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The oolitic shoals of the Triassic carbonate platform margin in the Yudongzi(鱼洞子) outcrop of Erlangmiao(二郎庙) area in the northwestern Sichuan(四川) basin present a scarce opportunity to quantitatively describe their diagenesis and its effects on the acoustic velocity.Using a detailed field geologic survey,profiles illustration of typical depositional system,and systematic testing,five types of diagenesis have been identified in the oolitic shoals:micritization,cementation,compaction and pressolution,dissolution,and dolomitisation.The cementation is composed of four subtypes(micrite cements,fibrous calcite cements,granular calcite cements,and blocky calcite cements).The dissolution is formed from three subtypes(freshwater selective dissolution,burial non-selective dissolution,and burial selective dissolution).The dolomitisation is composed of three subtypes(fine-crystalline dolomites,microcrystalline dolomites,and medium-crystalline dolomites).In order to quantitatively describe the diagenetic fabric of oolitic shoals,the micritic grain content,calcite cement content,mean pore diameter,pore types,dolomite content,and dolomite types have been evaluated.Based on these data,the relationship between the acoustic velocity and diagenesis of oolitic shoals has been established.The results show that the diagenetic fabric is linearly related with the acoustic velocity,and the general trend observed is as expected a decrease of velocity as the micritic grain content,mean pore diameter and dolomite content increase,or the sparite cement content decreases.This study will demonstrate that the transformation of diagenetic facies will probably make the petrophysical properties of the oolitic shoals regularly changed.The reflection configuration of diagenetic facies in the oolitic shoals can be shown in the synthetic seismic model simulated according to the P-wave impedance and S-wave impedance.
The oolitic shoals of the Triassic carbonate platform margin in the Yudongzi (out of the Erlangmiao) area in the northwestern Sichuan (Sichuan) basin present a scarce opportunity to quantitatively describe their diagenesis and its effects on the acoustic velocity. Use a detailed field geologic survey, profiles illustration of typical depositional system, and systematic testing, five types of diagenesis have been identified in the oolitic shoals: micritization, cementation, compaction and pressolution, dissolution, and dolomitisation. The cementation is composed of four subtypes micrite cements, fibrous calcite cements, granular calcite cements, and blocky calcite cements. The dissolution is formed from three subtypes (freshwater selective dissolution, burial non-selective dissolution, and burial selective dissolution). The dolomitisation is composed of three subtypes (fine -crystalline dolomites, microcrystalline dolomites, and medium-crystalline dolomites) .In order to quantitatively de scribe the diagenetic fabric of oolitic shoals, the micritic grain content, calcite cement content, mean pore diameter, pore types, dolomite content, and dolomite types have been evaluated.Based on these data, the relationship between the acoustic velocity and diagenesis of oolitic shoals has been established. The results show that the diagenetic fabric is linearly related with the acoustic velocity, and the general trend observed is as expected a decrease of velocity as the micritic grain content, mean pore diameter and dolomite content increase, or the sparite cement content This study will demonstrate that the transformation of diagenetic facies will probably make the petrophysical properties of the oolitic shoals regularly changed. The reflection configuration of diagenetic facies in the oolitic shoals can be shown in the synthetic seismic model simulated according to the P-wave impedance and S-wave impedance.