18 research outputs found

    Structure and Petrology of the Willimantic Dome and the Willimantic Fault, Eastern Connecticut

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    Guidebook for field trips in Connecticut and south central Massachusetts: New England Intercollegiate Geological Conference 74th annual meeting, University of Connecticut, Storrs Connecticut , October 2 and 3, 1982: Trip P-

    Geochemistry of Early Devonian calc-alkaline plutons in the Merrimack Belt: implications for mid-Paleozoic terrane relationships in the New England Appalachians

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    A series of northeast-trending plutons extending from northeastern Massachusetts to southeastern Maine intruded the metasedimenlary rocks of the Merrimack belt. The Early Devonian Dracut, Sweepstakes, Island Pond. Exeter, and Webhannet plutons are metaluminous and, with the exception of the granitie Webhannet pluton, are dominantly mafic to intermediate in composition. The plutons are calc-alkaline in character and have major, minor, and trace clement compositions typical of magmas generated at destructive plate margins. These characteristics include mid- to high-K contents, enrichment of LII.E, LREE, Ba. and Sr. and negative Nb and Ta anomalies. Whole-rock chemical data indicate that the plutons of the Merrimack belt arc similar in every measured geochemical parameter to ca. 400 Ma mafic to intermediate rocks of the New Hampshire Plutonic Suite. These similarities suggest that both groups of plutons were emplaced within the same magmatic arc and belong to the same magmatic suite. A magmatic suite common to both the Merrimack belt and Central Maine terrane suggests that the two lithotectonic zones were proximal to each other at ca. 400 Ma. Trace element differences between Merrimack belt and Sharpners Pond rocks suggest (hat the Putnam-Nashoba terrane represents a separate arc. Located in the Central Maine terrane of New Hampshire, the Rochester pluton is geochemically distinct from the Siluro-Devonian plutons of the Merrimack belt and New Hampshire Plutonic Suite. The Rochester pluton has alkaline affinities but retains overall calc-alkaline features. High concentrations of incompatible elements (K, Ti, P, Ba, Rb, Zr) in the Rochester pluton are markedly similar to those observed in the 360 Ma Hardwick Tonalite of Massachusetts. The strong geochemical correlation between the Rochester and Hardwick plutons implies derivation from the same magmatic event and a common, Late Devonian origin. We suggest that these plutons may have originated in response to pull-apart rifting related to late-stage Acadian transpression. RÉSUMÉ Une série de plutons orientée vers Ie nord-est s'élendant du nord-est du Massachusetts au sud-est du Maine, fait intrusion dans les roches métasédimentaires de la ceinture de Merrimack. Les plutons du Devonien inférieur Dracut Sweepstakes. Island Pond. Exeter et Webhannet constituent des intrusions métalumincuses et, mis à part le pluton granitique Webhannet, ils ont une composition en prédominance mafique à intermédiare. Les plutons ont une conformation calco-alcalinc et leur composition du point de vue des principaux éléments présents, de ceux présents en quantité restreinie et des éléments traces est représentative des magmas produits aux frontièrs de plaques destructives. Leurs caractéristiques component nolamment une teneur movenne à élevée en potassium, un enrichissement en LILEen éléments de terres rares légères. en BA et en SR. de mème que des anomalies négatives de Nb et Ta. Les données de la roche totale révèlent que les plutons de la ceinture de Merrimack sont semblables. sous le rapport de chacun des paramètres géochimiques mesurés. aux magmas mafiques à intermédiaires d'il y a environ 400 Ma du cortège plutonique du New Hampshire. Ces similarités permeltent de supposer que les deux groupes de plutons ont été insérès à l’intérieur du mème arc magmatique et qu'ils appartienment au mème cortège magmatique. L'existence d'un cortège magmatique commun à la ceinture de Merrimack et au terrane de Central Maine permet de supposer que les deux zones lithotectoniques étaient proximales I'une de 1'autre il y a environ 400 Ma. Les différences par rapport aux éléments traces entre les magmas de la ceinture de Merrimack et ccux de Sharpners Pond laissent supposer que le terrane de Putnam-Nashoba rcprisenie un arc distinct Le pluton Rochester, situé dans le terrane de Central Maine du New Hampshire, est géochimiquement distinct des plutons siluro-dévoniens de la ceinture de Merrimack et du cortège plutonique du New Hampshire. Le pluton Rochester présente des affinités alcalines tout en conservant ses carectéristiques calco-alcalines générales. Les concentrations élevées d'éléments incompatibles (K, Ti, P, Ba, Rb, Zr) dans le pluton Rochester sont manifestement semblables à celles observers dans la tonalite d'il y a 360 Ma de Hardwick, au Massachusetts. La correlation géochimique prononcée entre les plutons Rochester et Hardwick suppose qu'ils découlent du mème phénoméne magmatique et qu'ils ont une origine commune remontant au Dévonien supérieur. Nous pensons que ces plutons tirent probablement leur origine d'une réaction a une distension d'écartemcnt apparentée à une transpression acadienne tardive. Traduit par la rédactio

    Insights into the Acadian orogeny, New England Appalachians: a provenance study of the Carrabassett and Kittery formations, Maine

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    The Central Maine Basin and Merrimack Trough are Silurian basins that formed adjacent to or were accreted to the Laurentian margin during the Acadian orogeny. The Early Devonian Carrabassett Formation of the Central Maine Basin and the Kittery Formation of the Merrimack Trough have major and trace element compositions indicative of a passive continental margin provenance, not unlike the older formations of the Central Maine Basin that are thought to have been derived from Laurentian sources. However, both the Carrabassett and Kittery formations have paleocurrent indicators of outboard sources. The Carrabassett Formation is one of the youngest formations of the Central Maine Basin and was deposited just prior to the Acadian orogeny. The Carrabassett and Kittery formations have major and trace element concentrations suggestive of passive margin turbidites derived from intermediate to felsic sources, inconsistent with a juvenile Avalonian provenance. The Carrabassett Formation contains detrital zircon grains that match the ages of peri-Gondwanan Ganderia. Unlike the dominance of positive bulk-rock ΔNd values that are characteristic of Avalonia, Ganderia has negative ΔNd values that are a better match for the negative ΔNd values of the Carrabassett and Kittery formations. However, Ganderia accreted to Laurentia during the Salinic orogeny, prior to the deposition of the Carrabassett Formation, and was basement to the sediments of the Central Maine Basin upon which the Carrabassett and other formations were deposited. Wedging of Ganderia by Avalonia during the initial stages of the Acadian orogeny may have uplifted Ganderia, forming highlands outboard of the Central Maine Basin that served as the source of the Carrabassett Formation sediments. RÉSUMÉ Le bassin central du Maine et la cuvette de Merrimack constituent des bassins siluriens s’étant formĂ©s le long de la marge laurentienne ou s’y Ă©tant accrĂ©tĂ©s au cours de l’orogenĂšse acadienne. La Formation du DĂ©vonien prĂ©coce de Carrabassett, dans le bassin central du Maine, et la Formation de Kittery, de la cuvette de Merrimack, prĂ©sentent des compositions en Ă©lĂ©ments majeurs et traces signalant une provenance d’une marge continentale passive, Ă  l’instar des formations plus ĂągĂ©es du bassin central du Maine qu’on pense originaires de sources laurentiennes. Les formations de Carrabassett et de Kittery comportent toutefois des indicateurs de palĂ©ocourants de sources extĂ©rieures. La Formation de Carrabassett constitue l’une des formations les plus rĂ©centes du bassin central du Maine; elle s’est mise en place juste avant l’orogenĂšse acadienne. Les caractĂ©ristiques gĂ©ochimiques et gĂ©ochronologique des formations de Carrabassett et de Kittery pourraient par consĂ©quent permettre l’identification du terrane de collision. Les formations de Carrabassett et de Kittery possĂšdent des concentrations d’élĂ©ments majeurs et traces Ă©voquant les turbidites de marge passive en provenance de sources intermĂ©diaires Ă  felsiques, ce qui est contradictoire avec une origine avalonienne juvĂ©nile. La Formation de Carrabassett comporte des grains dĂ©tritiques de zircon correspondant aux Ăąges du Ganderia pĂ©rigondwanien. Contrairement Ă  la prĂ©dominance de concentrations ΔNd positives de roche en vrac caractĂ©ristiques d’Avalonia, Ganderia prĂ©sentent des concentrations ΔNd nĂ©gatives qui cadrent mieux avec les concentrations ΔNd nĂ©gatives des formations de Carrabassett et de Kittery. Ganderia s’est toutefois accrĂ©tĂ© Ă  Laurentia au cours de l’orogenĂšse salinique, avant le dĂ©pĂŽt de la Formation de Carrabassett, et il a constituĂ© le socle des sĂ©diments du bassin central du Maine sur lesquels Carrabassett et d’autres formations se sont dĂ©posĂ©es. L’enfoncement d’Avalonia sous Ganderia au cours des stades initiaux de l’orogenĂšse acadienne pourrait avoir soulevĂ© Ganderia, formant un massif Ă  l’extĂ©rieur du bassin central du Maine qui a servi de source aux sĂ©diments de la Formation de Carrabassett. [Traduit par la redaction

    Evidence for syntectonic crystallization for the mudstone to slate transition at Lehigh gap, Pennsylvania, U.S.A.

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    Data primarily for phyllosilicates have been obtained for the continuous transitional sequence from mudstone to slate with well-developed slaty cleavage at Lehigh Gap, Pennsylvania, and for slates from quarries in the same area. Samples were studied by optical microscopy, powder X-ray diffraction and electron microprobe analysis, with emphasis on transmission and analytical electron microscopy. Mineral grains are virtually free of deformation-induced strain. Concomitant with the gradual development of cleavage normal to bedding the following changes are observed or confirmed: (1) the orientation of phyllosilicate grains changes discontinuously from being preferentially parallel to bedding to being parallel to cleavage; (2) crystal imperfections as expressed in layer terminations, low angle grain boundary-like features and other defects decrease in density; (3) complex mixed layering is replaced by homogeneous packets of layers of single phases and (4) illite transforms to muscovite, with increase in K + Al and change from a 1Md to 2M polytype. Slaty cleavage apparently develops due in part to pressure solution of phyllosilicates oriented parallel to bedding, mass transport of components, and crystallization to form new grains parallel to cleavage. It reflects transitions from imperfect, metastable phases toward ordered stable phases in a low temperature (~225[deg]C) metamorphic environment.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/26438/1/0000526.pd

    Primitive layered gabbros from fast-spreading lower oceanic crust

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    Three-quarters of the oceanic crust formed at fast-spreading ridges is composed of plutonic rocks whose mineral assemblages, textures and compositions record the history of melt transport and crystallization between the mantle and the sea floor. Despite the importance of these rocks, sampling them in situ is extremely challenging owing to the overlying dykes and lavas. This means that models for understanding the formation of the lower crust are based largely on geophysical studies and ancient analogues (ophiolites) that did not form at typical mid-ocean ridges. Here we describe cored intervals of primitive, modally layered gabbroic rocks from the lower plutonic crust formed at a fast-spreading ridge, sampled by the Integrated Ocean Drilling Program at the Hess Deep rift. Centimetre-scale, modally layered rocks, some of which have a strong layering-parallel foliation, confirm a long-held belief that such rocks are a key constituent of the lower oceanic crust formed at fast-spreading ridges. Geochemical analysis of these primitive lower plutonic rocks-in combination with previous geochemical data for shallow-level plutonic rocks, sheeted dykes and lavas-provides the most completely constrained estimate of the bulk composition of fast-spreading oceanic crust so far. Simple crystallization models using this bulk crustal composition as the parental melt accurately predict the bulk composition of both the lavas and the plutonic rocks. However, the recovered plutonic rocks show early crystallization of orthopyroxene, which is not predicted by current models of melt extraction from the mantle and mid-ocean-ridge basalt differentiation. The simplest explanation of this observation is that compositionally diverse melts are extracted from the mantle and partly crystallize before mixing to produce the more homogeneous magmas that erupt

    Deformation Induced Growth of Sillimanite: "Stress" Minerals Revisited

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    Bedrock geology of the Paleozoic rocks of western New Haven quadrangle, Connecticut

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    <p>The Paleozoic rocks underlying the western third of the New Haven Quadrangle, Connecticut, are mapped at a scale of 1:24,000. This area of ∌41.5 km<sup>2</sup>, previously mapped only in reconnaissance, contains polymetamorphic argillites and mafic rocks. The northern portion of the mapped area contains the pelitic Wepawaug schist, whereas the southern portion is underlain by the pelitic Savin Schist. Between them lies the Maltby Lakes Complex (MLC) that contains newly identified fault slivers of variably metamorphosed mafic phyllites and amphibolites. Metamorphic foliations in both the MLC and the Savin Schist are truncated by a swarm of basalt dikes: the Allingtown porphyry, which is itself commonly schistose and locally mylonitic. Previous interpretations held that these rocks constitute a conformable, northwest-topping stratigraphic sequence. In contrast, we propose that Ordovician(?) oceanic rocks of the MLC were variably metamorphosed and faulted against the Ordovician(?) Savin Schist. These were intruded by a swarm of stitching Allingtown dikes. This package of rocks was then faulted against Siluro-Devonian(?) Wepawaug forearc sediments. Existing thermochronology indicates a Devonian age of the subsequent regional metamorphism, overprinted by low-grade Permian fabrics associated with dextral transpression and final terrane assembly.</p

    Experimental controls on D/H and 13C/12C ratios of kerogen, bitumen and oil during hydrous pyrolysis

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    Large isotopic transfers between water-derived hydrogen and organic hydrogen occurred during hydrous pyrolysis experiments of immature source rocks, in spite of only small changes in organic 13C/12C. Experiments at 330'C over 72 h using chips or powder containing kerogen types I and III identify the rock/water ratio as a main factor affecting ASD for water and organic hydrogen. Our data suggest that larger rock permeability and smaller rock grain size increase the H-isotopic transfer between water-derived hydrogen and thermally maturing organic matter. Increasing hydrostatic pressure may have a similar effect, but the evidence remains inconclusiv
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