珠江口盆地

南海珠江口盆地工程地质分区与评价

Engineering geological zonation and related evaluation of the Pearl River Mouth Basin

珠江口盆地珠三坳陷层序地层样式分析

Analysis on sequence formation styles of zhu-3 depression in Pearl River Mouth Basin

珠江口盆地C（30）4-甲基甾烷的研究

Study on c_ ( 30 ) 4-methyl steranes of Pearl River Mouth Basin

指出珠江口盆地东部地区天然气中的烃类气体（包括CO2气藏中的少量烃类气体）都是有机成因。CO2气体有有机成因、无机成因，也有混合成因。

Hydrocarbon gas in natural gas ( including that in CO2 reservoir ) is of organic origin in eastern Pearl River Mouth Basin , While CO2 gas is either organic or inorganic or mixed origin .

根据生物标志化合物组合特征，珠江口盆地番禺低隆起凝析油可分为A类油和B类油，其中A类油又可分为A1类油和A2类油。

Condensates in Panyu Low Uplift , Pearl River Mouth basin , can be divided into Type A and B , with Type A into Sub-type A1 and A2 , according to their biomarker combinations .

BAES盆地模拟评价系统及其在珠江口盆地的应用

The baes system of basin simulation and evaluation and its application in the Pearl River Mouth Basin

珠江口盆地东部和台湾西部海域广泛分布的海相中生界发育3个方向的4种断层：NE向逆断层、NE向正断层、WNW&EW向正断层和NW向左行平移断层。

Four types of faults trending in three directions have developed in marine Mesozoic of the eastern Pearl River Mouth basin and offshore western Taiwan , including NE ? trending reverse faults , NE ? trending normal faults , WNW-EW ?

南海珠江口盆地LH-19-4-1井新近纪有孔虫生物地层研究

The Neogene foraminiferal stratigraphy of the lh-19-4-1 bore hole , Pearl River mouth basin , South China Sea

通过对Sonne号调查船第50航次的地震剖面资料分析，结合一些钻井资料，认为珠江口盆地中部第四纪以来的沉积可分为四套，其中层Ⅰ是浅海相沉积，属全新世；

Based on data of seismic profiles from SO 50 and several wells , the Quarternary sediments of the central part of Pearl River Mouth Basin can be divided into four layers .

通过BAES盆地模拟评价系统在珠江口盆地各坳陷区的实际应用，可以看出该盆地的油气资源分布特点，同时也可以看出这一盆地模拟系统的主要特点。

Through the application of the BAES system in the Pearl River Mouth Basin , it can be seen with the distributive characteristics of hydrocarbon resources in this basin and the main characteristics of this basin simulation system . basin simulation and evaluation ; the model bank ;

1991年以来，该方法在珠江口盆地的实际应用中取得了较好的效果：为H3-NE井和H4-1井主要目的层的含油气性作出了正确的预测，对生物礁的鉴别也有其独到之处。

Fairly good results have been obtained in application of this method in the Pearl River Mouth Basin since 1991 , hydrocarbons in the major target zones in the wells H3-NE and H4-1 are correctly predicted . It also has a unique application in recognizing carbonate reefs .

珠江口盆地海底稳定性分析

An analysis on seafloor stability of the Pearl River Mouth Basin

珠江口盆地中新生代主要断裂特征和动力背景分析

Meso-Cenozoic faults in Zhujiang River Mouth Basin and their geodynamic background

珠江口盆地珠三坳陷石油体系

Petroleum system in Zhu ⅲ depression of Pearl River Mouth Basin

珠江口盆地东部含油气系统

Oil-gas systems in the east part of Pearl River Mouth Basin

珠江口盆地陆相烃源岩与油气生成

Nonmarine source rock and petroleum formation of Pearl River Mouth Basin

珠江口盆地西部勘探方向与勘探战略

Exploration target and strategy in western part of Pearl River Mouth Basin

珠江口盆地上第三系油源的初步探讨

Preliminary study of Upper Tertiary oil source in Zhujiang River Mouth Basin

珠江口盆地基岩油气藏远景探讨

Exploration perspective of basement hydrocarbon accumulations in the Pearl River Mouth Basin

珠江口盆地珠一坳陷油气资源再评价

Hydrocarbon resources reassessment in Zhu ⅰ depression , Pearl River Mouth basin

珠江口盆地的断块掀斜构造

Tilted block structures in the Pearl River Mouth Basin

珠江口盆地中新世碳酸盐岩及生物礁相研究

Study of Miocene carbonate and reef facies in the Pearl River Mouth Basin

珠江口盆地恩平凹陷油气充注期次及时间

Hydrocarbon Accumulation Period and Age in Enping Depression , Pearl River Estuary Basin

珠江口盆地惠州凹陷及其邻区原油分类和分布特征

Classification and distribution of oil in Huizhou Depression of Pearl River Mouth Basin

珠江口盆地海相上渐新统

Marine upper Oligocene in the Zhujiang River Mouth Basin

珠江口盆地地质构造的基本特征

Basic geological structural features of the basin at the mouth of Pearl River

南海珠江口盆地深水扇系统的发现

Discovery of deep-water fan system in South China Sea

珠江口盆地东部海相中生界识别及分布

Mesozoic marine sediment identification and distribution in the eastern Pearl River Mouth basin

珠江口盆地深水区新生代构造沉积演化

Cenozoic tectonic and sedimentary evolution of deepwater area , Pearl River Mouth Basin

珠江口盆地东部定量生物地层划分对比及沉降历史分析

A quantitative biostratigraphic correlation and Subsidence Analysis for Eastern Zhujiang River Mouth Basin