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1.
EWART A.; MARSH J. S.; MILNER S. C.; DUNCAN A. R.; KAMBER B. S.; ARMSTRONG R. A. 《Journal of Petrology》2004,45(1):59-105
The bimodal NW Etendeka province is located at the continentalend of the Tristan plume trace in coastal Namibia. It comprisesa high-Ti (Khumib type) and three low-Ti basalt (Tafelberg,Kuidas and Esmeralda types) suites, with, at stratigraphicallyhigher level, interstratified high-Ti latites (three units)and quartz latites (five units), and one low-Ti quartz latite.Khumib basalts are enriched in high field strength elementsand light rare earth elements relative to low-Ti types and exhibittrace element affinities with Tristan da Cunha lavas. The unradiogenic206Pb/204Pb ratios of Khumib basalts are distinctive, most plottingto the left of the 132 Ma Geochron, together with elevated 207Pb/204Pbratios, and Sr–Nd isotopic compositions plotting in thelower 143Nd/144Nd part of mantle array (EM1-like). The low-Tibasalts have less coherent trace element patterns and variable,radiogenic initial Sr ( 相似文献
2.
Models of surface energy balance and snow metamorphism are utilized to predict the energy and meltwater fluxes at an Arctic site in the forest–tundra transition zone of north-western Canada. The surface energy balance during the melt period is modelled using an hourly bulk aerodynamic approach. Once a snowcover becomes patchy, advection from the bare patches to the snow-covered areas results in a large spatial variation in basin snowmelt. In order to illustrate the importance of small-scale, horizontal advection, a simple parameterization scheme using sensible heat fluxes from snow free areas was tested. This scheme estimates the maximum horizontal advection of sensible heat from the bare patches to the snow-covered areas. Calculated melt was routed through the measured snowcover in each landscape type using a variable flow path, meltwater percolation model. This allowed the determination of the spatial variability in the timing and magnitude of meltwater release for runoff. Model results indicate that the initial release of meltwater first occurred on the shallow upland tundra sites, but meltwater release did not occur until nearly two weeks later on the deep drift snowcovers. During these early periods of melt, not all meltwater is available for runoff. Instead, there is a period when some snowpacks are only partially contributing to runoff, and the spatial variation of runoff contribution corresponds to landscape type. Comparisons of melt with and without advection suggests that advection is an important process controlling the timing of basin snowmelt. 相似文献
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4.
WAYNE R. ROUSE MARIANNE S. V. DOUGLAS ROBERT E. HECKY ANNE E. HERSHEY GEORGE W. KLING LANCE LESACK PHILIP MARSH MICHAEL MCDONALD BARBARA J. NICHOLSON NIGEL T. ROULET JOHN P. SMOL 《水文研究》1997,11(8):873-902
Region 2 comprises arctic and subarctic North America and is underlain by continuous or discontinuous permafrost. Its freshwater systems are dominated by a low energy environment and cold region processes. Central northern areas are almost totally influenced by arctic air masses while Pacific air becomes more prominent in the west, Atlantic air in the east and southern air masses at the lower latitudes. Air mass changes will play an important role in precipitation changes associated with climate warming. The snow season in the region is prolonged resulting in long-term storage of water so that the spring flood is often the major hydrological event of the year, even though, annual rainfall usually exceeds annual snowfall. The unique character of ponds and lakes is a result of the long frozen period, which affects nutrient status and gas exchange during the cold season and during thaw. GCM models are in close agreement for this region and predict temperature increases as large as 4°C in summer and 9°C in winter for a 2 × CO2 scenario. Palaeoclimate indicators support the probability that substantial temperature increases have occurred previously during the Holocene. The historical record indicates a temperature increase of > 1°C in parts of the region during the last century. GCM predictions of precipitation change indicate an increase, but there is little agreement amongst the various models on regional disposition or magnitude. Precipitation change is as important as temperature change in determining the water balance. The water balance is critical to every aspect of hydrology and limnology in the far north. Permafrost close to the surface plays a major role in freshwater systems because it often maintains lakes and wetlands above an impermeable frost table, which limits the water storage capabilities of the subsurface. Thawing associated with climate change would, particularly in areas of massive ice, stimulate landscape changes, which can affect every aspect of the environment. The normal spring flooding of ice-jammed north-flowing rivers, such as the Mackenzie, is a major event, which renews the water supply of lakes in delta regions and which determines the availability of habitat for aquatic organisms. Climate warming or river damming and diversion would probably lead to the complete drying of many delta lakes. Climate warming would also change the characteristics of ponds that presently freeze to the bottom and result in fundamental changes in their limnological characteristics. At present, the food chain is rather simple usually culminating in lake trout or arctic char. A lengthening of the growing season and warmer water temperature would affect the chemical, mineral and nutrient status of lakes and most likely have deleterious effects on the food chain. Peatlands are extensive in region 2. They would move northwards at their southern boundaries, and, with sustained drying, many would change form or become inactive. Extensive wetlands and peatlands are an important component of the global carbon budget, and warmer and drier conditions would most likely change them from a sink to a source for atmospheric carbon. There is some evidence that this may be occurring already. Region 2 is very vulnerable to global warming. Its freshwater systems are probably the least studied and most poorly understood in North America. There are clear needs to improve our current knowledge of temperature and precipitation patterns; to model the thermal behaviour of wetlands, lakes and rivers; to understand better the interrelationships of cold region rivers with their basins; to begin studies on the very large lakes in the region; to obtain a firm grasp of the role of northern peatlands in the global carbon cycle; and to link the terrestrial water balance to the thermal and hydrological regime of the polar sea. Overall, there is a strong need for basic research and long-term monitoring. © 1997 John Wiley & Sons, Ltd. 相似文献
5.
On Convective Style and Vigor in Sheet-like Magma Chambers 总被引:2,自引:4,他引:2
The well known absence of magrnatic superheat is held here tobe a direct reflection of the ease and efficiency of large Rayleighnumber (Ra) convection in evacuating all convectable heat fromthe magma. Magmatic temperature is thus continually bufferedat or below the convective liquidus where the temperature differencedriving convection is vanishingly small and the governing Rais also always small regardless of body size. It is furtherheld here that for bodies where side wall cooling is of lesserimportance, the more common perception of magma chambers isof cooling from above and below where both the initial, isothermal(i.e. isodensity), and final (solid) states are dynamicallystable and that convection is necessarily a transient processconnecting these states. Extensive theoretical and experimentalstudies of cooling from above show that regardless of boundaryconditions transient, small Ra convection is independent oflayer thickness. Instead, convection is driven by formationof a thin, cool, and dense sublayer along the top boundary,and the characteristic length scale of the governing Rayleighnumber, which is time-dependent, is the sublayer thickness (d<<L).All dynamic features of the flow, including heat transfer relyon this length scale and not body thickness; virtually any sheet-likemagmatic body appears infinitely thick to such convection. BecauseRa is small, this transient stage persists for most, if notall, of the period of solidification to mush, whence the bodyis dynamically dead. Under conditions of strongly variable viscosity, only the leadingpart of d (i.e. d'), forward of a critical rheological front,is unstable. Convection itself is restricted to a region whereviscosity changes by no more than a factor of about 3 to 10.Most of the cool, dense sublayer is rigid, immobile crust, unableto participate in convection and cool the body. Rapid advanceof this crust due to cooling inhibits convection by consuminginstabilities before maturation to finite amplitude. Inclusionof solidification in the stability analysis changes the lengthscale in the governing Rayleigh number (Rav) to K/V (thermaldiffusivity/advance velocity). Ra is subcritical for large V0(early times) and only with time becomes supcrcritical. Thisis in striking contrast to the usual RaL, which is initiallythe largest it will ever be. Because of continual collapse ofthe unstable sublayer, convection may remain near the criticalRav. Convection is thus initially weak and, because the heatflux from the system monotonically decreases with time due tothe thickening conductive crust and cooling, it is preventedfrom becoming indefinitely strong and instead slowly diminisheswith time. Conduction through the advancing crust is balanced by latentheat of crystallization at the crystallization front and convectionoccurs in response to this cooling. Because convection is confinedto the nearly isoviscous, nonsuperheated magma, crust growthis unaffected by convection, even when it is artificially forcedat unnatural rates. The crusts of Hawaiian lava lakes reflectthis in growing at the same rate regardless of lake thicknessand, in numerical convective modeling, imposed Rayleigh number.Overall cooling is well approximated by that of a stagnant,purely conducting layer whose central temperature is constantuntil arrival of the slowly moving cooling front In fact, therate of change of a body's central temperature is a direct measureof the total rate of heat transfer (i.e. Nusselt number, Nu)from that region. This is shown to be very nearly zero for Hawaiianlava lakes, precluding all but the weakest of convective heattransfer within the magma itself. The maximum heat transfer in terms of Nusselt number of anyunheated body within a conductive medium and always kept perfectlywell mixed thermally, relative to the same stagnant body, isshown to be Nu=2 regardless of shape and size. This thermalevolution is closely followed by previous calculations thatassume a large Rayleigh number based on layer thickness. Thermal convection in unheated, sheetlike magma chambers isa transient, sluggish process governed by solidification andsmall scale, small Rayleigh number instabilities; thermallydriven convective turbulence, in the usual sense, is out ofthe question. 相似文献
6.
The Edgecumbe volcanics, which range from basalt through rhyodacite,have Sr contents between 125 and 370 p.p.m., Rb contents of1 to 70 p.p.m., Ba ranging from 50–550 p.p.m. and initial87Sr/86Sr ratios between 0.70291 and 0.70404. No simple correlationexists between these components and silica. The highest 87Sr/86Srvalues occur in a group of intermediate lavas (55–60 wt.per cent SiO2) while the rhyodacites have initial ratios between0.7035 and 0.7038. With increasing silica, Sr increases to amaximum in the andesites and then steadily decreases; Ba andRb increase over the same compositional range. The highest 87Sr/86Srlavas have major and trace element concentrations which departfrom trends defined by most of the lavas. The variation in strontiumisotopic compositions suggests interaction between parentalbasaltic magma and crustal material. Attempts to model the assimilationprocess using fixed end-member assimilation and assimilation-fractionalcrystallization models have failed to produce the observed chemicaltrends. Because the parental basaltic liquid underwent littlefractionation, the variability in hybrid lavas is attributedto variation in contaminant composition. Initial melts werelow in CaO, A12O3, MgO and Sr and enriched in SiO2. K2O, Na2O,Rb and Ba. As melting progressed, melts became enriched in themore refractory components. Because hybrid strontium isotopiccomposition is a function of Sr concentration as well as isotopiccompositions, the Sr content of the assimilant strongly influencesresultant isotopic systematics. The development of the assimilantssuggests plagioclase was a residual phase during early melting.This model of crustal assimilation represents one end-memberin the spectrum of processes responsible for the generationof continental volcanic suites. 相似文献
7.
J. H. MARSH S. E. JOHNSON M. G. YATES D. P. WEST JR 《Journal of Metamorphic Geology》2009,27(8):531-553
A well preserved strain and reaction gradient records the progressive transformation of a megacrystic Kfs+Cpx+Opx+Bt1 ±Qtz syenitic pluton to a strongly sheared Kfs+Act+Bt2 +Ab+Qtz tectonite within the exhumed Norumbega Fault System, Maine, USA. Detailed microstructural analysis indicates that fracturing and localized fluid infiltration initiated the deconstruction of the existing K-feldspar and two-pyroxene load-bearing framework, and that feedback among metamorphic reactions, fabric development and enhanced permeability during progressive shearing led to the development of an interconnected, biotite- and actinolite-rich foliation. The activation of dislocation creep in biotite and quartz, and dissolution–precipitation creep in actinolite and feldspar, with increasing strain ultimately resulted in a transition from dominantly frictional to dominantly viscous deformation processes. Petrological data show that various scales of geochemical disequilibrium exist across the strain and reaction gradient, and that reaction progress was limited by slow chemical diffusion during the early stages of deformation. Petrological modelling results indicate that the existing plutonic assemblage was metastable at mid-crustal conditions, and that fluid infiltration and deformation allowed the product assemblage to advance towards chemical equilibration. Comparison of the observed microstructures and deformation mechanisms with experimental and numerical modelling results suggest that the development of an interconnected biotite-dominated fabric probably caused a major (up to three fold) reduction in bulk rock strength and localization of strain into the foliated margin. 相似文献
8.
Chris M DEBEER Howard S WHEATER William L QUINTON Sean K CAREY Ronald E STEWART Murray D MACKAY Philip MARSH 《中国科学:地球科学(英文版)》2015,(1):46-60
Climate change is causing rapid and severe changes to many Earth systems and processes,with widespread cryospheric,ecological,and hydrological impacts globally,and especially in high northern latitudes.This is of major societal concern and there is an urgent need for improved understanding and predictive tools for environmental management.The Changing Cold Regions Network(CCRN)is a Canadian research consortium with a focus to integrate existing and new experimental data with modelling and remote sensing products to understand,diagnose,and predict changing land,water,and climate,and their interactions and feedbacks over the geographic domain of the Mackenzie and Saskatchewan River Basins in Canada.The network operates a set of 14 unique and focused Water,Ecosystem,Cryosphere and Climate(WECC)observatories within this region,which provide opportunities to observe and understand processes and their interaction,as well as develop and test numerical simulation models,and provide validation data for remote sensing products.This paper describes this network and its observational,experimental,and modelling programme.An overview of many of the recent Earth system changes observed across the study region is provided,and some local insights from WECC observatories that may partly explain regional patterns and trends are described.Several of the model products being developed are discussed,and linkages with the local to international user community are reviewed—In particular,the use of WECC data towards model and remote sensing product calibration and validation is highlighted.Some future activities and prospects for the network are also presented at the end of the paper. 相似文献
9.
The Klipriviersberg Group is a small continental flood-typetholeiitic suite forming the basal unit of the Ventersdorp Supergroup,an undeformed late-Archaean supracrustal sequence covering 200000km2 in the SW part of the Kaapvaal Craton. From the base up,the Klipriviersberg Group consists of the Westonaria, Alberton,Orkney, Jeannette, Loraine, and Edenville formations, with amaximum combined thickness of 1–8 km. Samples were obtainedfrom several borehole cores in the Klerksdorp goldfield closeto the type area of the Klipriviersberg Group. This sample suiteincludes a detailed collection from a 1–36-km core intersection.These samples reveal that the Westonaria Formation is absentfrom the succession and that the Jeannette Formation is representedby a thin sequence of breccias. The remaining units are builtof lavas ranging from siliceous picrite basalts to tholeiiticandesites in composition. All lavas exhibit the effects of greenschistfacies metamorphism but igneous textures are well preservedand reveal that most lavas are aphyric to sparsely porphyritic.A well-developed geochemical stratigraphy exists in the lavasequence and is characterized by an upward trend from evolvedto primitive lavas. The Alberton (mg-number = 0.53–0.43;Zr= 108–137 ppm) and Orkney (mg-number = 0.51–O.42;Zr = 90–110ppm) lavas have a narrow compositional rangeand are more differentiated than the compositionally more variableLoraine/Edenville lavas (mg-number = 0.75 0.47; Zr = 34–97ppm). Unusual inter-element correlations in the Alberton andOrkney lavas suggest that magma mixing processes were importantin their petrogenesis. Compositional variation in the Loraine/Edenvillelavas is consistent with simple fractional crystallization dominatedby orthopyroxene. Collectively, all these lavas are light rareearth element (LREE)-enriched and have negative Nb-Ta, P, andTi anomalies on mid-ocean ridge basalt (MORB)- or primitivemantle-normalized abundance diagrams. In this they resemblemafic lavas from modern subduction-zone environments and manyArchaean and early Proterozoic siliceous high-magnesium basalts.The Klipriviersberg lavas also have initial Nd-isotopic compositionsthat cluster about the chondritic uniform reservoir (CHUR) valueregardless of degree of differentiation. It is unlikely thatcrustal contamination has influenced the composition of theKlipriviersberg lavas to any significant extent, and their geochemicalfeatures have probably been inherited from lithospheric mantlesources. 相似文献
10.
Map and GIS database of glacial landforms and features related to the last British Ice Sheet 总被引:1,自引:0,他引:1
CHRIS D. CLARK DAVID J. A. EVANS ANJANA KHATWA TOM BRADWELL COLM J. JORDAN STUART H. MARSH WISHART A. MITCHELL MARK D. BATEMAN 《Boreas: An International Journal of Quaternary Research》2004,33(4):359-375
A review of the academic literature and British Geological Survey mapping is employed to produce a 'Glacial Map', and accompanying geographic information system (GIS) database, of features related to the last (Devensian) British Ice Sheet. The map (1:625 000) is included in a folder and GIS data are freely available by web download (http://www.shef.ac.uk/geography/staff/clark_chris/britice.html). Emphasis is on information that constrains the last ice sheet. The following are included: moraines, eskers, drumlins, meltwater channels, tunnel valleys, trimlines, limit of key glacigenic deposits, glaciolacustrine deposits, ice-dammed lakes, erratic dispersal patterns, shelf-edge fans and the Loch Lomond Readvance limit of the main ice cap. The GIS contains over 20 000 features split into thematic layers (as above). Individual features are attributed such that they can be traced back to their published sources. Given that the published sources of information that underpin this work were derived by piecemeal effort over 150 years, then our main caveat is of data consistency and reliability. It is hoped that this compilation will stimulate greater scrutiny of published data, assist in palaeoglaciological reconstructions and facilitate use of field evidence in numerical ice-sheet modelling. It may also help direct field workers in their future investigations. 相似文献