M. Gazzotti scite author profile

The ductile to brittle deformation and the associated hydrothermal mineralogical record in Holes 920B and 920D peridotites are complex. Remnants of a high-temperature phase (brown hornblende, talc) are preserved in the seΦentinized harzburgites. Primary chromites in the harzburgite are altered to ferritchromite. Magnetite, which originated from olivine breakdown during seΦβntinization, (1) recrystallizes, mimicking mesh and ribbon textures, and (2) reorganizes in veins and trails. Primary sulfide minerals rarely survive the extensive seΦentinization, and are affected by significant mobilization.An ilvaite + chlorite + fibrous salitic pyroxene ± carbonate ± grandite garnet + magnetite ± sulfides (pyrite > pyrrhotite > chalcopyrite) assemblage that developed in pyroxenite veins is cut by later seΦentine veins. Late hydrothermal veins, pyrite (+ silicates) precipitate in veins, which are cut in turn by pyrrhotite + chalcopyrite (+ phyllosilicate) veins. PETROGRAPHIC FEATURESPetrographic features and intersection criteria allow us to discriminate three main events in Holes 920B and 920D harzburgites: (1) hydrous alteration preceding serpentinization, (2) the main serpentinization, and (3) late processes that overprint the serpentinite texture. A polyphase set of composite macroscopic veins is developed through the peridotite and is less developed in gabbro and diabase intervals. Pyroxenitic and gabbroic veins of magmatic origin are discordant with the high-temperature plastic fabric, and predate the development of serpentine-bearing veins (Shipboard Scientific Party, 1995, fig. 22).Vein systems are the most characteristic features associated with fluid introduction during serpentinization, and control metamorphic recrystallization during uplift. Different sets of hydrothermal veins, ascribed to the main serpentinization and to late processes overprinting the serpentinite texture, were distinguished in chronological order on the basis of visual core descriptions (Shipboard Scientific Party, 1995):1. Serpentine + magnetite veins. An early net of fine serpentine veins (0.03-0.05 mm wide) postdates the intrusion of igneous veins. The serpentine veining is associated with the pervasive background alteration of olivine and orthopyroxene. 2. Serpentine + amphibole ± chlorite ± talc. This set of veins is poorly developed, and consists of dark-green to black veins, 2-3 mm wide. An alteration halo of chlorite ± serpentine ± amphibole is commonly present along the vein-host rock boundary. 3. Serpentine + magnetite. These veins (up to 1 mm wide) occur as a widespread anastomosing network of white serpentine and black magnetite around orthopyroxene porphyroclasts. 4. Serpentine ± carbonate ± pyrite ± clay minerals. ing chrysotile and aragonite and are coated by sulfides and minor phyllosilicates. 5. Carbonate minerals ± sulfides ± smectite. This set is represented by a thin (up to 1 mm wide) network with a random orientation that has sometimes reactivated earlier vein arrays. The serpentinization of harzburgite is wides...

show abstract

A programmable event-based-middleware for pervasive mobile agent organizations

Gazzotti

Mamei

Zambonelli

2003

View full text Add to dashboard Cite

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

M. Gazzotti

Platinum-group minerals in chromitites from the ojen lherzolite massif (Serrania de Ronda, Betic Cordillera, Southern Spain)

Data report: oxides, sulfides, and associated phases in veins and hydrothermally altered peridotitic rocks

A programmable event-based-middleware for pervasive mobile agent organizations

Contact Info

Product

Resources

About