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Bismantova Formation

Fig. 5. Authigenic ferroan dolomite overgrowth (o) on a core of fractured detrital dolomite (d) from the Bismantova Formation. Overgrowth development preceded precipitation of calcite cement. Similar dolomite overgrowths are observed in the Borello Formation. Back-scattered electron image. Fig. 5. Authigenic ferroan dolomite overgrowth (o) on a core of fractured detrital dolomite (d) from the Bismantova Formation. Overgrowth development preceded precipitation of calcite cement. Similar dolomite overgrowths are observed in the Borello Formation. Back-scattered electron image.
Fig. 6. Pressure dissolution ofForaminifera. Dark grey grains are quartz. Calcite cements the grains and also fills the intraskeletal pores. Back-scattered electron images. (A) Bismantova Formation. Large grain in lower right is a mica. (B) Borello Formation. Fig. 6. Pressure dissolution ofForaminifera. Dark grey grains are quartz. Calcite cements the grains and also fills the intraskeletal pores. Back-scattered electron images. (A) Bismantova Formation. Large grain in lower right is a mica. (B) Borello Formation.
We found no difference in isotopic values between concretions and completely cemented beds where both are present (Ranzano and Bismantova formations). [Pg.223]

The low IGV values of all but a couple of samples indicate that the sandstones underwent moderate to strong compaction before cementation. In the lA Pliocene and Bismantova formations cementation... [Pg.232]

The lA Pliocene, Ranzano and Antognola formations were cemented by meteoric water the Bismantova Formation was cemented in part by water with a meteoric component the Loiano and the Borello formations were cemented by slightly modified marine pore water and all the foreland basin units (except the Borello) were cemented by water variably enriched in 0 (8 0 = -2 to +8) generated from silicate reactions. The most 0-enriched values for S 0, a,er are compatible with depths and temperatures of cementation of the three deepest formations, but not for the less deeply buried Loiano and upper part of the Mamoso-arenacea formations. 0-enriched fluids in these latter formations were more probably derived from underlying, more deeply buried rocks apd expelled by compaction. Possibly, the calcite in the deepest buried formations re-equilibrated with hot water after precipitation. [Pg.237]


See other pages where Bismantova Formation is mentioned: [Pg.214]    [Pg.223]    [Pg.224]    [Pg.226]    [Pg.229]    [Pg.214]    [Pg.223]    [Pg.224]    [Pg.226]    [Pg.229]    [Pg.213]    [Pg.214]    [Pg.218]    [Pg.235]    [Pg.235]    [Pg.248]   
See also in sourсe #XX -- [ Pg.223 , Pg.226 ]




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Bismantova Formation calcite

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