The origin characteristics of Cambrian-Ordovician source rocks in the Tarim basin and their contribution to ultra-deep hydrocarbons were the critical fundamental issues for the marine exploration of the Tarim basin. According to molecular and isotopic geochemical analysis and hydrocarbon generation thermal simulation experimental research, the geochemical parameters of oil source correlation are systematically analysed. It is considered that the distribution of C₂₆~C₃₀ sterane in crude oil, gamma wax index, the ratio of tricyclic terpane to pentacyclic terpane and n -alkane isotope and other oil source tracing indicators are susceptible to the influence of thermal evolution degree, biodegradation and water rock redox, covering up the differences of parent source input and sedimentary environment. Odd even dominance of n -alkanes, abnormal distribution of tricyclic terpanes, heavierin δ13C of whole oil and n -alkanes, and the appearance of high content of polycyclic aromatic hydrocarbons are mainly due to the influence of abnormal thermal action caused by high-post maturity and magmatic intrusion or hydrothermal activity, rather than reflecting the geochemical characteristics of hydrocarbon generating biological materials in -O1 source rocks. Local sulfate thermochemical reduction reaction leads to the incorporation of inorganic sulfur into thiophene compounds, resulting in the obvious increase of organic sulfur isotope value, which cannot reflect the characteristics of original source. The characteristics of typical source rocks and end member oils currently selected are likely to be the result of multi-superposition of secondary alterations. By analyzing the formation environment and biological parent material types of middle mature Cambrian-Ordovician source rocks with significant differences in thermal evolution, we show that the oil source differences of Cambrian Ordovician source rocks in the platform basin area of Tarim basin are mainly controlled by sedimentary facies; the marine crude oil in the middle and west of northern Tarim is mainly related to the source rocks in anaerobic environment, and the crude oil in Central Tarim is mainly from the source rocks of deep-water basin facies. To re-establish reliable oil source correlation parameters between crude oils with different physicochemical properties and high over mature source rocks, we need to consider the multiple effects of complex geochemical processes such as maturity and secondary transformation at the same time to determine their genesis and source.