The Mylonite zones in the Pyrenees and their place in the Alpine tectonic evolution     

J.C. Soula  C. Lamouroux  P. Viallard  G. Bessire  P. Debat  B. Ferret 《Tectonophysics》1986,129(1-4)

In the Pyrenees, the development of mylonites zones is one of the most striking structural features. Two sets of mylonites of regional extent have been recognized: large longitudinal E-W to N110°E trending zones (e.g. Mérens fault and North Pyrenean fault) and oblique NW-SE trending zones cross-cutting both the Hercynian and the post-Hercynian terrains. The longitudinal zones limit the major structural zones of the Pyrenees and are associated with NW-SE “en échelons” folds in the Mesozoic terrains and rotations of rootless plutonic or gneissic massifs, acting as competent inclusions in a more ductile matrix, in the Hercynian basement. The oblique mylonite zones limit map-scale fold-bands and appear as the sheared limbs of these folds.The age of the oblique zones and of the major movements along the longitudinal zones is clearly Alpine and the “en échelons” folds seem to have controlled the sedimentation during the Upper Albian and possibly during the Upper Cretaceous. Early movements along the longitudinal zones may have been Hercynian.The analysis of the structures at all scales leads us to interpret these mylonite zones and associated structures as the ultimate result of a transcurrent simple shear acting during the whole Mesozoic period. This strike-slip shearing was probably associated with an extension perpendicular to it from the Permian to the Upper Cretaceous and then to a shortening component also perpendicular to it from the Late Cretaceous to the Eocene.The development of the mylonite zones appears to have predated the major Alpine thrusting but to have been reactivated during this thrusting, acting as initiation sites for the thrusts or as oblique ramps in the case of the oblique mylonite zones.  相似文献   

Analogue models of folds above a wrench fault     

Francis Odonne  Pierre Vialon 《Tectonophysics》1983,99(1):31-46

This paper describes the experimental deformation of models made with sheets of paraffin wax, simulating a bedded cover resting on a basement wrench fault. During the experiments, “en échelon” folds appear in the cover. As a result of early fault motion, folds first appear at heterogeneities in the bedding and with axes at about 45° to the trace of the wrench fault. Further fault displacement causes a bulk rotation of fold axes towards parallelism with the basement wrench fault, and a resulting curvature of fold axes at larger fault displacement.Folding affects an area which tends to quickly stabilize in width, since folding weakens the sheared cover and subsequent deformation is concentrated in it. Axial surfaces of folds are initially upright, then tend to become inclined with an external vergence, forming a fan centered on the basement wrench fault. Deeper layer-deformation, close to the basement, involves fold reorientations that are greater than in the upper layers. Therefore, down a given vertical line, there is no continuity between surface and deep structures. The geometry and orientation of folds appearing at later stages of wrenching is controlled by the geometry and orientation of already extant folds.  相似文献   

La ligne du Tonale (Alpes centrales et orientales): sens de décrochement et prolongements     

Andre Guillaume 《Tectonophysics》1978,48(1-2)

This work discusses the state of knowledge (mainly tectonic and geophysical data) about the Tonale line and other “peri-Adriatic” lines in the Central and Eastern Alps. The chain is here cut into a mosaic of independent blocs, separated by faults with basic injections in some places. The Tonale fault had a dextral movement in Oligo-Miocene times; it is connected with the Austrian “Thermenlinie”, and not to the Pusteria—Gail line. An attempt at chronology is presented.

Résumé

Ce travail fait le point des connassiances, principalement tectoniques et géophysiques, sur la linge du Tonale et les accidents “péri-adriatiques” récents des Alpes centrales et Orientales. Dans cette région, la chaine est découpée en une mosaïque de blocs indépendants, séparés par des accidents injectés ça et là de masses basiques. L'accident du Tonale, Qui a joué en décrochement dextre à l'Oligo-Miocéne, est relié à la Thermenlinie d'Autriche Et non à la linge Pusteria—Gail. Un essai de chronologie est présenté.  相似文献   

Un nouveau critere de sens de mise en place dans une caisse filonienne: Le “pincement” des mineraux aux epontes : Orientation des minéraux dans un magma en écoulement     

Jean-Philippe Blanchard  Pierre Boyer  Claude Gagny 《Tectonophysics》1979,53(1-2)

The flow of a magma into a dike, sill, laccolite, pipe or batholith leads to a preferential orientation of crystals in the magma. A study by computer simulation has brought to light certain types of fabric for oblate and prolate minerals in the case of a plane deformation, on the one hand by pure shear, and on the other hand by simple shear. Theoretical and practical studies suggest a new method for determining the direction of injection (“injection axis”) in a dike, based on the angular relations of minerals near the walls.New developments are proposed on the relations between plane and linear flow-lines, on the distinction between “apparent flow-lines” and the transport-plane of the magma (“real flow-lines”) and on the amount of magma deformation.

Résumé

La mise en place d'un magma dans une caisse filonienne (ou dans des sills, dykes, laccolites, batholites, etc.) s'accompagne d'une orientation préférentielle des minéraux déjà formés. Une étude par simulation sur ordinateur a mis en évidence certains types de fabrique pour les minéraux phylliteux et les minéraux aciculaires dans le cas d'une déformation plane, d'une part par aplatissement pur et d'autre part, par cisaillement simple.En application théorique puis pratique, un nouveau critère de sens de mise en place (axe d'injection) dans une caisse filonienne est défini: le pincement des minéraux aux épontes; en effet, à chacune d'elles, les fluidalités apparentes, observées sur les minéraux, font un angle avec la paroi du filon.Des développements nouveaux sont proposés concernant les relations entre fluidalités planaire et linéaire, la distinction entre fluidalité apparente et plan de transport du magma (fluidalité réelle), le taux de déformation subi par le magma,....  相似文献   

Steeply-dipping extension fractures in the Newark basin, New Jersey     

Gregory C. Herman   《Journal of Structural Geology》2009,31(9):996

Late Triassic and Early Jurassic bedrock in the Newark basin is pervasively fractured as a result of Mesozoic rifting of the east–central North American continental margin. Tectonic rifting imparted systematic sets of steeply-dipping, en échelon, Mode I, extension fractures in basin strata including ordinary joints and veins. These fractures are arranged in transitional-tensional arrays resembling normal dip-slip shear zones. They contributed to crustal stretching, sagging, and eventual faulting of basin rift deposits. Extension fractures display progressive linkage and spatial clustering that probably controlled incipient fault growth. They cluster into three prominent strike groups correlated to early, intermediate, and late-stage tectonic events reflecting about 50– 60° of counterclockwise rotation of incremental stretching directions. Finite strain analyses show that extension fractures allowed the stretching of basin strata by a few percent, and these fractures impart stratigraphic dips up to a few degrees in directions opposing fracture dips. Fracture groups display three-dimensional spatial variability but consistent geometric relations. Younger fractures locally cut across and terminate against older fractures having more complex vein-cement morphologies and bed-normal folds from stratigraphic compaction. A fourth, youngest group of extension fractures occur sporadically and strike about E–W in obliquely inverted crustal blocks. A geometric analysis of overlapping fracture sets shows how fracture groups result from incremental rotation of an extending tectonic plate, and that old fractures can reactivate with oblique slip components in the contemporary, compressive stress regime.  相似文献   

Rôles respectifs de l''advection et de la décantation sur la ride médio-atlantique (40° à 50°N)     

F. Grousset  C. Latouche 《Chemical Geology》1983,40(3-4):225-249

Coring at 45 sites in the North Atlantic permitted to determine flux velocity and chemical composition of pelagic sediments. Piston cores were used to carry out a comparative study between the post-glacial period (10,000 yr. B.P. until present) and last glacial period (75,000–10,000 yr. B.P.). Special attention has been paid to the Mid-Atlantic Ridges-Azores-Iceland area, where an enrichment of chemical elements was observed with regards to “regional ocean ground noise”, perceived on an isolated seamount of the abyssal plain.This “ground noise” characterized by the presence of Pb, Rb, U, Th, illite and chlorite, is associated to a settling vertical flux since the surface brought by surface currents and wind transport since the North American shield: sediments, here, are continental soil erosion products.The ridge is clearly enriched by Ba, Br, Fe, Ti, Mn, Cu, Ni, Co and As. Ba and Br are mostly associated with planktonic carbonates. Part of Ba may be linked to the ridge's activity. Basalt weathering on the ridge supplies a part of Fe in excess. Hydrothermal activity may account for Mn, Cu, Co, Ni and As enrichment. Most of the excess observed may be explained by intrusion of advective inputs from erosion Icelandic products (Fe, Ti, Cu, Ta, Sc and smectites), probably transported by Norwegian bottom currents.Advective flux (Icelandic-Faeroan basaltic materials) and flux linked to submarine ridge activity represent 30% of inorganic sedimentation. Vertical flux (North American continental-derived terrigenous materials) represent 70% of inorganic sedimentation. These percentages are very similar to those which were calculated for the Pacific.

Résumé

Les vitesses d'accumulation (flux) et les compositions chimiques ont été déterminées pour des sédiments pélagiques, dans 45 sites de l'océan Atlantique Nord. Les échantillons, prélevés par carottage Kullenberg, ont permis de réaliser une étude comparative de la période post-glaciaire (10.000 ans B.P. à nos jours) et du dernier glaciaire (75.000–10.000 ans B.P.). Notre attention s'est portée particulièrement sur la dorsale médioatlantique Açores-Islande où l'on observe des enrichissements en éléments chimiques par rapport au “bruit de fond océanique régional” appréhendé sur un dôme isolé dans la plaine abyssale.À ce bruit de fond, caractérisé par Pb, Rb, U, Th, illite et chlorite, est associé un flux vertical mis en place par décantation depuis la surface, apporté par le vent et les courants de surface depuis le craton nord-américain; il s'agit des produits d'érosion des sols continentaux.L'enrichissement de la dorsale est net pour Ba, Br, Fe, Ti, Mn, Cu, Ni, Co et As.Ba et Br précipite en grande partie avec les carbonates planctoniques. Une partie de Ba peut être associée à l'activité de la ride. L'altération des basaltes de la ride fournit une partie du Fe en excès. L'activité hydrothermale peut expliquer les enrichissements en Mn, Cu, Co, Ni et As.L'essentiel de l'excès observé est expliqué par un apport advectif de produits d'érosion de l'Islande (Fe, Ti, Cu, Ta, Sc et smectites). Leur vecteur serait le courant de fond de la mer de Norvège.Le flux advectif (matériaux basaltiques islando-faeroan) et le flux liéà l'activité sousmarine de la dorsale représenterait 29% de la sédimentation inorganique.Le flux vertical (matériaux continentaux terrigènes nord-américain) représenterait 71% de la sédimentation inorganique. Ces chiffres sont très proches de ceux qui ont été évalués dans le Pacifique.  相似文献   

Kystes de Dinoflagelles du Crétacé moyen européen: proposition d'une echelle biostratigraphique pour le domaine nord-occidental     

J. -C. Foucher   《Cretaceous Research》1981,2(3-4)

Plusieurs synthèses concernant la distribution stratigraphique des kystes de Dinoflagellés dans différentes régions du monde ont été publiées. Pour le Crétacé moyen (Albien à Turonien) européen, l'obtention d'une échelle biostratigraphique précise, ainsi que sa mise en parallèle avec celle des Ammonites (ou celle des Foraminifères planctoniques par exemple), nécessitera encore de nombreuses études de sédiments bien datés, notamment en domaine mésogéen. La relative abondance de données pour le secteur occidental du domaine boréal, en particulier pour le Bassin de Paris, permet de dresser un tableau de la répartition verticale des principales formes de dinokystes (66 espèces ou sousespèces) et d'acritarches (1 espèce). Six “épisodes” biostratigraphiques sont ainsi mis en évidence et corrélés avec les zones d'Ammonites. Enfin, l'important renouvellement des espèces de Dinoflagellés au cours de l'Albien supérieur est souligné.  相似文献   

Mise en evidence par le paleomagnetisme d'une importante rotation antihoraire des Vosges meridionales entre le Viseen terminal et le Westphalien superieur     

Jean-Bernard Edel  Michel Coulon  Marie-Paule Hernot 《Tectonophysics》1984,106(3-4)

The volcano-sedimentary formations from the southern Vosges are subdivided in two main series: a lower Visean series characterized by a volcanism of spilite-keratophyre type, and an upper Visean series which includes a normal volcanic association of shoshonitic tendency. Paleomagnetic study of 50 sites sampled in both series, but mostly in the upper one, yields three types of directions of characteristic magnetizations. The first type corresponds to Tertiary and Quaternary remagnetizations with low apparent blocking temperatures (350°–500°C, titano-maghemites?). The second group is formed by remagnetizations which have taken place during late Carboniferous-early Permian times, and which show high blocking temperatures of magnetite and mostly titano-haematites. The mean direction is D = 16°, I = 7°, α₉₅ = 9° for 13 sites, (λ = 43°N, φ = 165°E). The last group is represented by primary magnetizations of latest Visean age and post-Sudetic remagnetizations, with blocking temperatures of magnetite and haematite. The mean direction D = 323°, I = −17°, α₉₅ = 9° for 18 sites, (λ = 25°N, φ = 228°E), deviates from about 60° from the theoretical direction, calculated with the early Carboniferous, European pole position. This deviation is interpreted as resulting from a counterclockwise rotation of the southern Vosges between late Visean and Westphalian times. One consequence may be the formation of the variscan “V”, due to the anticlockwise rotation of the eastern branch of the chain. The northwesterly directions show a variation of the inclinations which may indicate that the rotation was preceded by a relatively significant drift of the Vosges to the north.

Résumé

Les terrains volcano-sédimentaires des Vosges méridionales se subdivisent en deux séries principales: la série du Viséen inférieur caractérisée par un volcanisme du type spilite-kératophyre et la série du Viséen supérieur qui comporte une association volcanique normale à tendance shoshonitique. L'étude paléomagnétique de 50 sites échantillonnés dans les deux séries, avec une prédominance dans la série supérieure, met en évidence trois types de directions d'aimantations caractéristiques, Le premier type correspond à des réaimantations d'áge Tertiaire à Quaternaire, à températures de blocage apparentes basses (350°–500°C, titano-maghemites?). Le second groupe est f'orme par des réaimantations mises en place au Carbonifère supérieur-Permien inférieur, à température de blocage haute de magnétite et surtout de titanohématites. La direction moyenne est D = 16°, I = 7°, α₉₅ = 9° pour 13 sites. (λ = 43°N, φ = 165°E). Le dernier groupe est représenté par des aimantations primaires, d'âge Viséen supérieur et des réaimantations post phase Sudète II, à température de blocage de magnetite et d'hématite. La direction moyenne D = 323°, I = −17°, α₉₅ = 9° pour 18 sites (λ = 25 °N, φ = 228°E), dévie de prés de 60° de la direction théorique calculée à partir du pôle européen au Carbonifère inférieur. Cette déviation est interprétée comme résultant d'une rotation antihoraire des Vosges méridionales entre le Viséen supérieur et le Westphalien. Une des conséquences en serait la formation du “V” varisque. par suite de la rotation antihoraire de la branche orientale de la chaîne. Les directions nord-ouest présentent une variation en inclinaison qui semble indiquer que la rotation antihoraire était précédée par une dérive relativement importante des Vosges vers le Nord.  相似文献   

Changement de faunes de bryozoaires dans le Valanginien supérieur des Alpes-de-Haute-Provence. Parallélisme avec la crise observée dans le Jura à la même époque     

Bernard Walter 《Cretaceous Research》1991,12(6)

Dans le Valanginien supérieur (Marnes à Toxaster et Grande Lumachelle) des Alpes-de-Haute-Provence, la succession de deux faunes de bryozoaires est observée. Parmi les causes du changement de faune, le remplacement d'un fond vaseux en eau calme (Marnes à Toxaster) par un fond sableux coquillier en eau assez agitée (Grande Lumachelle) est certainement important. Cependant, ces modifications résultent elles-mêmes d'événements plus généraux.Le changement de faune peut être comparé à celui qui intervient dans le Jura au début de la zone à Trinodosum. La faune des Marnes à Toxaster (zone à Verrucosum) montre certaines des espèces caractéristiques de la “faune 1” du Jura et, de plus, les deux mêmes espèces dominantes. Le milieu de vasière des Marnes à Toxaster, opposé à celui de plate-forme carbonatée du Jura, entraîne seulement un appauvrissement spécifique. Quant à la faune de la grande Lumachelle, elle est absolument semblable à la “faune 2” récoltée dans les Marnes à bryozoaires et le Calcaire à Alectryonia du Jura.Ce parallélisme des deux faunes avec celles du Jura, malgré les différences de faciès sédimentaire, montre que le changement de faune, maintenant reconnu sur près de 400 km, résulte d'une même cause principale. Ainsi, l'hypothèse d'un refroidissement que j'ai proposée pour le Jura semble pouvoir être étendue à la Provence.The change of bryozoan fauna in the upper Valanginian of the Alpes-de-Haute-Provence. Parallelism with the crisis observed in the Jura at the same time.In the upper Valanginian (Marnes à Toxaster and Grande Lumachelle) of the Alpes-de-Haute-Provence, the succession of two bryozoan faunas is observed. Among the reasons for the change of fauna, the replacement of a muddy bottom in calm water (Marnes à Toxaster) by a sandy-shelly bottom in rather agitated water (Grande Lumachelle) is certainly important, but these modifications are the result of more general events. The change of fauna could be compared with the one that took place at the beginning of the Trinodosum Zone in the Jura. The fauna of the Marnes à Toxaster (Verrucosum Zone) shows some characteristic species of the “faune 1” of the Jura and, moreover, the same two dominating species. The muddy basin environment of the Marnes à Toxaster, unlike the carbonate platform environment in the Jura, involves only a specific impoverishment. As for the fauna of the Grande Lumachelle, it is totally identical to the “faune 2” found in the Marnes à bryozoaires and the Calcaire à Alectryonia of the Jura.This parallelism of the two faunas with those of the Jura, in spite of the differences of sedimentary facies, shows the change of the fauna now observed over about 400 km, has the same principal cause. Thus it seems possible to extend the cooling hypothesis I have proposed for the Jura, to Provence.  相似文献   

Les Bélemnites     

R. Combmorel  W. K. Christensen  D. P. Naidin  C. Spaeth 《Cretaceous Research》1981,2(3-4)

Dans la partie moyenne du Crétacé, les bélemnites définissent deux grandes provinces en Europe, toutes deux occupées, jusqu'au Cénomanien moyen, par les Belemnopseidae. Puis les bélemnites disparaissent de la province mésogéenne tandis qu'en Europe du Nord leur évolution se poursuit avec les Belemnitellidae.The belemnites of the middle part of the Cretaceous define two broad provinces in Europe: a Mesogean Province to the south, characterized by representatives of the Belemnopseidae up to the Middle Cenomanian (after which belemnites disappeared from this province) and a North European Province, belonging to the “boreal realm”, in which Belemnopseidae occur up to Middle Cenomanian and Belemnitellidae from the beginning of the Cenomanian.  相似文献   

Signification structurale des anomalies gravimetriques de la partie sud du craton de Sao Francisco (Bresil)     

A. Lesquer  F.F.M. De Almeida  A. Davino  J.C. Lachaud  P. Maillard 《Tectonophysics》1981,76(3-4)

The relationships between the cratonic area and orogenic belts of the southern part of the state of Minas Gerais (Brazil) are analyzed using data from a recent Bouguer anomaly map. The interpretation was carried out using inverse-anomaly approach and statistical analysis. The stable area is characterized by elongate anomalies trending NNE-SSW which correspond to a higher level of the basement under the upper Precambrian sedimentary cover (Bambui and Macaübas groups). They can be related to rejuvenated NNE-SSW-trending fractures.The gravity trends are either deformed or interrupted over the Brasilian fold belt where an important negative linear anomaly is present. This anomaly is produced by a thick sequence of folded sedimentary or metasedimentary terrains which can be interrupted as miogeoclinal units.The Alfenas mobile belt is characterized by a strong positive anomaly, probably associated with heavy infracrustal rock complexes (granulites, charnockites).A crustal thickening, probably associated with a pre-Brazilian continental collision, can be inferred from a long-wavelength linear negative anomaly.

Résumé

Nous présentons une carte des anomalies de Bouguer du Sud de l'Etat de Minas Gerais réalisée à partir des données déjà existantes et d'un levé récent (2000 stations) effectués dans le cadre des accords CNRS-CNP_q avec la collaboration de l'ORSTOM et du DNPM^*.Lánalyse des anomalies gravimétriques et de leur direction amène à distinguer un domaine cratonique et des zones orogéniques. L'interprétation à l'aide de l'analyse statistique et par problème inverse des anomalies allongées NNE—SSW qui caractérisent la zone stable montre la présence sous la couverture sédimentaire du Précambrian supérieur (groupes Bambui et Macaübas) de zones hautes du socle liées à de grandes fractures anciennes NNE—SSW ayant rejouées à plusieurs époques. On note également des discontinuités NW—SE importantes.Ces directions sont soit déformées, soit brutalement interrompues au niveau des plissement brésiliens auxquels est associée une anomalie négative linéaire importante. Cette anomalie peut être décomposée en une anomalie liée à un sillon de terrains sédimentaires ou métasédimentaires plissés correspondant à des dépôts miogéosynclinaux (Miogéoclinaux) et en une autre de grande longueur d'onde correspondant probablement à un épaississement crustal.Cette structure profonde peut être la conséquence d'une tectonique de collision antébrésilienne contemporaine de la mise en place tectonique des granulites et charnockites de la ceinture mobile Alfenas dont la gravimétrie permet d'apprécier l'importance.  相似文献   

The sheath folds in the Tananao Group between Tienshiang and Tailuko, east-west cross-island highway, Taiwan     

Lu Cia-Yu  Chihming Wang Lee 《Tectonophysics》1986,125(1-3)

Sheath folds or “eye” folds on decimetric to metric scales are well-developed in the metachert-marble-green rock interlayers of the Changchun Formation and in the marble lens of the Tienhsiang Formation, within the Tananao Group between Tienhsiang and Tailuko, along E-W cross-island highway of Taiwan. Closely associated with the sheath folds are the tight to isoclinal folds with rectilinear axes which are parallel to the hinge line of the “eyes”, and the directions of these folds range from N-S to N30°E with gentle plunges to the north or south.The sheath folds are believed to have been formed during the second phase of deformation in this region. The traces of the earlier folding can generally be found at the hinges or limbs of these sheath folds.The explanation presented here is that the sheath fold might be generated episodically during the F₂ deformational phase throughout the entire history of progressive shearing as a result of episodic instability of the flow with successive refolding of metamorphic fabric, during Plio-Pleistocene deformation of Taiwan.  相似文献   

Tableau de répartition stratigraphique des Grands Foraminifères caractéristiques du Crétacé moyen de la région Méditerranéenne     

Groupe de Travail Europen des Grands Foraminifres  A. Arnaud  P. -Y. Berthou  L. Brun  A. Cherchi  M. Chiocchini  P. De Castro  E. Fourcade  A. Garcia Quintana  M. Hamaoui  M. Lamolda  E. Luperto Sinni  M. Neumann  B. Prestat  R. Schroeder  G. Tronchetti 《Cretaceous Research》1981,2(3-4)

Le Groupe de Travail Européen des Grands Foraminifères présente un tableau de répartition stratigraphique de 42 espèces bien définies du Crétacé moyen de la région méditerranéenne. La répartition stratigraphique proposée pour chaque espèce est fondée soit sur des propres observations soit sur des données de la littérature supprimer et est contrôlée par la présence d'Ammonites ou de Foraminifères planctoniques.A summarizing account is presented of the deliberations of the research group for Large Foraminifers of the IGCP Project “Mid-Cretaceous Events”. Large Foraminifers are of incontestable value for dating carbonate platform sequences owing to the absence of many other diagnostic groups of organísms. A table of stratigraphical distributions for 42 species is presented.  相似文献   

Tectonic Control of the Triassic Santa Maria Supersequence of the Paraná Basin, Southernmost Brazil, and its Correlation to the Waterberg Basin, Namibia     

Henrique Zerfass  Farid Chemale  Jr.  Ernesto Lavina 《Gondwana Research》2005,8(2):163-176

The Middle and Late Triassic Santa Maria Basin, exposed in southernmost Brazil, and Waterberg Basin, in Namibia, are herein interpreted as part of en échelon small basins in southern West Gondwana. The main structures are the Waterberg-Omaruru Fault which can be connected to a NW-strike anastomosed fault zone in Brazil. Based on field structural and stratigraphic analysis two populations of NW-strike fractures, named A-type and B-type, are recognized. A-type fractures (Az = 280°-290°) occur in the Sanga do Cabral Supersequence, underlying units of Santa Maria Basin, as extension of the Waterberg-Omaruru Fault during the Early Triassic. B-type fractures (Az = 295°-345°) are observed in all studied stratigraphic units, from the Triassic Sanga do Cabral Supersequence to the Early Cretaceous Botucatu/Serra Geral formations. Based on the structural analysis we propose that NNE-SSW extension reactivated structures of the Damara Belt, Namibia, with a propagation towards Rio Grande do Sul State forming an anastomosing normal fault system and related-rift basin by Early-Middle Triassic time. The A-type fractures were preferentially active by this phase and the B-type ones are interpreted as secondary link segments within the anastomosing system. During the Gondwana break-up and South Atlantic opening (rift to proto-oceanic phase, Aptian) the B-type fractures were reactivated as normal faults by N50°E-S50°W extension.  相似文献   

Structural control of Au–Pd mineralization (Jacutinga): An example from the Cauê Mine, Quadrilátero Ferrífero, Brazil     

H.F. Galbiatti  M.A. Fonseca  M.C. Pereira  J.C. Polnia 《Ore Geology Reviews》2007,32(3-4):614

Precambrian banded iron formations (BIFs) in the Quadrilátero Ferrífero host a special kind of Au–Pd mineralization known as Jacutinga. The main orebodies are hosted within the Cauê Syncline, a SW-verging fold that involves Paleoproterozoic metasedimentary rocks in the Itabira District, a regional synclinorium with BIFs in the core of synclinal folds in the northeastern part of Quadrilatéro Ferrífero, Minas Gerais. Structural analysis reveals two important features of the district: the polydeformed character of the rocks and the importance of brittle structures in the control of the orebodies. Two deformational events are recognized in this area. The first event developed the main foliation, S1, that is the enveloping surface of the Cauê Syncline. The second event is better defined in the northern boundary of the structure where it is represented by a right-lateral wrench fault zone that has developed a foliation, S2, that truncates S1. This wrench fault was also responsible for the development of a system of fractures (Frm) that host the Au–Pd mineralization. The auriferous bodies of Cauê Syncline (Y, X, Área Central, Aba Norte, Noroeste and Aba Leste/Aba Leste Inferior) were generated during this second event. Shear fractures (R, R′ and P) and tension fractures (T) developed in response to the wrench fault system under brittle conditions. The best-developed, and most commonly mineralized fractures are R and T in all auriferous bodies. Elsewhere, the best mineralization occurs in the contacts of hematite bodies (soft/hard) and intrusive rocks with fractured itabirites. Other mineralization (Aba Norte, Área Central and X) is hosted on the contacts of other units.A system of fractures, as well as their intersections, thus represents the structural control on Jacutinga bodies and is responsible for the geometry of the orebodies. Of importance, there is no control by mineral/stretching lineations, fold axes and other ductile structure on the geometry and plunge of the orebodies.  相似文献   

The polymetallic Au–Ag-bearing veins of Bou Madine (Jbel Ougnat, eastern Anti-Atlas, Morocco): tectonic control and evolution of a Neoproterozoic epithermal deposit     

El Hassan Abia  Hassan Nachit  Christian Marignac  Abderrahmane Ibhi  Saïd Ait Saadi 《Journal of African Earth Sciences》2003,36(4):251-271

The Bou Madine ore deposit is located SW of Jbel Ougnat, the easternmost inlier of the Anti-Atlas Pan-African belt in Morocco. The host rocks are high-K calc-alkaline volcanic rocks, that are part of the Neoproterozoic Tamerzaga-Timrachine Formation (TTF, lower PIII). The TTF consists of ignimbrites of rhyolitic to dacitic compositions, andesite flows and hypovolcanic bodies (andesite dykes and rhyolite chonoliths) emplaced along N160°E tension gashes associated with a regional N30°E sinistral fault system. The mineralization is related to a high enthalpy geothermal system, eventually evolving into a low temperature epithermal system. A regional propylitisation (T around 260 °C) overprinted the TTF rocks prior to the emplacement of the mineralization. There were two main hydrothermal stages. During the first stage, massive veins with pyrite, arsenopyrite and minor pyrrhotite and cassiterite were formed. The veins were emplaced along N160°E-trending en echelon joints related to N120°E dextral arrays. A quartz-sericite-pyrite alteration overprinted the propylites around the veins (“bleached haloes”), at temperatures up to 300–310 °C. The second stage of mineralization was coeval with dextral re-activation of the N160°E veins, in relation with a NE-ward shift of the shortening direction. First, polymetallic sulphides (sphalerite, chalcopyrite, stannite, galena) were deposited at temperatures 260 °C. Younger quartz veinlets contain arsenopyrite and minor micrometre-size sulphides and sulpho-salts, hosting the precious metals. This was the low temperature epithermal stage (≈150 °C), in relation with invading meteoric water.  相似文献   

A GPR study of subsidence-creep-fault processes in Morelia, Michoacán, Mexico     

Jorge A. Avila-Olivera  Víctor H. Garduo-Monroy 《Engineering Geology》2008,100(1-2):69-81

In 1983, inhabitants of the City of Morelia, Michoacán, Mexico, began to observe a series of differential settlements causing damages to constructions along linear trends parallel to a system of regional faults. The same phenomenon occurs in others cities of the Mexican Volcanic Belt (MVB), such as Celaya, Aguascalientes, and Querétaro, and is linked to a structurally controlled subsidence, caused by groundwater withdrawal, and the presence of geological faults. We define this subsidence type as Subsidence-Creep-Fault Processes (SCFP), based on the necessary elements for their generation, and we studied them through geophysical and geotechnical techniques. In Morelia, the geophysical investigations have been carried out using ground-penetrating radar (GPR). GPR profiles, perpendicular to the axis of the surface fault generated by the SCFP were carried out. The common-offset single-fold profiling was used, with a central frequency of 50 MHz. In all cases it has been possible to visualize a fault plane dividing two blocks, the presence of synthetic and antithetic faults, influence zones from 20 m to 40 m, and a maximum “net throw” of 4 m. Exploration trenches followed the same direction of the profiles obtained with GPR (perpendicular to the axis of the surface fault). These trenches exposed a fault plane dividing two blocks with different lithology, generating a maximum “net throw” of 4.40 m; as well they help in the determination of influence zones that varied from 14 m to 40 m.  相似文献   

Sedimentology and sequence stratigraphy of Aquitanian and Burdigalian stratotypes in the Bordeaux area (southwestern France)     

Olivier Parize  Thierry Mulder  Bruno Cahuzac  Nicolas Fiet  Laurent Londeix  Jean-Loup Rubino 《Comptes Rendus Geoscience》2008,340(6):390-399

The historical stratotypes of the Aquitanian and Burdigalian in the Aquitaine Basin are studied here by using the tools of facies sedimentology and the concept of sequence stratigraphy. This analytical method combines recognition and sequential organization of facies, and several types of stratigraphic markers. This method allows identification of at least six depositional sequences within the Miocene of the Saucats area: the four lower ones belong to the Aquitanian, the fifth one to the whole Burdigalian, while the sixth sequence corresponds to the Serravallian. In addition, this method provides evidence of a period of emersion before each transgression, suggesting potential fluvial erosion. Nevertheless, these phases are of lower amplitude than those observed in the Rhodano-Provençal Basin.

Résumé

Les stratotypes historiques de l’Aquitanien et du Burdigalien, en Aquitaine, sont étudiés ici en termes de sédimentologie de faciès et de stratigraphie séquentielle. Cette méthode d’analyse combine la reconnaissance et l’organisation séquentielle des faciès à plusieurs types de repères stratigraphiques. Elle permet d’identifier au moins six séquences de dépôt dans le Miocène de la région de Saucats : les quatre premières dans l’Aquitanien, la cinquième pour le Burdigalien et la dernière pour le Serravallien. Elle a également permis de mettre en évidence des phases d’émersion anté-transgression, suggérant de possibles érosions fluviatiles, mais d’ampleurs inférieures à celles reconnues dans le Bassin miocène rhodano-provençal.  相似文献   

Répartition et utilisation stratigraphique des Bryozoaires du crétacé moyen (Aptien-Coniacien)     

E. Voigt 《Cretaceous Research》1981,2(3-4)

Bien que la durée stratigraphique de la plupart des Bryozoaires crétacés ne soit pas exacterment connue, beaucoup d'espèces caractérisent assez bien les différents étages. Au Crétacé inférieur, dont la faune bryozoologique est plus pauvre que celle du Crétacé supérieur, ce sont les Cyclostomata qui dominent encore, comme au Jurassique. A l'Aptien, citons Chisma, mais aussi Ceata, Meliceritites et Laterocavea apparus au Barrémien. La faune de l'Albien, un peu appauvrie et peu connue, n'a fourni que quelques genres nouveaux encroûtants de Cheilostomata anasca (Rhammatopora, Wilbertopora).Au Cénomanien commence l'explosion des Bryozoaires. Les Cheilostomata les plus anciennes, les Cribrimorpha, les genres “Biflustra”, Cellarinidra, Quadricellaria, Onychocella, “Rhagasostoma”, Stichomicropora, Aechmella et un grand nombre de Cyclostomata (Crisisina, Heterocrisina, Fascipora, Spirentalophora, Marssoniella, Amphimarssoniella, Umbrellina, Exidmonea, Corymbopora, Desmopora, Discocytis, Supercytis, Truncatulipora, etc.) apparaissent. Le Turonien est caractérisé par les genres Cyclostomes (Reticrisina, Bicavea, Homoeosolen), les Cheilostomes (Tylopora, Euritina, Fusicellaria, Reptolunulites) et par de nombreuses Cribrimorpha.Onychocella nerei et Membranipora perincerta sont caractéristiques du Coniacien où l'on trouve aussi les Lunulites et Pavolunulites. Le Coniacien, plus riche en espéces que le Turonien, contient de très nombreux genres et espèces qui se poursuivent dans les étages plus élevés (Santonien-Maastrichtien).This paper deals with the distribution and stratigraphic value of Mid-Cretaceous Bryozoa (Aptian-Coniacian). Research on Cretaceous bryozoa has been neglected during the last decades and knowledge of the stratigraphical range of many Upper Cretaceous genera and species is based mainly on the personal experience of the present author. Accordingly, the range of most species is not exactly known, and the results of these investigations are only preliminary. Many cyclostomate genera (such as Stomatopora, Proboscina, Diastopora, Berenicea and Entalophora) lack easy identifiable specific characteristics, and all the other genera which can be recognized only by their rare ovicells (gonozoids) (such as Plagioecia, Diaperoecia, Microecia, Mecynoecia, Spiropora, Heteropora or Ceriopora, Reptomulticava, Lichenopora and many others) are not particularly suitable as guide-fossils. On the other hand, many characteristic new species have not yet been described.The bryozoa of the Lower Cretaceous are similar to those of the Jurassic. Both are characterized by the absolute predominance of the Cyclostomata and a few very rare primitive Cheilostomata belonging to the encrusting membranimorph Anasca.The Barremo-Aptian fauna, known mainly from England (Faringdon, Berkshire) and eastern and southern France, is characterized by the first Eleidae (Meliceritidae) with Meliceritites and Foricula, the first Ceidae, Clausidae and Horneridae with Siphodictyum and Laterocavea, Chisma furcillatum is known only from the Aptian. Cheilostomata are rare and are represented solely by encrusting membranimorph genera (Rhammotopora, “Membranipora”). The poor Albian bryozoan fauna, although similar to that of the Aptian, is characterized by the appearance of primitive uniserial cheilostomate genera such as (?) Pyriporopsis, Charixa and the genus Wilbertopora. Erect precenomanian Cheilostomata are not known. Albian Bryozoa are little-known and relatively rare.Within the Cenomanian (the plenus-zone included) many new cyclostomate genera Fascipora, Umbrellina, Siphoniotyphlus, Crisisina, Heterocrisina, Discofascigera, Corymbopora, Marssoniella, Amphimarssoniella, Discocytis, Discotruncatulipora, Truncatulipora, Desmepora, Exidmonea, Meliceritella and numerous cheilostomate genera besides “Membranipora” mainly Aechmella, Onychocella, Stichomicropora and several cribrimorphs appear for the first time. The Cenomanian is also characterized by the first erect cheilostomate species such as Onychocella, “Biflustra” or “Vincularia” and the oldest articulated or radicelled cheilostomes (Cellarinidra, Quadricellaria).During the Turonian (excluding the plenus-zone), which is less abundant in Bryozoa than the Cenomanian, the cheilostomes increase (common genera are Onychocella, Euritina, “Rhagasostoma”, bilamellar membranimorphs and cribrimorphs, mainly Rhabdopora) and the first primitive Lunulitidae (Reptolunulites) occur. Among the cyclostomes, represented by numerous species of Meliceritites, Semielea, Foricula, Truncatulipora, Clausa, Petalopora, Heteropora and the first representatives of Homoesolen, Reticrisina, Tervia and Bicavea appear.Within the Coniacian, rich faunas are known from France and England. Although the Cyclostomata are still dominant until the Santonian, considerable progress in the evolution of the Cheilostomata was made mainly by the development of the onychocellids, the erect membranimorphs and the radiation of the different cribrimorph families and genera. The oldest free-living Lunulitidae with Lunulites and Pavolunulites are recorded from the Coniacian. Among the Cyclostomata, the appearance of the genera Diplosolen, Clypeina, Crisina, Filicrisina, Sulcocava, Ditaxia, Pachyteichopora and Cytis is noteworthy. The Coniacian bryozoan fauna is closely related to that of the Santonian and has clearly an Upper Cretaceous character.I refer to the text for comments on single species which may be supposed to be useful as guide-fossils for the Aptian-Coniacian stages.  相似文献   

Transgressions-régressions, variations eustatiques et influences tectoniques de l'Aptien au Maastrichtien dans le Bassin de Paris occidental et sur la bordure du Massif armoricain     

P. Juignet 《Cretaceous Research》1980,1(4):341-357

La série sédimentaire du Crétacé moyen et supérieur étudiée dans l'Ouest du Bassin de Paris et sur la bordure du Massif armoricain comporte sept pulsations transgressives qui peuvent être reconnues en fonction de la disposition géomètrique des dépôts et de l'enchaînement vertical des faciès.Les épisodes transgressifs atteignent leur phase paroxysmale, en alternance avec des stades de régression, successivement:

1. (1) à la fin de l'Aptien supérieur —(régression début Albien)

2. (2) au milieu de l'Albien supérieur —(régression fin Albien-début Cénomanien)

3. (3) au milieu du Cénomanien inférieur —(régression fin Cénomanien inférieur)

4. (4) à la fin du Cénomanien moyen —(régression fin Cénomanien)

5. (5) au milieu du Turonien inférieur —(régression du Coniacien)

6. (6) au Santonien puis Campanien —(régression fin Campanien)

7. (7) au Maestrichtien —(régression fin Maastrichtien)

Ces dépôts crétacés présentent une succession de séquences séparées par des discontinuités et des surfaces d'érosion plus ou moins marquées. Les caractères et la répartition de ces séquences sont analysés en domaine de sédimentation terrigène littorale et dans le bassin envahi par la craie. Il est alors tenté d'interpréter les variations bathymétriques d'une part en fonction d'évènements tectoniques locaux, d'autre part en relation avec des variations eustatiques plus générales.Middle and Upper Cretaceous deposits studied in the western Paris Basin and on the Armorican Massif margin show seven transgressive pulses that can be detected in the geometrical arrangement of the sedimentary bodies and the vertical succession of facies.The transgressive episodes, each delimited by a regressive phase, reached their peak during:

1. (1) late Late Aptian —(Early Albian regression)

2. (2) mid Late Albian —(Late Albian-Early Cenomanian regression)

3. (3) mid Early Cenomanian —(late Early Cenomanian regression)

4. (4) late Middle Cenomanian —(Late Cenomanian regression)

5. (5) mid Early Turonian —(Coniacian regression)

6. (6) Santonian-Campanian —(Late Campanian regression)

7. (7) Maastrichtian —(Late Maastrichtian regression)

The Cretaceous sediments occur as a series of sequences, separated by more or less important discontinuities and erosion surfaces. The features and distribution of these sequences have been studied in the nearshore region of terrigenous sedimentation and in the Chalk basin. An attempt is made to relate the bathymetric changes to either tectonic movements or more widespread eustatic oscillations.  相似文献