摘要
对甘南和滇池现代沼泽沉积物中三、四环萜类的研究表明:在现代沼泽沉积物中,具类海松烷骨架的化合物以海松烷型化合物数量最多,而松香烷型化全物数量较少;长链三环萜烷中存在C_(21)C_(23)和C_(24)化合物以C_(23)为顶点的倒“V”字型分布,正常四环萜烷呈以高碳数为主峰的“阶梯型”分布,有意义的的是样品中均含脱-A-羽扇烷和壳松烷四环萜烷。在早期成岩过程,海松烷型二萜类主要是形成烯烃和烷烃,而松香烷型二萜类主要是芳构化作用。
In this paper the authors studied characteristics of distribution and evolution of in- and tetracyclic diterpenoid compounds and their significance of organic geochemistry in modern marsh sediments from southern Gansu and Dianchi lake, Yunnan by means of GC-MBTricyclic diterpenoids detected in modern marsh sediments are pimarane, dehydroabietane, dehydroabietin, nine kindes of pimaradiene and long chain tricyciic terpane ( C19- C27) . In this paper, mass spectra of A 8, 9- Sandaracopimaradiene, 13-Isopimaradiene, Isopimara-7, 15-diene compounds are first reported in China.Tricyclic diterpenoids with pimarane and abietane skeletons come from diterpenoidacrd in higher plant resins, therefore they reflect organic matter types in modern marsh sediments.Distributional types of long chain tricyciic terpanes in modern marsh sediments are similar to those in modern lake and sea water sediments. They all have reverse' V' type that C23 compound is apex in C21,. = C23 and C24 compounds, therefore distributiona characteristics of long chain tricyciic terpanes almost have not significance of indicating sedimentary environments.Tetracyclic terpanes in modern marsh sediments are composed mainly of normal tetracyclic terpanes (C23-C26), kaurane and de-A-lupane.Normal tetracyclic terpanes ha\ e distributional characteristics of step type with major peak of C26compound.This type of dis- tribution may reflect sedimentary environment of higher plant input. Kaurane come from diterpene in higher plants; de-A-lupane may is the products formed from lupenoid precursors by photochemical degradation or biochemical degradation, therefore they all are biomarker compounds of indicating higher plant input.In the early stage of diagenesis, evolution of tricyclic terpenoids is obvious.Diterpenoids of pimarane type are mainly composed of pimanthrenes and the ratio of pimanthrenes to pimarane decreases with increasing depth. These show that diagenetic products of pimarane- type diterpenoids mainly are pimanthenes formed by decarboxylation But the
出处
《沉积学报》
CAS
CSCD
北大核心
1990年第2期113-119,共7页
Acta Sedimentologica Sinica
