总被引：1，自引：0，他引：1  

J. F. QU  W. J. XIAO  B. F. WINDLEY  C. M. HAN  Q. G. MAO  S. J. AO  J. E. ZHANG 《Journal of Metamorphic Geology》2011,29(8):803-820

Numerous lenses of eclogite occur in a belt of augen orthogneisses in the Gubaoquan area in the southern Beishan orogen, an eastern extension of the Tianshan orogen. With detailed petrological data and phase relations, modelled in the system NCFMASHTO with thermocalc , a quantitative P–T path was estimated and defined a clockwise P–T path that showed a near isothermal decompression from eclogite facies (>15.5 kbar, 700–800 °C, omphacite + garnet) to high‐pressure granulite facies (12–14 kbar, 700–750 °C, clinopyroxene + sodic plagioclase symplectitic intergrowths around omphacite), low‐pressure granulite facies (8–9.5 kbar, ～700 °C, orthopyroxene + clinopyroxene + plagioclase symplectites and coronas surrounding garnet) and amphibolite facies (5–7 kbar, 600–700 °C, hornblende + plagioclase symplectites). The major and trace elements and Sm–Nd isotopic data suggest that most of the Beishan eclogite samples had a protolith of oceanic crust with geochemical characteristics of an enriched or normal mid‐ocean ridge basalt. The U–Pb dating of the Beishan eclogites indicates an Ordovician age of c. 467 Ma for the eclogite facies metamorphism. An ³⁹Ar/⁴⁰Ar age of c. 430 Ma for biotite from the augen gneiss corresponds to the time of retrograde metamorphism. The combined data from geological setting, bulk composition, clockwise P–T path and geochronology support a model in which the Beishan eclogites started as oceanic crust in the Palaeoasian Ocean, which was subducted to eclogite depths in the Ordovician and exhumed in the Silurian. The eclogite‐bearing gneiss belt marks the position of a high‐pressure Ordovician suture zone, and the calculated clockwise P–T path defines the progression from subduction to exhumation.  相似文献   

    

Ane P. Wiersma  Didier M. Roche  Hans Renssen 《第四纪科学杂志》2011,26(1):118-127

Using results from coupled climate model simulations of the 8.2 ka climate event that produced a cold period over Greenland in agreement with the reconstructed cooling from ice cores, we investigate the typical pattern of climate anomalies (fingerprint) to provide a framework for the interpretation of global proxy data for the 8.2 ka climate event. For this purpose we developed an analysis method that isolates the forced temperature response and provides information on spatial variations in magnitude, timing and duration that characterise the detectable climate event in proxy archives. Our analysis shows that delays in the temperature response to the freshwater forcing are present, mostly in the order of decades (30 a over central Greenland). The North Atlantic Ocean initially cools in response to the freshwater perturbation, followed in certain parts by a warm response. This delay, occurring more than 200 a after the freshwater pulse, hints at an overshoot in the recovery from the freshwater perturbation. The South Atlantic and the Southern Ocean show a warm response reflecting the bipolar seesaw effect. The duration of the simulated event varies for different areas, and the highest probability of recording the event in proxy archives is in the North Atlantic Ocean area north of 40° N. Our results may facilitate the interpretation of proxy archives recording the 8.2 ka event, as they show that timing and duration cannot be assumed to correspond with the timing and duration of the event as recorded in Greenland ice cores. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

    

Gordon R.M. Bromley  Brenda L. Hall  Joerg M. Schaefer  Gisela Winckler  Claire E. Todd  Kurt M. Rademaker 《第四纪科学杂志》2011,26(1):37-43

The occurrence of pronounced climate reversals during the last glacial termination has long been recognised in palaeoclimate records from both hemispheres and from high to low latitudes. Accurate constraint of both the timing and magnitude of events, such as the Younger Dryas and Antarctic Cold Reversal, is vital in order to test different hypotheses for the causes and propagation of abrupt climate change. However, in contrast to higher‐latitude regions, well‐dated records from the Tropics are rare and the structure of late‐glacial tropical climate remains uncertain. As a step toward addressing this problem, we present an in situ cosmogenic ³He surface exposure chronology from Nevado Coropuna, southern Peru, documenting a significant fluctuation of the ice margin during the late‐glacial period. Ten tightly clustered ages from a pair of moraines located halfway between the modern glacier and the Last Glacial Maximum terminus range from 11.9 to 13.9 ka and give an arithmetic mean age of 12.8 ± 0.7 ka (1σ). These data constitute direct evidence for a readvance, or prolonged stillstand, of glaciers in the arid Andes of southwestern Peru. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

    

S. E. Chen  D. M. Boyajian  H. I. Inyang 《Geotechnical and Geological Engineering》2011,29(3):237-248

This paper discusses the use of a vibration-based technique for damage detection in metal and composite plate wrappings for pier foundation repairs. The SLSE (Scanning Laser-Strain Energy) method relies on full-field laser modal scanning and strain energy computation to establish damage locations within composite wrappings. Strain energy distribution relies on segmental derivation of detected deflection shapes; hence, large numbers of spatial data points are required. By providing high spatial data density, laser scanner complement nicely with the damage detection technique. Using an aluminum plate and a composite plate, results from a baseline scan test is presented in this paper to demonstrate the show the high potential of this technique for detecting damage in plates commonly used for structural repairs.  相似文献   

    

YingChao LIU  ZengQian HOU  ZhuSen YANG  ShiHong TIAN  TianNan YANG  YuCai SONG  HongRui ZHANG  Emmanuel John M. CARRANZA 《Resource Geology》2011,61(4):384-406

The Dongmozhazhua deposit, the largest Pb–Zn deposit in south Qinghai, China, is stratabound, carbonate‐hosted and associated with epigenetic dolomitization and silicification of Lower–Middle Permian—Upper Triassic limestones in the hanging walls of a Cenozoic thrust fault system. The mineralization is localized in a Cenozoic thrust‐folded belt along the northeastern edge of the Tibetan plateau, which was formed due to the India–Asia plate collision during the early Tertiary. The deposit comprises 16 orebodies with variable thicknesses (1.5–26.3 m) and lengths (160–1820 m). The ores occur as dissemination, vein, and breccia cement. The main sulfide assemblage is sphalerite + galena + pyrite + marcasite ± chalcopyrite ± tetrahedrite, and gangue minerals consist mainly of calcite, dolomite, barite, and quartz. Samples of pre‐ to post‐ore stages calcite yielded δ¹³C and δ¹⁸O values that are, respectively, similar to and lower than those yielded by the host limestones, suggesting that the calcite formed from fluids derived from carbonate dissolution. Fluid inclusions in calcite and sphalerite in the polymetallic sulfidization stage mostly comprise liquid and gas phases at room temperature, with moderate homogenization temperatures (100–140°C) and high salinities (21–28 wt% NaCl eq.). Micro‐thermometric fluid inclusion data point to polysaline brines as ore‐forming fluids. The δD and δ¹⁸O values of ore fluids, cation compositions of fluid inclusions, and geological information suggest two main possible fluid sources, namely basinal brines and evaporated seawater. The fluid inclusion data and regional geology suggest that basinal brines derived from Tertiary basins located southeast of the Dongmozhazhua deposit migrated along deep detachment zones of the regional thrust system, leached substantial base metals from country rocks, and finally ascended along thrust faults at Dongmozhazhua. There, the base‐metal‐rich basinal brines mixed with bacterially‐reduced H₂S‐bearing fluids derived from evaporated seawater preserved in the Permo–Triassic carbonate strata. The mixing of the two fluids resulted in Pb–Zn mineralization. The Dongmozhazhua Pb–Zn deposit has many characteristics that are similar to MVT Pb–Zn deposits worldwide.  相似文献   

    

Belikov  V. V.  Borisova  N. M.  Glotko  A. V. 《Water Resources》2021,48(5):713-725

Water Resources - Detail 3D digital elevation model with a high-accuracy efficient software for 2D-modeling STREAM 2D CUDA and actual data on high-water marks and the dynamics of water level...  相似文献   

    

Kara C. Hoover  Christopher M. Barker 《Wiley Interdisciplinary Reviews: Climate Change》2016,7(2):283-300

Climate has strong impacts on the spatial ranges of vector‐borne infectious diseases as well as the timing and intensity of disease outbreaks; these and shifting challenges to human health driven by future climate change are critical concerns. Many diseases of tropical origin, including West Nile virus (WNV), are sensitive to climate and likely to change their distributions in the coming decades. The 1999 outbreak of WNV in North America is an example of rapid viral adaptation to a new geographic area while recent outbreaks in Europe demonstrate the capacity of multiple viral strains to expand rapidly. WNV is one of the most widely distributed arboviruses and has displayed high rates of mutability, adaptability, and virulence. Northward expansion of WNV is happening in Europe and North America and may make WNV an increasingly worrying health risk at higher latitudes. Circumpolar northward expansion of WNV’s enzootic range appears unlikely over the coming century—at least for sustained enzootic transmission—but isolated and ephemeral transmission events might occur if the virus were to be introduced by migrating birds during warm months. Human populations in this area are at greater risk for health impacts from WNV transmission due to limited healthcare in rural areas, higher underlying morbidity in indigenous populations, and prolonged human‐environment interactions (in populations engaging in traditional lifestyles). This review presents a multidisciplinary synthesis on WNV and climate change, potential for WNV expansion, and the vulnerability of the circumpolar north. WIREs Clim Change 2016, 7:283–300. doi: 10.1002/wcc.382 This article is categorized under:

• Assessing Impacts of Climate Change > Evaluating Future Impacts of Climate Change

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Ahmed Srdah Al‐Zubedi  Jassim M. Thabit 《Near Surface Geophysics》2016,14(5):413-421

This experimental study presents a comparison between two‐dimensional azimuthal and three‐dimensional electrical resistivity imaging techniques at a given location within the Abu‐Jir Fault Zone, Central Iraq. The aim is to examine which one is a better technique in one order to study the subsurface fracture zones and to use it within and outside the fault zone. Our results show that the two‐dimensional azimuthal imaging technique is quite successful in imaging the structural geology, particularly for effective identification and delineation of the subsurface fracture zones in all directions, whereas the three‐dimensional imaging technique, carried out using data acquired in parallel two‐dimensional imaging lines, gives limited and distorted images about these zones because the Y‐spacing between the survey lines is quite small compared to the length of these lines. The two‐dimensional azimuthal technique can be useful in deep investigations to determine the extent of the structures, particularly in areas with unknown geological and structural settings.  相似文献   

Permo–Triassic and Liassic Tethyan Oceanic Tracts within the Pontide Belt Along the Southern Margin of Eurasia, Northern Anatolia          下载免费PDF全文

E. SARIFAKIOGLU  Y. DILEK  M. SEVIN  ?. PEHLIVAN  ?. KANDEMIR  A. M?LLER  T. BAYANOVA  I. UYSAL  M. KELES 《《地质学报》英文版》2017,91(Z1):33-34

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M. Meghan MILLER 《《地质学报》英文版》2017,91(Z1):23-23

UNAVCO supports geoscience research at 113 US academic Member institutions,and another 104 Associate Member institutions include international universities,laboratories,observatories,academies of science,and a museum.This diverse membership shares UNAVCO’s purpose at home and abroad,giving UNAVCO global reach in advancing geodesy.Since the mid-1980s,modern geodesy has evolved into a cutting-edge,multi-faceted toolbox with remarkably diverse research and real-world applications,including studies and observation or forecasting of solid-Earth hazards,the dynamics of the atmosphere,climate,near-Earth space environment,and of key environmental parameters such as water storage,soil moisture,and seaand lake-level changes.UNAVCO operates facilities on behalf of the U.S.National Science Foundation to support investigators who use geodetic tools across all of these Earth and atmospheric domains.UNAVCO has built a number of large dense regional networks of GPS stations,including the Earth Scope Plate Boundary Observatory in North America,the COCONetCaribbean network,TLALOCNet in Mexico,GNET in Greenland,and ANET in Antarctica.Going forward,UNAVCO plans to federate the Plate Boundary Observatory(USA),TLALOCNet(Mexico),and COCONet(Caribbean)GPS networks as the Network of the Americas,with upgrades to state-of-the-art,multi-sensor,multi-GNSS observations.While UNAVCO community scientists actively engage in using space and terrestrial geodetic techniques to study geodynamics at all scales,this proliferation of continuous networks is the basis for a suite of recent contributions that focus on improved daily positioning to sense Earth’s elastic response and other perturbations to loading by atmospheric and surface water,oceans,and ice.Day-to-day and sub-daily variations in the GPS vertical and horizontal correlate to increasingly well-understood short-term mass variability,such as monsoonal flooding in Bangladesh,sub-daily changes in tidal loading at continent scales,day-to-day surface water and ice storage in the western U.S.,variations in the rate of GIA in Greenland across a variety of scales,and improved understanding of the inter-annual variation in sea level rise due to changes in terrestrial water storage.  相似文献