Structural framework of rocks of the Lagoa D'anta mine area, iron-manganese Urandi-Caetité-Licínio de Almeida District, Bahia, Brasil

The Urandi-Caetité-Licínio de Almeida Iron-Manganese District encompasses a total of 35 manganese mines, most of which are already exhausted, and 1 currently active iron mine. The host rocks of these ores are associated with the Paleoproterozoic Caetité-Licínio de Almeida Metavolcanossedimentary Sequence. These units have been deformed by the northern Serra do Espinhaço Thrust and Fold Belt, in the northern section of the Araçuaí Orogen. Interbeddings of itabirite, cummingtonite schist, calcite and manganese-dolomitic marbles, calc-silicate and carbonate-silicate rocks, and amphibolitic metabasalt were found at the Lagoa D'anta mine, in addition to quartz-jacobsite schist, residual manganese-rich soil and manganese lateritic breccia. The main structural framework presents a general NE-SW trend and it consists predominantly of compressional structures. This structural framework is associated with the evolution of two Ediacaran dextral transpressional shear zones, the Carrapato zone, in the western portion, and São Timóteo zone, in the eastern portion. The structural framework of the Lagoa D'anta mine reflects a higher degree of shortening in the southern sector of the northern Serra do Espinhaço Thrust and Fold Belt, in the northern area of the Araçuaí Orogen. The ductile structures related to these deformational phases were nucleated under conditions of progressive metamorphism with minimum temperature of 550°C. Stockwork structures of quartz, calcite, epidote, grunerite and magnetite truncate the mine's ductile structures. Fractures were the main circulation channels for meteoric water, which culminated in the formation of a high-content supergene ore in the mine.

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STRATIGRAPHIC AND STRUCTURAL RELATIONSHIPS THROUGH GEOLOGICAL AND GAMMAESPECTROMETRY ANALYSIS IN THE INTERFACE BETWEEN THE SÃO FRANCISCO CRATON AND THE ARAÇUAÍ OROGEN (SANTA RITA ANTICLINE, MINAS GERAIS, BRAZIL)

Revista Geonomos ◽

10.18285/geonomos.v27i1.21853 ◽

2020 ◽

pp. 46-59

Author(s):

Bernardo R. Filizzola ◽

Fernando P. Galvão ◽

Jorge Roncato

Keyword(s):

Minas Gerais ◽

Geological Mapping ◽

Regional Structure ◽

Fold Belt ◽

Angular Unconformity ◽

Structural Framework ◽

Thrust Front ◽

Structural Relationships ◽

Araçuaí Orogen

Geological mapping (1:25.000 scale), supported by gammaespectrometric analysis, was conducted in the Santa Rita Anticline region, a regional structure located in the contact between the Araçuaí Orogen external belt and the São Francisco Craton. The work aimed to detail the region's structural and stratigraphic relationships between the rocks of Espinhaço and São Francisco supergroups, which contact is not characterized by a thrust front, as it is in a large part of the Espinhaço Meridional Range (EMR). Five units from Espinhaço were mapped: Galho do Miguel Formation and Conselheiro Mata Group, represented by the Santa Rita, Córrego dos Borges, Córrego Bandeira and Córrego Pereira formations. By its turn, three units from the São Francisco Supergroup were mapped: undivided Macaúbas Group and Bambuí Group, represented by the Serra de Santa Helena and Lagoa do Jacaré formations. Restricted to the Espinhaço units, the Santa Rita Anticline consists in a structure with a south dipping axis and inﬂections that form saddle structures. The analysis of the gammaespectrometric responses provided clues that were conﬁrmed in the ﬁeld, highlighting an angular unconformity between the Córrego Pereira Formation and the Macaúbas Group and the local presence of isoclinal folds in Serra de Santa Helena rocks, promoting relevant questions regarding possible intermediary deformational events between the Statherian and Tonian tafrogenesis. The study contributes by raising questions about the evolution of the Araçuaí Belt in its contact with the São Francisco Craton and possible implications imposed by the Paramirim Keywords: Aerogeophysics, Litho-structural framework, Fold belt and craton transition, Espinhaço Meridional Range

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Structural analysis of the Rio Preto fold belt (northwestern Bahia / southern Piauí), a doubly-vergent asymmetric fan developed during the Brasiliano Orogeny

Anais da Academia Brasileira de Ciências ◽

10.1590/0001-3765201420130173 ◽

2014 ◽

Vol 86 (3) ◽

pp. 1101-1113 ◽

Cited By ~ 6

Author(s):

FABRÍCIO A. CAXITO ◽

ALEXANDRE UHLEIN ◽

LUIZ F.G. MORALES ◽

MARCOS EGYDIO-SILVA ◽

JULIO C.D. SANGLARD ◽

...

Keyword(s):

Structural Analysis ◽

Structural Evolution ◽

Shear Zones ◽

Central Compartment ◽

Strike Slip ◽

Fold Belt ◽

Main Structure ◽

The North ◽

Brasiliano Orogeny ◽

Analog Models

The Rio Preto fold belt borders the northwestern São Francisco craton and shows an exquisite kilometric doubly-vergent asymmetric fan structure, of polyphasic structural evolution attributed exclusively to the Brasiliano Orogeny (∼600-540 Ma). The fold belt can be subdivided into three structural compartments: The Northern and Southern compartments showing a general NE-SW trend, separated by the Central Compartment which shows a roughly E-W trend. The change of dip of S2, a tight crenulation foliation which is the main structure of the fold belt, between the three compartments, characterizes the fan structure. The Central Compartment is characterized by sub-vertical mylonitic quartzites, which materialize a system of low-T strike slip shear zones (Malhadinha – Rio Preto Shear Zone) crosscutting the central portion of the fold belt. In comparison to published analog models, we consider that the unique structure of the Rio Preto fold belt was generated by the oblique, dextral-sense interaction between the Cristalândia do Piauí block to the north and the São Francisco craton to the south.

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Secondary K-feldspar at the Precambrian–Paleozoic unconformity, southwestern Ontario

Canadian Journal of Earth Sciences ◽

10.1139/e95-116 ◽

1995 ◽

Vol 32 (9) ◽

pp. 1432-1450 ◽

Cited By ~ 30

Author(s):

David A. Harper ◽

Fred J. Longstaffe ◽

Moire A. Wadleigh ◽

Robert H. McNutt

Keyword(s):

Meteoric Water ◽

Elevated Temperatures ◽

Sea Water ◽

Wide Distribution ◽

Late Ordovician ◽

Lower Paleozoic ◽

Brine Migration ◽

Rock Water Interaction ◽

Granitoid Gneisses ◽

Host Rocks

The Precambrian–Paleozoic boundary in the subsurface of southwestern Ontario commonly is characterized by secondary K-feldspar. In the weathered and altered Precambrian granitoid gneisses at the unconformity, secondary K-feldspar has replaced preexisting minerals, and also occurs as discrete crystals of adularia, overgrowths on altered minerals, and microcrystalline veinlets. The K-feldspar is chemically pure (Or99–100) and has high δ18O values (+18.9 to +21.4‰ Vienna Standard Mean Ocean Water), features that indicate crystallization at low temperatures. Secondary K-feldspar also occurs in Cambro-Ordovician clastic and carbonate rocks that immediately overlie the Precambrian basement. K/Ar (453 ± 9 to 412 ± 8 Ma) and Rb/Sr (440 ± 50 Ma) dates obtained for secondary K-feldspar from the Precambrian host rocks suggest that its crystallization is unrelated to Precambrian weathering or early diagenesis of the immediately overlying Cambro-Ordovician strata. Estimated crystallization temperatures for the secondary K-feldspar (≥100 °C) exceed presumed burial temperatures for the Precambrian–Paleozoic boundary in southwestern Ontario during Late Ordovician–Silurian time. We infer that secondary K-feldspar formed from a hot brine that moved preferentially along the Precambrian–Paleozoic unconformity. The wide distribution of secondary K-feldspar of Late Ordovician–Silurian age throughout mid-continental North America at the Precambrian–Paleozoic boundary records the regional extent of this process. Some Cambro-Ordovician rocks elsewhere in the mid-continent also contain secondary K-feldspar and illitic clay of Late Pennsylvanian–Early Permian age, suggesting more than one episode of fluid movement. Major pulses of orogenic activity may have initiated brine migration. We speculate that the brine originated as connate (sea) water trapped in lower Paleozoic strata, and was modified by rock–water interaction at elevated temperatures, and by mixing with meteoric water.

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Rapid fluid-driven transformation of lower continental crust associated with thrust-induced shear heating

10.5194/egusphere-egu2020-2154 ◽

2020 ◽

Author(s):

Bjørn Jamtveit ◽

Kristina G. Dunkel ◽

Arianne Petley-Ragan ◽

Fernando Corfu ◽

Dani W. Schmid

Keyword(s):

Regional Metamorphism ◽

Shear Zones ◽

Amphibolite Facies ◽

Source Rocks ◽

Granitic Rocks ◽

Time Interval ◽

Fluid Infiltration ◽

Facies Metamorphism ◽

Shear Heating ◽

Host Rocks

Caledonian eclogite- and amphibolite-facies metamorphism of initially dry Proterozoic granulites in the Lind&#229;s Nappe of the Bergen Arcs, Western Norway, is driven by fluid infiltration along faults and shear zones. The granulites are also cut by numerous dykes and pegmatites that are spatially associated with metamorphosed host rocks. U-Pb geochronology was performed to constrain the age of fluid infiltration and metamorphism. The ages obtained demonstrate that eclogite- and amphibolite-facies metamorphism were synchronous within the uncertainties of our results and occurred within a maximum time interval of 5 Myr, with a mean age of ca. 426 Ma. &#160;Caledonian dykes and pegmatites are granitic rocks characterised by a high Na/K-ration, low REE-abundance and positive anomalies of Eu, Ba, Pb, and Sr. The most REE-poor compositions show HREE-enrichment. Melt compositions are consistent with wet melting of plagioclase- and garnet-bearing source rocks. The most likely fluid source is dehydration of Paleozoic metapelites, located immediately below the Lind&#229;s part of the Jotun-Lind&#229;s microcontinent, during eastward thrusting over the extended margin of Baltica. Melt compositions and thermal modelling suggest that short-lived fluid-driven metamorphism of the Lind&#229;s Nappe granulites was related to shear heating at lithostatic pressures in the range 1.0-1.5 GPa. High-P (&#8776;2 GPa) metamorphism within the Nappe was related to weakening-induced pressure perturbations, not to deep burial. Our results emphasize that both prograde and retrograde metamorphism may proceed rapidly during regional metamorphism and that their time-scales may be coupled through local production and consumption of fluids.

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Evolution of brittle structures in plagioclase-rich rocks at high-grade metamorphic conditions – Linking laboratory results to field observations

10.5194/egusphere-egu2020-8367 ◽

2020 ◽

Author(s):

Sarah Incel ◽

Jörg Renner ◽

Bjørn Jamtveit

Keyword(s):

Structural Evolution ◽

Confining Pressure ◽

Shear Zones ◽

Ductile Shear Zones ◽

Laboratory Results ◽

Experimental Laboratory ◽

Eclogite Facies ◽

Ductile Shear ◽

Host Rocks ◽

Lower Crustal

Plagioclase-rich lower crustal granulites exposed on the Lofoten archipelago, N Norway, display pseudotachylytes, reflecting brittle deformation, as well as ductile shear zones, highlighting plastic deformation. Pristine pseudotachylytes often show no or very little difference in mineral assemblage to their host-rocks that exhibit limited, if any, metamorphic alteration. In contrast, host-rock volumes that developed ductile shear zones exhibit significant hydration towards amphibolite or eclogite-facies assemblages within and near the shear zones. We combine experimental laboratory results and observations from the field to characterize the structural evolution of brittle faults in plagioclase-rich rocks at lower crustal conditions. We performed a series of deformation experiments on intact granulite samples at 2.5 GPa confining pressure,&#160; a strain rate of 5&#215;10-5 s-1,&#160; temperatures of 700 and 900 &#176;C, and total strains of either ~7-8 % or ~33-36 %. Samples were either deformed &#8216;as-is&#8217;, i.e. natural samples without any treatment, or with ~2.5 wt.% H2O added. Striking similarities between the experimental and natural microstructures suggest that the transformation of precursory brittle structures into ductile shear zones at eclogite-facies conditions is most effective when hydrous fluids are available in excess.

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Nanoparticles Observed in a Shear Fracture of Dolomite and a Probable Formation Mechanism

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2021.18457 ◽

2021 ◽

Vol 21 (1) ◽

pp. 555-566

Author(s):

Jianfeng Li ◽

Zhourong Cai ◽

Qiangtai Huang ◽

Tongbin Shao ◽

Maoshuang Song ◽

...

Keyword(s):

Shear Fracture ◽

Confining Pressure ◽

Shear Zones ◽

Formation Mechanisms ◽

Differential Stress ◽

Slip Surfaces ◽

Ductile Shear Zones ◽

Formation And Evolution ◽

Mechanical Twins ◽

Host Rocks

Nanoparticles have been extensively found in brittle faults or ductile shear zones, and their formation is closely related to shear movement along the fault plane. However, the formation mechanisms of these nanoparticles are not yet clear. In this study, dolomite samples were triaxially compressed, at a confining pressure of 200–300 MPa, a temperature between 27 °C and 900 °C and a strain rate of approximately 10−5s−1, with a Paterson designed gas medium high-temperature and high-pressure deformation apparatus (HTPDA). Samples deformed at room temperature were characterized by universal microcracks and undulatory extinctions in some grains; when at a temperature between 300 °C and 500 °C, well-developed mechanical twins dominated the microstructure, while at a temperature ≥800 °C, displacements of twin lamellae along a cleavage and a well-developed fracture zone could be seen. Nanoparticles of different shapes were discovered on the slip surfaces of a shear fracture or in microcracks by field emission scanning electron microscopy (FESEM). Nanoparticles on deformed samples under low differential stress were usually of sporadic spherical shapes and uneven distribution; while deformed samples under high differential stress had more dense distributions that were identified. Moreover, grain-overlap and nanofine granulation could be recognized in high strain samples. Based on a mechanical data analysis and microstructural observations, it was suggested that the initial formation of nanoparticles was macroscopically determined by the differential stress subjected to the host rocks, and had nothing to do with temperature; whereas the aggregation morphology of the nanoparticles was related to the temperature during the formation and evolution processes of the nanoparticles.

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Structural framework of the Lufilian Fold Belt in the Domes region of North Western Province, Zambia from interpretation of geophysical data

Journal of African Earth Sciences ◽

10.1016/j.jafrearsci.2017.01.029 ◽

2017 ◽

Vol 129 ◽

pp. 542-557 ◽

Cited By ~ 1

Author(s):

P.R. Williams ◽

B.W. Nisbet

Keyword(s):

Geophysical Data ◽

Fold Belt ◽

Western Province ◽

Structural Framework ◽

North Western

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The composition of nickel‐copper sulphide deposits and their host rocks from the Cape Smith Fold Belt, Northern Quebec

Australian Journal of Earth Sciences ◽

10.1080/08120099208728028 ◽

1992 ◽

Vol 39 (3) ◽

pp. 335-347 ◽

Cited By ~ 10

Author(s):

S‐J. Barnes ◽

C. Picard ◽

D. Giovenazzo ◽

C. Tremblay

Keyword(s):

Copper Sulphide ◽

Fold Belt ◽

Nickel Copper ◽

Sulphide Deposits ◽

Host Rocks

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Tectonic framework of the Barra de São João Graben, Campos Basin, Brazil: Insights from gravity data interpretation

Interpretation ◽

10.1190/int-2014-0011.1 ◽

2014 ◽

Vol 2 (4) ◽

pp. SJ65-SJ74 ◽

Cited By ~ 5

Author(s):

Leandro B. Adriano ◽

Paulo T. L. Menezes ◽

Alan S. Cunha

Keyword(s):

Gravity Data ◽

Shear Zones ◽

Data Interpretation ◽

Fault System ◽

Magnetic Data ◽

Southeastern Brazil ◽

Rift System ◽

Seismic Line ◽

Structural Framework ◽

Campos Basin

The Barra de São João Graben (BSJG), shallow water Campos Basin, is part of the Cenozoic rift system that runs parallel to the Brazilian continental margin. This system was formed in an event that caused the reactivation of the main Precambrian shear zones of southeastern Brazil in the Paleocene. We proposed a new structural framework of BSJG based on gravity data interpretation. Magnetic data, one available 2D seismic line, and a density well-log of a nearby well were used as constraints to our interpretation. To estimate the top of the basement structure, we separated the gravity effects of deep sources from the shallow basement (residual anomaly). Then, we performed a 2D modeling exercise, in which we kept fixed the basement topography and the density of the sediments, to estimate the density of the basement rocks. Next, we inverted the residual anomaly to recover the depth to the top of the basement. This interpretation strategy allowed the identification of a complex structural framework with three main fault systems: a northeast–southwest-trending normal fault system, a northwest–southeast-trending transfer fault system, and an east–west-trending transfer fault system. These trends divided the graben into several internal highs and lows. Our interpretation was corroborated by the magnetic anomalies. The existence of ultradense and strongly magnetized elongated bodies in the basement was interpreted as ophiolite bodies that were probably obducted by the time of the shutdown of the Proterozoic Adamastor Ocean.

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Stable isotope (δD, δ18O) data on the structural water of two sericite samples from the Cu-Au high-sulphidation deposit Chelopech, Bulgaria – a tentative study

Geologica Balcanica ◽

10.52321/geolbalc.50.3.65 ◽

2021 ◽

Vol 50 (3) ◽

pp. 65-74

Author(s):

Nikolay Piperov ◽

Sylvina Georgieva

Keyword(s):

Carbon Dioxide ◽

Mineral Assemblage ◽

Meteoric Water ◽

Underground Mining ◽

Alteration Zone ◽

Structural Water ◽

Thermal Fractionation ◽

Ore Mineralization ◽

Host Rocks ◽

Isotopic Measurements

The epithermal high-sulphidation Cu-Au Chelopech deposit is characterized by a well-developed and well-traceable hydrothermal footprint manifested in the volcanic host rocks. The economic ore mineralization is embedded in the strong silicification, included among the advanced argillic zone of alteration, smoothly transitioning to quartz-sericite alteration that evolves into widespread propylitics. The quartz-sericite alteration zone is accessible for exploration only in underground mining galleries and exploration drillings. The main mineral assemblage in this zone is quartz, sericite, pyrite, minor rutile/anatase and relics of apatite and feldspar. According to XRD data from the studied samples, sericite was defined as illite and muscovite/sericite 2M1 polytype. The abundance of heavy stable isotopes (D, 18O) in the structural water of two sericite samples is the object of this study. A special attention was paid to the separation of extraneous waters from the structural one by thermal fractionation. The extracted structural water was converted to hydrogen and carbon dioxide before the isotopic measurements. The obtained results, put into a δD vs. δ18O plot, indicate that sericite structural water is “heavier” than meteoric water, within uncertainty limits.

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