Your search keyword '"Russo, Franco"' showing total 2 results

1. Automicrite in a 'nummulite bank' from the Monte Saraceno (Southern Italy): evidence for synsedimentary cementation.

Author

GUIDO, ADRIANO, PAPAZZONI, CESARE A., MASTANDREA, ADELAIDE, MORSILLI, MICHELE, LA RUSSA, MAURO F., TOSTI, FABIO, and RUSSO, FRANCO

Subjects

FOSSIL nummulites, SEDIMENTS, FORAMINIFERA, CEMENTATION (Petrology), ELECTRON microscopes, ORGANIC compounds

Abstract

Following introduction of the term 'nummulite bank', there has been debate regarding interpretation of these types of deposits as autochthonous (automicrite) or allochthonous (detrital micrite). These banks are made up of large foraminifera and ill-defined fine-grained components. The fine-grained components consist mainly of micrites. The recognition of automicrite has deep implications for the synsedimentary cementation and stabilization of the bank. In order to distinguish between automicrite and detrital micrite, the nanomorphology, geochemistry and organic matter remains in the microfacies of a nummulite bank in the Middle Eocene of Monte Saraceno (Gargano, Southern Italy) were analysed. Optical and scanning electron microscope investigations showed that the micrites have been recrystallized to aggrading microsparite. Epifluorescence observations on selected micrite/microsparite areas with peloidal texture revealed the presence of organic matter. Scanning electron microscope analyses on epifluorescent micrites showed that the microbial peloids have smaller crystal sizes than those in organic matter-depleted areas. The geochemical characterization of extracted organic matter, performed through the functional group analyses by Fourier transform-infrared spectroscopy, shows strong prevalence of the aromatic fraction over the aliphatic and carboxylic ones. These characteristics of organic compounds indicate both their thermal maturation and their likely derivation from degradation of bacterial communities. The local presence of peloidal anti-gravity textures, bright epifluorescence and organic molecules in clotted peloidal areas suggest that the metabolic activity of microbial communities could have induced precipitation of these micrites and, consequently, the syndepositional cementation of the nummulite bank. This type of cementation can rapidly stabilize sediments and promote the depositional bank geometry. [ABSTRACT FROM AUTHOR]

Published

2011

2. Microbial primary dolomite from a Norian carbonate platform: northern Calabria, southern Italy.

Author

Mastandrea, Adelaide, Perri, Edoardo, Russo, Franco, Spadafora, Alessandra, and Tucker, Maurice

Subjects

DOLOMITE, ROCK-forming minerals, STROMATOLITES, BACTERIA, MICROPALEONTOLOGY

Abstract

The origin of fine-grained dolomite in peritidal rocks has been the subject of much debate recently and evidence is presented here for a microbial origin of this dolomite type in the Norian Dolomia Principale of northern Calabria (southern Italy). Microbial carbonates there consist of stromatolites, thrombolites, and aphanitic dolomites. High-relief thrombolites and stromatolites characterize sub-tidal facies, and low-relief and planar stromatolites, with local oncoids, typify the inter-supratidal facies. Skeletal remains are very rare in the latter, whereas a relatively rich biota of skeletal cyanophycea, red algae and foraminifera is present in the sub-tidal facies. Some 75% of the succession consists of fabric-preserving dolomite, especially within the microbial facies, whereas the rest is composed of coarse dolomite with little fabric preservation. Three end-members of dolomite replacement fabric are distinguished: type 1 and type 2, fabric retentive, with crystal size <5 and 5–60 μm, respectively; and type 3, fabric destructive, with larger crystals, from 60 to several hundred microns. In addition, there are dolomite cements, precipitated in the central parts of primary cavities during later diagenesis. Microbialite textures in stromatolites are generally composed of thin, dark micritic laminae of type 1 dolomite, alternating with thicker lighter-coloured laminae of the coarser type 2 dolomite. Thrombolites are composed of dark, micritic clotted fabrics with peloids, composed of type 1 dolomite, surrounded by coarser type 2 dolomite. Marine fibrous cement crusts are also present, now composed of type 2 dolomite. Scanning electron microscope observations of the organic-rich micritic laminae and clots of the inter-supratidal microbialites reveal the presence of spherical structures which are interpreted as mineralized bacterial remains. These probably derived from the fossilization of micron-sized coccoid bacteria and spheroidal–ovoidal nanometre-scale dwarf-type bacterial forms. Furthermore, there are traces of degraded organic matter, probably also of bacterial origin. The microbial dolomites were precipitated in a hypersaline environment, most likely through evaporative dolomitization, as suggested by the excess Ca in the dolomites, the small crystal size, and the positive δ18O values. The occurrence of fossilized bacteria and organic matter in the fabric-preserving dolomite of the microbialites could indicate an involvement of bacteria and organic matter degradation in the precipitation of syn-sedimentary dolomite. [ABSTRACT FROM AUTHOR]

Published

2006