Please use this identifier to cite or link to this item: http://dspace.mediu.edu.my:8181/xmlui/handle/10261/2485
Title: The Impact of carbonate cements on the reservoir quality in the Napo Fm sandstones (Cretaceous Oriente Basin, Ecuador)
Keywords: Carbonate cement
Geochemistry
Sandstone reservoirs
Oriente Basin
Ecuador
Publisher: Consejo Superior de Investigaciones Científicas (España)
Universidad de Barcelona
Description: The Napo Formation of Lower-Middle Cretaceous age in the Oriente basin, Ecuador, is an important sandstone reservoir. The formation is buried at a depth of 1,500 m in the eastern part of the basin and down to 3,100 m in the western part. The sandstones display higher porosity values (av. 20%) than other reservoirs in the region. These sandstones were deposited in fluvial, transitional and marine environments, and they are fine to medium grained quartzarenites and subarkoses. The principal cements are carbonates, quartz overgrowth and kaolin, with scarce amounts of pyrite-pyrrhotite and chlorite. Carbonate cements include: Eogenetic siderite (S1), mesogenetic and post-compactional calcite, Fe-dolomite, ankerite and siderite (S2). Early siderite and chlorite helped to retain porosity by supporting the sandstone framework against compaction. Dissolution of feldspars and carbonate cements are the main mechanism for secondary porosity development during mesodiagenesis. The high intergranular volume (IGV) of the sandstones indicates that cementation is the predominant contributor to porosity loss in the reservoir and that the precipitation of the carbonate cement occurred in early and late diagenetic stages. The stable–isotope composition of the S1 siderite is consistent with precipitation from meteoric waters in fluvial sandstones, and from mixed meteoric and marine waters in transitional sandstones. The low δ18O‰ values of some of these carbonate phases reflect the replacement and recristalization from S1 to S2 siderite at deep burial and high temperature. Textural evidence, together with a low Sr content, also suggests that siderite (S1) in fluvial environment is an early cement that precipitated from meteoric waters, near the sediment/ water interphase, followed by the generation of calcite with a higher Fe and Mg content. However, due to this higher Mg content, siderite S2 could have precipitated as a result of the thermal descarboxilation of the Mg rich organic matter. The progressive decrease in δ18O values in all carbonate cements could be related to the continued precipitation at different temperatures and burial depth.
This work was partially funded by Project BTE2003- 06915 and 01-LEC-EMA 10F of the European Science Foundation, REN2002-11404-E from the Spanish Ministry of Science and Technology. We acknowledge the suggestions and comments made by the reviewers Dr. Anna Travé and Dr. Sadom Morad, and the associate editor Dr. L. Cabrera, which helped to improve the paper.
Peer reviewed
URI: http://dspace.mediu.edu.my:8181/xmlui/handle/10261/2485
Other Identifiers: Geologica Acta 5(1): 89-107 (2007)
1695-6133
http://hdl.handle.net/10261/2485
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