沉积与特提斯地质
沉積與特提斯地質
침적여특제사지질
SEDIMENTARY GEOLOGY AND TETHYAN GEOLOGY
2014年
2期
79-85
,共7页
林家善%刘建清%冯伟明%景小燕
林傢善%劉建清%馮偉明%景小燕
림가선%류건청%풍위명%경소연
龙马溪组%有机地球化学%古环境%剖面对比
龍馬溪組%有機地毬化學%古環境%剖麵對比
룡마계조%유궤지구화학%고배경%부면대비
Longmaxi Formation%organic geochemistry%palaeo-environment%profile correlation
通过对黔北地区下志留统龙马溪组烃源岩的有机碳、类异戊间二烯烃、萜烷及甾烷等有机地球化学的研究,发现具有以下特征:①正构烷烃分布以单峰分布为主,主峰碳为nC18~nC20;②Pr/Ph比值在0.16~1.24之间,普遍具有植烷优势;③伽马蜡烷指数>0.10;④Ts/(Tm+Ts)比值较高,在0.42~0.61之间,且分布十分稳定;⑤C27/C29甾烷比值在0.65~1.53之间,多数样品具C29甾烷分布优势;⑥有机碳含量普遍大于0.5%,且自下向上呈规律性递减;⑦δ13 Corg <-28‰,普遍偏轻。这些特征均指示研究区龙马溪组的有机物产率较高,同时具有良好的有机质保存环境。通过对比岩性及有机地球化学剖面,将龙马溪组烃源岩划分为3个发育阶段。
通過對黔北地區下誌留統龍馬溪組烴源巖的有機碳、類異戊間二烯烴、萜烷及甾烷等有機地毬化學的研究,髮現具有以下特徵:①正構烷烴分佈以單峰分佈為主,主峰碳為nC18~nC20;②Pr/Ph比值在0.16~1.24之間,普遍具有植烷優勢;③伽馬蠟烷指數>0.10;④Ts/(Tm+Ts)比值較高,在0.42~0.61之間,且分佈十分穩定;⑤C27/C29甾烷比值在0.65~1.53之間,多數樣品具C29甾烷分佈優勢;⑥有機碳含量普遍大于0.5%,且自下嚮上呈規律性遞減;⑦δ13 Corg <-28‰,普遍偏輕。這些特徵均指示研究區龍馬溪組的有機物產率較高,同時具有良好的有機質保存環境。通過對比巖性及有機地毬化學剖麵,將龍馬溪組烴源巖劃分為3箇髮育階段。
통과대검북지구하지류통룡마계조경원암적유궤탄、류이무간이희경、첩완급치완등유궤지구화학적연구,발현구유이하특정:①정구완경분포이단봉분포위주,주봉탄위nC18~nC20;②Pr/Ph비치재0.16~1.24지간,보편구유식완우세;③가마사완지수>0.10;④Ts/(Tm+Ts)비치교고,재0.42~0.61지간,차분포십분은정;⑤C27/C29치완비치재0.65~1.53지간,다수양품구C29치완분포우세;⑥유궤탄함량보편대우0.5%,차자하향상정규률성체감;⑦δ13 Corg <-28‰,보편편경。저사특정균지시연구구룡마계조적유궤물산솔교고,동시구유량호적유궤질보존배경。통과대비암성급유궤지구화학부면,장룡마계조경원암화분위3개발육계단。
The organic geochemical signatures such as organic carbon, isoprenoid alkanes, terpanes and steranes in the source rocks from the Lower Silurian Longmaxi Formation in northern Guizhou are generalized in the following, including (1) single-peak distribution of normal alkane, with the main peak carbon varying between nC18 and nC20; (2) Pr/Ph ratios ranging from 0. 16 to 1. 24, with a general advantage of phytane;(3) gammacerane index>0. 10;(4) Ts/(Tm + Ts) ratios ranging from 0. 42 to 0. 61; (5) C27/C29 ratios ranging from 0. 65 to 1. 53;(6) organic carbon contents generally more than 0. 5%, with a gradual decrease from bottom to top, and (7) δ13 Corg< -28‰. The organic geochemical signatures outlined above indicate higher organic carbon productivity and reduction environments in the Longmaxi Formation. The source rocks in the Formation may have experienced three stages of evolution, including (1) higher organic carbon productivity and highly reduced environment in the basal part;(2) moderate organic carbon productivity and reduced environment in the middle part, and (3) lower organic carbon productivity and slight redox environment in the upper part.