Triaxial Tests on Cataclasites     

A. Goricki  E. Pimentel 《Rock Mechanics and Rock Engineering》2015,48(5):2167-2171

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Rethinking the PhD in geography: overview and introduction     

Mark Boyle  Kenneth E. Foote  Mary Gilmartin 《GeoJournal》2015,80(2):159-168

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Using monitoring and modeling to define the hazard posed by the reactivated Ferguson rock slide,Merced Canyon,California     

Jerome V. De Graff  Alan J. Gallegos  Mark E. Reid  Richard G. LaHusen  Roger P. Denlinger 《Natural Hazards》2015,76(2):769-789

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Environmental effects of the December 28, 1908, Southern Calabria–Messina (Southern Italy) earthquake     

V. Comerci  E. Vittori  A. M. Blumetti  E. Brustia  P. Di Manna  L. Guerrieri  M. Lucarini  L. Serva 《Natural Hazards》2015,76(3):1849-1891

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Significant differences in late Quaternary bedrock erosion and transport: East versus West Greenland ∼70°N – evidence from the mineralogy of offshore glacial marine sediments          下载免费PDF全文

JOHN T. ANDREWS  ANDERS A. BJORK  DENNIS D. EBERL  ANNE E. JENNINGS  EMILY P. VERPLANCK 《第四纪科学杂志》2015,30(5):452-463

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Re‐evaluating the Late Quaternary fossil mammal assemblage of Seton Rockshelter,Kangaroo Island,South Australia,including the evidence for late‐surviving megafauna          下载免费PDF全文

MATTHEW C. MCDOWELL  GAVIN J. PRIDEAUX  KERYN WALSHE  FIONA BERTUCH  GERALDINE E. JACOBSEN 《第四纪科学杂志》2015,30(4):355-364

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A catalogue of caldera unrest at Taupo Volcanic Centre,New Zealand,using the Volcanic Unrest Index (VUI)     

Sally H. Potter  Bradley J. Scott  Gill E Jolly  David M. Johnston  Vince E. Neall 《Bulletin of Volcanology》2015,77(9):1-28

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Force interactions between magnetite,silica, and bentonite studied with atomic force microscopy     

I. Dobryden  E. Potapova  A. Holmgren  H. Weber  J. Hedlund  N. Almqvist 《Physics and Chemistry of Minerals》2015,42(4):319-326

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Stable staurolite–cordierite assemblages in K‐poor metapelitic schists in Aston and Hospitalet gneiss domes of the central Pyrenees (France,Andorra)          下载免费PDF全文

J. E. Mezger  J‐L. Régnier 《Journal of Metamorphic Geology》2016,34(2):167-190

Staurolite–cordierite assemblages are common in mica schists of the Aston and Hospitalet gneiss domes of the central Axial Zone, Pyrenees (France, Andorra). Within a 200 m wide zone, staurolite, cordierite and andalusite porphyroblasts contain inclusion trails that preserve the same stage of development of a crenulation cleavage, strongly suggesting that all three phases are contemporaneous. Their syntectonic growth occurred during a short period at the beginning of the formation of the dominant schistosity (S₂) of the domes. Staurolite and cordierite touching each other further indicates an equilibrium relationship. Whole‐rock analyses show that some staurolite–cordierite schists are depleted in K₂O compared to post‐Archean shales (PAAS) and amphibolite facies pelites. Analysis of the st‐crd paragenesis in K‐poor schists without muscovite using KFMASH and MnNCKFMASH petrogentic grids, pseudosections and AFM compatibility diagrams predicts stable conditions at pressures of ~3.5 kbar at 575 °C. For metapelites with intermediate X_Mg values (0.7 >  X_Mg >0.48) a ‘muscovite‐out window’ exists from 550–650 °C at 3.5 kbar in the KFMASH system. Conventional thermobarometry (GB‐GASP, AvT‐AvP) and petrogenetic grids show an isobaric P–T path to peak temperatures of ~650 °C, supported by the presence of sillimanite‐K‐feldspar gneiss and migmatites. LP‐HT metamorphism in the Aston dome is related to early Carboniferous (c. 339 Ma) granitic intrusions into the dome core. As metamorphism is directly linked with the formation of the main S₂ schistosity, the temporal relations demonstrated in this study conflict with previous studies which constrained LP‐HT metamorphism and the development of flat‐lying schistosity to the late Carboniferous (315–305 Ma) – at least in the eastern Axial Zone.  相似文献   

Constraints on the timing and conditions of high‐grade metamorphism,charnockite formation and fluid–rock interaction in the Trivandrum Block,southern India          下载免费PDF全文

E. Blereau  C. Clark  R. J. M. Taylor  T. E. Johnson  I. C. W. Fitzsimons  M. Santosh 《Journal of Metamorphic Geology》2016,34(6):527-549

Incipient charnockites have been widely used as evidence for the infiltration of CO₂‐rich fluids driving dehydration of the lower crust. Rocks exposed at Kakkod quarry in the Trivandrum Block of southern India allow for a thorough investigation of the metamorphic evolution by preserving not only orthopyroxene‐bearing charnockite patches in a host garnet–biotite felsic gneiss, but also layers of garnet–sillimanite metapelite gneiss. Thermodynamic phase equilibria modelling of all three bulk compositions indicates consistent peak‐metamorphic conditions of 830–925 °C and 6–9 kbar with retrograde evolution involving suprasolidus decompression at high temperature. These models suggest that orthopyroxene was most likely stabilized close to the metamorphic peak as a result of small compositional heterogeneities in the host garnet–biotite gneiss. There is insufficient evidence to determine whether the heterogeneities were inherited from the protolith or introduced during syn‐metamorphic fluid flow. U–Pb geochronology of monazite and zircon from all three rock types constrains the peak of metamorphism and orthopyroxene growth to have occurred between the onset of high‐grade metamorphism at c. 590 Ma and the onset of melt crystallization at c. 540 Ma. The majority of metamorphic zircon growth occurred during protracted melt crystallization between c. 540 and 510 Ma. Melt crystallization was followed by the influx of aqueous, alkali‐rich fluids likely derived from melts crystallizing at depth. This late fluid flow led to retrogression of orthopyroxene, the observed outcrop pattern and to the textural and isotopic modification of monazite grains at c. 525–490 Ma.  相似文献