75 research outputs found
Allanite in Variscan Post-Collisional Lamprophyre Dykes from Les Guilleries (NE Iberia) as a Part of Rare Earth Elements Recycling in Collisional Orogens
Recent studies of Late Permian calc-alkaline lamprophyre dykes located in the Les Guilleries Paleozoic massif of the Catalan Coastal Range have revealed that allanite is present as the main REE-bearing accessory phase, which is the object of this study. The lamprophyre dykes are amphibole-plagioclase-dominated spessartites with a wide variety of accessory phases, including titanite, ilmenite, allanite, fluorapatite, spinel, zircon, and sulfides, and show complex alteration textures related to secondary albite, chlorite, epidote, titanite and calcite. The allanite crystal composition, analyzed by SEM-EPMA and LA-ICP-MS, evidences the solid solution between epidote and allanite with a ferriallanite component, similar to what is found in Variscan post-collisional granitoids from western Europe. However, heterogeneity in crystal shapes, sizes, type of zoning, dissolution embayment textures, growth of epidote coronas, mineral paragenesis, and the unique geochemical characteristics of allanite crystals suggest multiple crystallization events. At least two types of allanite-epidote composite grains have been identified: allanite Type I, with regular allanite-epidote core-to-rim zoning and a secondary allanite rim; and allanite Type II, with anhedral allanite cores surrounded by epidote coronas. Additionally, irregular zoning, complex dissolution textures and REE redistribution suggest the occurrence of deuteric and/or post-magmatic processes, which are also common in Variscan post-collisional plutons from the Catalan Coastal Range and nearby Paleozoic massifs. Multivariate statistical analyses of major elements in allanite-epidote composite grains show a relationship between major textural and geochemical variations for three out of ten principal components, mainly related to cationic substitutions between ferriallanite-(Ce) and epidote, but also involving Mn and Ti(REE + Fe + Ti + Mg + Mn = Al + Ca + Fe). The allanite U-Pb-Th- weighted mean age of 265 ± 15 Ma (MSWD = 0.57) is roughly similar to the age of emplacement of the lamprophyres in the upper crust in the mid-late Permian, and coincides with the period following the main tectonometamorphic and magmatic events of the post-collisional evolution in the Catalan Coastal Range. Th/U and La/Sm ratios suggest a metamorphic origin for most allanite grains, but a combination of metamorphic processes prior to partial melting, early-late magmatic crystallization, and/or post-magmatic hydrothermal processes is the most plausible explanation to account for the diversity of allanite grains in Les Guilleries lamprophyres
Neoproterozoic hydrothermal activity in the West Australian Craton related to Rodinia assembly or breakup?
The timing of final assembly and initiation of subsequent rifting of Rodinia is disputed. New rutile ages (913 ± 9 Ma, 900 ± 8 Ma and 873 ± 3 Ma) and published zircon, monazite, titanite, biotite, muscovite and xenotime geochronology from the Capricorn Orogen (West Australian Craton) reveal a significant early Neoproterozoic event characterized by very low to low metamorphic grade, abundant metasomatism, minor leucogranitic and pegmatitic magmatism and NWâSE fault reactivation episodes between ca. 955 and 830 Ma. Collectively, these are termed the ca. 955â830 Ma Kuparr Tectonic Event. An age range of ca. 955â830 Ma is concomitant with the final stages of Rodinia assembly and the initial stages of its attempted breakup. Very low- to low-grade metamorphic and structural geological evidence favor a distal northâsouth compressional regime as the driver for hydrothermal activity during ca. 955â830 Ma. Nearby continental collision or accretion from the west (e.g., South China and/or Tarim) are ruled out. The cessation of metasomatism and magmatism in the West Australian Craton after ca. 830 Ma is concomitant with the emplacement of the GairdnerâAmata dyke swarm and associated magmatic activity in South China and Laurentia, the inception of the Adelaide Rift Complex and the deposition of the Centralian Superbasin. We posit that the cessation of hydrothermal activity in the Capricorn Orogen was caused by a tectonic switch from compressional to extensional at ca. 830 Ma. Magmatic and hydrothermal fluids were transferred away from the Capricorn Orogen to the incipient Adelaide Rift Complex, terminating metasomatism in the West Australian Craton. Ultimately, the Kuparr Tectonic Event marked the final stages of Rodinia assembly and its cessation marks the initial stages of its attempted breakup
Crystal plasticity and fluid availability govern the ability of titanite to record the age of deformation
Here, we study the relationships of titanite-hosting microdomains, intragrain chemical variations,
microstructure and fluids with the aim of deciphering the reliability of titanite UâPb dating to
constrain the age of deformation in mylonitic rocks. We investigate these relationships in a postVariscan amphibolite-facies shear zone developed in the mid-low continental crust (Ivrea-Verbano
Zone, Southern Alps, Italy). Quantitative orientation analyses along with textural imaging of titanite
are combined with trace-element analyses and UâPb age dating. Titanite is studied in mm- to cmscale layered rocks showing compositional variation consisting of alternating âamphibole-richâ (i.e.,
amphibolites) and âclinopyroxene/plagioclase-richâ domains (i.e., calc-silicates). Titanite from amphibolerich domains shows predominance of crystalâplastic deformation features, as abrupt or progressive coreto-rim structures characterized by increasing lattice distortion and local dislocation density, associated
with the development of abundant subgrains and rare newly nucleated grains. We suggest that
these microstructures form while interacting with small amounts of fluids circulating along the grain
boundaries. Consequently, locally the chemistry of titanite is changing. In the clinopyroxene/plagioclaserich domains, titanite is mostly undeformed and rarely shows bending localized in discontinuous narrow
rims/tips. In these domains, fluid-mediated replacement reactions are either rare or absent, as also
indicated by weak chemical variations across and among grains. These observations suggest different
reactivities with respect to the same P-T-fluid conditions of the two compositional domains, which
coexist within the same sample at the thin section scale. UâPb data show correlations with chemical and
microstructural domains that differ as function of the composition of the microdomain. This correlation
is more apparent within amphibole-rich domains where microstructures characterized by high lattice
distortion/dislocations and/or subgrains show significant variations of REE, Zr, Y, Nb, U with respect to
the low deformed portion of grains. These titanite domains define an isotopic population providing
the youngest (Jurassic) lower intercept age. A less clear correlation between titanite chemistry and
microstructures is observed in clinopyroxene/plagioclase-rich domains. Here, the rare titanites showing
lattice distortion and minor Sr depletion define a population providing a similar Jurassic lower intercept
age. Therefore, our results demonstrate that microstructurally and chemical calibrated UâPb dating of
titanite provides realistic ages of shear zone activity, only in case of predominance of crystal-plastic
processes and of local interaction of titanite with small amounts of fluids focused along grain boundaries.
Finally, the different footprints recorded by titanite grains strongly depend on the composition of cm- or
mm-scale interlayered domains in which titanite occurs
Deeply dredged submarine HIMU glasses from the Tuvalu Islands, Polynesia: Implications for volatile budgets of recycled oceanic crust
Ocean island basalts (OIB) with extremely radiogenic Pb-isotopic signatures are melts of a mantle component called HIMU (high ”, high 238U/204Pb). Until now, deeply dredged submarine HIMU glasses have not been available, which has inhibited complete geochemical (in particular, volatile element) characterization of the HIMU mantle. We report major, trace and volatile element abundances in a suite of deeply dredged glasses from the Tuvalu Islands. Three Tuvalu glasses with the most extreme HIMU signatures have F/Nd ratios (35.6â±â3.6) that are higher than the ratio (âŒ21) for global OIB and MORB, consistent with elevated F/Nd ratios in end-member HIMU Mangaia melt inclusions. The Tuvalu glasses with the most extreme HIMU composition have Cl/K (0.11â0.12), Br/Cl (0.0024), and I/Cl (5â6 Ă 10â5) ratios that preclude significant assimilation of seawater-derived Cl. The new HIMU glasses that are least degassed for H2O have low H2O/Ce ratios (75â84), similar to ratios identified in end-member OIB glasses with EM1 and EM2 signatures, but significantly lower than H2O/Ce ratios (119â245) previously measured in melt inclusions from Mangaia. CO2-H2O equilibrium solubility models suggest that these HIMU glasses (recovered in two different dredges at 2500â3600 m water depth) have eruption pressures of 295â400 bars. We argue that degassing is unlikely to significantly reduce the primary melt H2O. Thus, the lower H2O/Ce in the HIMU Tuvalu glasses is a mantle signature. We explore oceanic crust recycling as the origin of the low H2O/Ce (âŒ50â80) in the EM1, EM2, and HIMU mantle domains
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Deeply dredged submarine HIMU glasses from the Tuvalu Islands, Polynesia: Implications for volatile budgets of recycled oceanic crust
Ocean island basalts (OIB) with extremely radiogenic Pb-isotopic signatures are melts of a mantle component called HIMU (high ”, high ÂČÂłâžU/ÂČâ°âŽPb). Until now, deeply dredged submarine HIMU glasses have not been available, which has inhibited complete geochemical (in particular, volatile element) characterization of the HIMU mantle. We report major, trace and volatile element abundances in a suite of deeply dredged glasses from the Tuvalu Islands. Three Tuvalu glasses with the most extreme HIMU signatures have F/Nd ratios (35.6â±â3.6) that are higher than the ratio (âŒ21) for global OIB and MORB, consistent with elevated F/Nd ratios in end-member HIMU Mangaia melt inclusions. The Tuvalu glasses with the most extreme HIMU composition have Cl/K (0.11â0.12), Br/Cl (0.0024), and I/Cl (5â6 Ă 10â»â”) ratios that preclude significant assimilation of seawater-derived Cl. The new HIMU glasses that are least degassed for HâO have low HâO/Ce ratios (75â84), similar to ratios identified in end-member OIB glasses with EM1 and EM2 signatures, but significantly lower than HâO/Ce ratios (119â245) previously measured in melt inclusions from Mangaia. COâ-HâO equilibrium solubility models suggest that these HIMU glasses (recovered in two different dredges at 2500â3600 m water depth) have eruption pressures of 295â400 bars. We argue that degassing is unlikely to significantly reduce the primary melt HâO. Thus, the lower HâO/Ce in the HIMU Tuvalu glasses is a mantle signature. We explore oceanic crust recycling as the origin of the low HâO/Ce (âŒ50â80) in the EM1, EM2, and HIMU mantle domains.This is the publisherâs final pdf. The article is copyrighted by American Geophysical Union and published by John Wiley & Sons, Inc. It can be found at: http://agupubs.onlinelibrary.wiley.com/agu/journal/10.1002/%28ISSN%291525-2027/. The data used in this paper can be found in the supporting information at: http://onlinelibrary.wiley.com/doi/10.1002/2015GC00596
Ä°zmirâAnkara suture as a Triassic to Cretaceous plate boundary â data from central Anatolia
The Ä°zmirâAnkara suture represents part of the boundary between Laurasia and Gondwana along which a wide Tethyan ocean was subducted. In northwest Turkey, it is associated with distinct oceanic subductionâaccretion complexes of Late Triassic, Jurassic and Late Cretaceous ages. The Late Triassic and Jurassic accretion complexes consist predominantly of basalt with lesser amounts of shale, limestone, chert, Permian (274 Ma zircon UâPb age) metagabbro and serpentinite, which have undergone greenschist facies metamorphism. ArâAr muscovite ages from the phyllites range from 210 Ma down to 145 Ma with a broad southward younging. The Late Cretaceous subductionâaccretion complex, the ophiolitic mĂ©lange, consists of basalt, radiolarian chert, shale and minor amounts of recrystallized limestone, serpentinite and greywacke, showing various degrees of blueschist facies metamorphism and penetrative deformation. ArâAr phengite ages from two blueschist metabasites are ca. 80 Ma (Campanian). The ophiolitic mĂ©lange includes large Jurassic peridotiteâgabbro bodies with plagiogranites with ca. 180 Ma UâPb zircon ages. Geochronological and geological data show that Permian to Cretaceous oceanic lithosphere was subducted north under the Pontides from the Late Triassic to the Late Cretaceous. This period was characterized generally by subductionâaccretion, except in the Early Cretaceous, when subductionâerosion took place. In the Sakarya segment all the subduction accretion complexes, as well as the adjacent continental sequences, are unconformably overlain by Lower Eocene red beds. This, along with the stratigraphy of the Sakarya Zone indicate that the hard collision between the Sakarya Zone and the AnatolideâTauride Block took place in Paleocene
Exhumation of the Inyo Mountains, California: Implications for the Timing of Extension along the Western Boundary of the Basin and Range Province and Distribution of Dextral Fault Slip Rates across the Eastern California Shear Zone
New geologic mapping, tectonic geomorphologic, 10Be terrestrial cosmogenic nuclide, and (U-Th)/He zircon and apatite thermochronometric data provide the first numerical constraints on late Cretaceous to late Quaternary exhumation of the Inyo Mountains and vertical slip and horizontal extension rates across the eastern Inyo fault zone, California. The east-dipping eastern Inyo fault zone bounds the eastern flank of the Inyo Mountains, a prominent geomorphic feature within the western Basin and Range Province and eastern California shear zone. (U-Th)/He zircon and apatite thermochronometry yield age patterns across the range that are interpreted as indicating: (1) two episodes of moderate to rapid exhumation associated with Laramide deformation during the late Cretaceous/early Tertiary; (2) development of a slowly eroding surface during a prolonged period from early Eocene to middle Miocene; (3) rapid cooling, exhumation, and initiation of normal slip along the eastern Inyo fault zone, accommodated by westward tilting of the Inyo Mountains block, at 15.6 Ma; and (4) rapid cooling, exhumation, and renewed normal slip along the eastern Inyo fault zone at 2.8 Ma. Fault slip continues today as indicated by fault scarps that cut late Pleistocene alluvial fan surfaces. The second episode of normal slip at 2.8 Ma also signals onset of dextral slip along the Hunter Mountain fault, yielding a Pliocene dextral slip rate of 3.3 ± 1.0 mm/a, where a is years. Summing this dextral slip rate with estimated dextral slip rates along the Owens Valley, Death Valley, and Stateline faults yields a net geologic dextral slip rate across the eastern California shear zone of 9.3 + 2.2/â1.4 to 9.8 + 1.4/â1.0 mm/a
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Reconceptualising product life-cycle theory as stakeholder engagement with non-proïŹt organisation
The paper critically re-examines product life-cycle (PLC) theory, developed over fifty years ago. Despite prevalence in marketing pedagogy and continued popularity within empirical research, PLC is seldom challenged. The paper identifies the organisation-centric construct underpinning the theory and highlights a disconnection between PLC theory and the recent academic insight around customer engagement.
It reconceptualises the life-cycle concept based on engagement between stakeholder and non-profit organisation (NPO), structured upon both the market orientation and social exchange constructs. The revised framework maps stakeholder engagement with the NPO through the five stages of incubation, interaction, involvement, immersion, and incapacitation. The paper concludes with identifying a roadmap for future empirical research to develop and validate the re-envisaged conceptual model. The methodology used is narrative literature review supported by secondary research from specialist practitioner reports
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