic of overthrust belts and fold-thrust belts in Jingshan region ,Mid-Yangtze.Using rare earth elements(REE), electron microprobe ,oxygen isotope ,fluid inclusions and basin modeling ,this paper analyzed the genesis of these calcite veins.The REE of calcite veins in the Ordovician and Triassic are characterized by enrichment of LREE ,loss of HREE and obvious positive Eu anomaly , indicating that their vein-froming fluids were affected by hydrothermal fluids .Calcite veins in the Permian feature in low REE ,only slight enrichment of LREE ,flat HREE patterns,and the presence of a mod-erate negative Ce anomaly ,implying that their vein-froming fluids originated from meteoric water infiltration .Analysis of Fe and Mn through electron microprobe indicates that some calcite veins in the Ordovician were derived from the dissolu -tion of surrounding carbonate rocks ,the calcite veins in the Permian were derived from leaching and dissolution of carbon-ates by meteoric water ,and those in the Triassic were related to the dissolution of carbonate derived from other horizons . Combined with burial and thermal history modeling of pseudo-wells,analysis of oxygen isotope temperatures and homoge-nized temperature of fluid inclusions show that the calcite vines filling fractures in these 3 sequences were formed at 150~60 Ma ago at burial depth in the range from 2 000 m to 2 500 m.Based on a comprehensive analysis of geochemical be-haviors of the calcite veins ,it is believed that hydrothermal fluids ,vein-froming fluids and meteoric water infiltration asso-ciated with tectonic compression and uplifting during Yanshan Orogeny may have damaged petroleum preservation condi -tions in Jingshan region to some extent .