An Anorthosite Suite in a Ring-Complex: Crystallization and Emplacement of an Anorogenic Type from Abontorok, A?r, Niger     

BROWN  WILLIAM L.; MOREAU  CHRISTIAN; DEMAIFFE  DANIEL 《Journal of Petrology》1989,30(6):1501-1540

Laminated anorthosite grading outwards into leucogabbro, gabbro,and monzogabbro occurs in a 2.6-km-diameter funnel-shaped intrusion,cut by a quartz alkali syenite plug and concentric syenite andgranite ring-dykes. The anorthosite-gabbro series is laminatedbut not modally or otherwise texturally layered. The lamination,defined by large tabular plagioclase crystals, forms a set ofinwarddipping cones, the dips of which decrease from 60–45?in the central anorthosite to < 25? in the outer gabbros.Rocks close to the outer contact are medium-grained isotropicgabbros. Plagioclase, forming >80% of the series, generallyhas homogeneous labradorite cores (An_62–58 in the wholeseries) and thin strongly zoned rims, which follow progressivelylonger solidus paths from the anorthosites to the gabbros. Allrocks contain a late-magmatic alkali feldspar. Plagioclase isthe main or only cumulus phase, the anorthosites being ad- tomesocumulates and the gabbros orthocumulates. Olivine (FO_49–41)is more abundant than clinopyroxene in most of the series. Dependingon quartz content, the syenites and granites are hypersolvusor subsolvus and the depth of crystallization was calculatedto be 5 ? 2 km. A Rb/Sr isochron for the syenites and granites gave an age of399 ? 10 Ma with an initial strontium isotopic ratio of 0.7084? 0.0005. Ten samples from the anorthosite-gabbro scries havean average calculated initial ratio of 0.70582 ? 0-00004 at– 400 Ma, showing that the two series are not comagmatic.The anorthosite-gabbro series has parallel REE trends (La_N/Yb_N{small tilde} 7–10) with decreasing positive Eu anomaliesand increasing total REE contents from anorthosite to gabbro;two monzogabbros have almost no Eu anomaly. The liquid calculatedto be in equilibrium with the lowest anorthosite has almostno Eu anomaly and its normalized REE pattern lies just abovethose for the monzogabbros. The syenites and granites have complementaryREE patterns with negative Eu anomalies. The inferred parental magma was alkalic and leucotroctoliticwith high TiO₂ P₂O₅, Sr and K/Rb and with low MgO, very similarto parental magmas in the Gardar province, South Greenland.It was probably produced at depth by settling of olivine andclinopyroxene but not of plagioclase, which accumulated by flotation.It is suggested that plagioclase crystals from this lower chamberwere progressively entrained (from 0% in the gabbros to 30–40%in the anorthosites), giving rise to the flow lamination inthe upper chamber. The magma in the lower chamber may have beenlayered, because the plagioclase cores in the anorthosite areconsiderably richer in Or than those in the leucogabbros orgabbros. Overall convection did not occur in the upper chamber,whereas compositional convection occurred in the more slowlycooled central anorthositic adcumulates.  相似文献   

Hummocky cross-stratification, tropical hurricanes, and intense winter storms   总被引：4，自引：0，他引：4  

WILLIAM L. DUKE 《Sedimentology》1985,32(2):167-194

Most previous workers have inferred a storm origin for hummocky cross-stratification, which typically occurs in shallow-marine deposits. On the modern Earth, the only storms capable of profoundly affecting shallow-marine depositional environments are severe tropical cyclones (hurricanes) and mid-latitude winter wave cyclones (intense winter storms). This paper examines the palaeogeographic distribution (including palaeolatitude and palaeogeographic setting) of 107 occurrences of hummocky cross-stratification, ranging in age from the Proterozoic to Recent. In each of these stratigraphic units, both palaeolatitude and palaeogeography are consistent with a direct storm influence (associated with the passage of hurricanes or winter storms directly over the site of deposition). This palaeogeographic evidence lends support to the inferred storm origin for hummocky cross-stratification; further, the distribution of the structure suggests that most occurrences (73%) were generated by tropical hurricanes, the remaining 27% being generated by intense mid-latitude winter storms. The preferential generation of hummocky cross-stratification by hurricanes is consistent with: (1) the known differences in the nature of the bottom flows generated by the two major storm types, and (2) the inferred nature of the flows which form hummocky cross-stratification. Hurricanes couple less effectively with the water column than do intense winter storms. Due to this ineffective coupling, hurricane-generated bottom flows tend to be oscillatory-or multidirectional-dominant, with only minor unidirectional components of motion. In contrast, intense winter storms generally do couple effectively with the water column, generating bottom flows which possess a dominant or significant unidirectional component. Most previous workers have suggested that hummocky cross-stratification forms under oscillatory- or multidirectional-dominant flow; thus, it is conceptually reasonable that the vast majority of ancient occurrences of hummocky cross-stratification were probably hurricane-generated, as suggested by the aforementioned palaeogeographic distribution. The Proterozoic, Palaeozoic, Neogene, and Quaternary were times when global climate was similar to that of today. The distribution of hummocky cross-stratification deposited during these times suggests that both hurricanes and intense winter storms occupied latitudinal belts during these times which were essentially identical to those occupied by their modern counterparts. The Mesozoic and Palaeogene were non-glacial times when global climate was much warmer than that of today. The distribution of hummocky cross-stratification deposited during this interval suggests that hurricanes occurred more frequently at higher latitudes during non-glacial times than they do at present. The possibility of a broadened hurricane belt during the Mesozoic and Palaeogene is consistent with climatic considerations. A limited number of Mesozoic and Palaeogene rock units containing hummocky cross-stratification were deposited in palaeogeographic settings that preclude a direct hurricane influence; these examples were deposited in the middle latitudes, suggesting that intense winter storms continued to form hummocky cross-stratification in the middle latitudes during these much warmer times. Some previous workers have suggested that tsunamis may be capable of generating hummocky cross-stratification. The palaeogeographic distribution of the structure does not support an origin due to tsunamis. Lacustrine examples of hummocky cross-stratification reported herein are the first known non-marine occurrences; they suggest that storm effects strongly influence the sedimentary record of some lakes.  相似文献   

Petrological and Geochemical Evidence for Granitoid Formation: The Waldoboro Pluton Complex, Maine     

BARTON  MICHAEL; SIDLE  WILLIAM C. 《Journal of Petrology》1994,35(5):1241-1274

The Acadian-age Waldoboro Pluton Complex (WPC), mid-coastalMaine, consists of seven granitoid units surrounded by migmatitic,peraluminous gneisses and schists (predominantly Bucksport orSebascodegan Formation). The complex (area >340 km²) cross-cutsthe westward-vergent St. George thrust fault, which may markthe boundary between the Avalon and Gander composite terranes.Field and petrologic data indicate in situ formation of theperaluminous, syntectonic granitoids: contacts with Bucksportparagneisses are transitional and concordant; abundant country-rockenclaves show evidence for melting; restitic garnet, biotite,and plagioclase in the granitoids are identical in compositionto garnet, biotite, and plagioclase in the country rock. Chemicalvariations among the main granitoid phases (gneissic granite,granite, and leucogranite) reflect varying degrees of melt-restiteunmixing. Major and trace elements define mixing trends betweenrefractory Bucksport lithologies and leucogranites which approximatemelt compositions. Petrographic and whole-rock chemical dataare consistent with restitic plagioclase, garnet, biotite, tourmaline,zircon, apatite, sphene, and an accessory phase such as monazite.Quantitative major-oxide mass-balance models indicate that gneissicgranite represents a mixture of 55% melt–45% restite whereasgranite represents a mixture of 76% melt–24% restite.Melt-restite proportions calculated from trace element dataagree with those calculated from major oxide data for the gneissicgranite, but are different (85% melt–15% restite) fromthose calculated from major oxide data for the granite. Thisis attributed to inhomogeneous distribution of minor phasesand the effects of metasomatism. High K₂O, Rb, Ba, Cs, Li, B,K/Rb, K/Ba, Rb/Sr, and Th/U along the eastern mylonitic marginand elsewhere within the WPC reflect post-solidification metasomaticprocesses. Intrusion of mafic magmas during uplift after crustal thickeningappears to have caused high-temperature metamorphism and anatexisof Bucksport country rocks at relatively low pressure (0.4 GPa).Dehydration melting of muscovite to produce magmas saturatedor nearly saturated with H₂O explains the formation of migmatitesin the vicinity of the WPC. Formation of granites by 50–60%fluid-absent melting of Bucksport source rocks containing 20%biotite requires that fusion occurred at T860C and consumedall of the biotite in the source rock. Phase equilibrium dataand estimated temperatures of formation provide evidence thatthe granitoids formed at T<860C, whereas petrographic dataindicate that not all biotite in the source rock was consumedduring anatexis. Therefore, the WPC granitoids could have formedby fluid-absent melting if the source rocks contained >20%biotite (the maximum amount observed). However, it is also possiblethat influx of aqueous fluid before or during anatexis allowedproduction of relatively large volumes of melt at T<860C.Available data do not allow these possibilities to be rigorouslytested. The WPC granitoids have many characteristics of S-type granitesand preserve a chemical and mineralogical record of their sourcerocks, indicating that granites can image their sources evenin tectonically complex regions.  相似文献   

Unravelling the conundrum of river response to rising sea‐level from laboratory to field. Part I: Laboratory experiments     

GARY PARKER  TETSUJI MUTO  YOSHIHISA AKAMATSU  WILLIAM E. DIETRICH  J. WESLEY LAUER 《Sedimentology》2008,55(6):1643-1655

The most recent deglaciation resulted in a global sea‐level rise of some 120 m over approximately 12 000 years. In this Part I of two parts, a moving boundary numerical model is developed to predict the response of rivers to this rise. The model was motivated by experiments at small scale, which have identified two modes describing the transgression of a river mouth: autoretreat without abandonment of the river delta (no sediment starvation at the topset–foreset break) and sediment‐starved autoretreat with abandonment of the delta. In the latter case, transgression is far more rapid and its effects are felt much further upstream of the river mouth. The moving boundary numerical model is checked against experiments. The generally favourable results of the check motivate adaptation of the model to describe the response of the much larger Fly‐Strickland River system, Papua New Guinea to Holocene sea‐level rise; this is done in the companion paper, Part II.  相似文献   

Relative ages of loess and till in two Quaternary palaeosols in Gorges Valley,Mount Kenya,East Africa     

WILLIAM C. MAHANEY  REN W. BARENDREGT  WALTER VORTISCH 《第四纪科学杂志》1997,12(1):61-72

Two compound palaeosol profiles formed in loess and till were studied in the oldest early Quaternary end moraine (Gorges age) system on Mount Kenya. Although both tills appear to have similar weathering histories, the overlying loessic sediments, serving as secondary parent materials for the palaeosols, are considered to have different ages on the basis of colour, presence or absence of clay films, and field texture (especially percentage of silt). Palaeomagnetic determinations showed both tills to have reversed remanent magnetism, suggesting that they were emplaced during the Matuyama Chron. The overlying loessic sediments in profiles GOR55 and GOR58 show normal magnetism and grade upward into the lower zone of bioturbation in the A horizon complex. However, in GOR58 the surface loessic sediments have normal remanent magnetism with considerable secular variations, suggesting it was emplaced over a longer time frame during the Brunhes Chron (i.e. < 0.78 Ma). Profile GOR55 contains larger amounts of gibbsite, indicating more aggressive leaching over time, and an absence of secular magnetic variations suggests deposition over a shorter time interval. The study of volcanic feldspars and ash, using scanning electron microscopy, in the two profiles, shows that sand grain (63–250 μm) weathering is slightly different in the two tills; relative weathering effects (e.g. corrosion of grain surfaces and neoformation of clay minerals) are greater in profile GOR55 than in profile GOR58. Overall the data indicate that some sites in the lower tropical Afroalpine timberline environment may have aeolian covers that are considerably younger than the deposits they overlie. © 1997 by John Wiley & Sons, Ltd.  相似文献   

Jamaica bound? Marine resources and management at a crossroads in Antigua and Barbuda     

LIAM M CARR  WILLIAM D HEYMAN 《The Geographical journal》2009,175(1):17-38

Antigua and Barbuda is rapidly developing a tourism industry built around a marketed perception of a healthy marine and coastal environment. Yet economic indicators suggest that Antigua and Barbuda is overexploiting its marine resources, particularly its fish and coral reef communities. Although its marine resources remain relatively healthy, Antigua and Barbuda will jeopardise the ecological basis of its economic growth and sustainability if current exploitation rates continue. We compare the current situation and economic trends of Antigua and Barbuda's tourism and commercial fishery industries to those of Jamaica and other OECS member states. Jamaica is suggested as a cautionary example of the potential socioeconomic and ecological impacts caused by resource overexploitation and mismanagement within the various economic sectors. Antigua and Barbuda is at a crossroads. The 'Jamaica path' leads to large-scale resource depletion, fishery collapse, and a mass tourism industry that can operate independent of a healthy environment. Alternatively, it can pursue a path that seeks to conserve its marine resources. Antigua and Barbuda will be better able to protect its sustainability both for commercial fishing interests and its growing high-end destination tourism industry. To this end, Antigua and Barbuda has developed a network of marine-protected areas along the northeastern coast of Antigua, an area popular with both fishers and tourists.  相似文献   

The vegetation and climate of northwest Iberia over the last 14,000 years     

JUDY R. M. ALLEN  BRIAN HUNTLEY  WILLIAM A. WATTS 《第四纪科学杂志》1996,11(2):125-147

A new pollen record from an upland lake in north-west Spain, Laguna de la Roya, spans the last ca 14,500 yrs and includes clear evidence of a Weichselian Lateglacial event correlative with the Younger Dryas. Pollen-climate response surfaces have been used to make quantitative reconstructions of palaeoclimate conditions at this and two other sites in the region. These reconstructions indicate that the climate was dry and cool during both the Late Weichselian and the Younger Dryas; in contrast, conditions during the Lateglacial Interstadial were relatively moist. During the early Holocene the climate was more continental in character than it has been for the last three millenia. Human activity has had a substantial impact upon the upland vegetation around Laguna de la Roya only during the last two millennia.  相似文献   

Comparative scanning electron microscopy study of oriented till blocks, glacial grains and Devonian sands in Estonia and Latvia   总被引：7，自引：0，他引：7  

WILLIAM C. MAHANEY  VOLLI KALM 《Boreas: An International Journal of Quaternary Research》2000,29(1):35-51

Samples of Middle Devonian (Eifelian age; 387–380 Ma) indurated and non‐cemented sandstone were compared with Pleistocene basal tills in Estonia and Latvia to test a hypothesis that glacial SEM (scanning electron microscopy) microtextures are distinctly different from those produced in a fluvial depositional environment. The deposits of Middle Devonian Aruküla Stage were emplaced in a continental water basin close to sea level and well away from any glacial source. Therefore, the SEM microtextures on quartz grains from the Aruküla Stage should show mainly the effect of stream transport. The basal tills are of Late Weichselian age deposited as ground moraine directly over the sandstone. Additional glaciofluvial and glaciolacustrine samples were included with the tills to determine whether glacial and fluvial‐lacustrine transport could be differentiated by the SEM microtextures. Samples of oriented blocks of till from a limited number of sites were studied without pretreatment to determine whether sand clast orientation could provide a method for determining glacial flow vectors. While there are some microtextural similarities between grains from glacial and glaciofluvial‐lacustrine depositional environments, the vast majority of grains from till deposits (50%–60%) are faceted, sharp edged, angular to subangular, and comprised of numerous and distinct microfeatures including abraded surfaces over microfractures, deep linear and curved troughs (striations), step features, and a preponderance of conchoidal and linear microfractures. Glaciofluvial and lacustrine grains contain abundant abrasion features and v‐shaped percussion cracks that make them very distinct from glacial grains. Fluvial transport produces primarily rounded grains, well abraded, with v‐shaped percussion scars dominating. Thus, it is possible to use microtextural differences between the three sample suites to identify particular depositional environments. Oriented till blocks provide information on sand clast orientation. Although carbonate coatings often obscure sand clasts in untreated blocks, it is possible to determine some microfabric information that can be useful in determining flow direction of the ice.  相似文献   

The vertical turbulence structure of experimental turbidity currents encountering basal obstructions: implications for vertical suspended sediment distribution in non‐equilibrium currents     

WILLIAM D. McCAFFREY 《Sedimentology》2012,59(3):1101-1120

Large roughness features, caused by erosion of the sea floor, are commonly observed on the modern sea floor and beneath turbidite sandstone beds in outcrop. This paper aims to investigate the effect of such roughness elements on the turbulent velocity field and its consequences for the sediment carrying capacity of the flows. Experimental turbidity currents were run through a rectangular channel, with a single roughness element fixed to the bottom in some runs. The effect of this roughness element on the turbulent velocity field was determined by measuring vertical profiles of the vertical velocity component in the region downstream of the basal obstruction with the Ultrasonic Doppler Velocity Profiling technique. The experiments were set up to answer two research questions. (i) How does a single roughness element alter the distribution of vertical turbulence intensity? (ii) How does the altered profile evolve in the downstream direction? The results for runs over a plane substrate are similar to data presented previously and show a lower turbulence maximum near the channel floor, a turbulence minimum associated with the velocity maximum, and a turbulence maximum associated with the upper flow interface. In the runs in which the flows were perturbed by the single roughness element, the intensity of the lower turbulence maximum was increased between 41% to 81%. This excess turbulence dissipated upwards in the flow while it travelled further downstream, but was still observable at the most distal measurement location (at a distance ca 39 times the roughness height downstream of the element). All results point towards a similarity between the near bed turbulence structure of turbidity currents and free surface shear flows that has been proposed by previous authors, and this proposition is supported further by the apparent success of a shear velocity estimation method that is based on this similarity. Theory of turbulent dispersal of suspended sediment is used to discuss how the observed turbulent effects of a single large roughness element may impact on the suspended sediment distribution in real world turbidity currents. It is concluded that this impact may consist of a non‐equilibrium net‐upwards transport of suspended sediment, counteracting density stratification. Thus, erosive substrate topography created by frontal parts of natural turbidity flows may super‐elevate sediment concentrations in upper regions above equilibrium values in following flow stages, delay depletion of the flow via sedimentation and increase their run‐out distance.  相似文献   

Geological investigation and optical dating of Quaternary siliciclastic sediments near Apalachicola,North‐west Florida,USA     

WILLIAM J. RINK  GLORIA I. LÓPEZ  DAVID J. MALLINSON  PETER R. PARHAM  EDUARD G. REINHARDT 《Sedimentology》2012,59(6):1836-1849

Ground penetrating radar and single‐aliquot regenerative‐dose optically stimulated luminescence were used to determine the depositional environments and age of unconsolidated siliciclastic sediments near Apalachicola, Florida. Five direct‐push cores, five vibracores and 28 optically stimulated luminescence samples were collected, as well as 7 km of ground penetrating radar data. A new model of cosmic dose rate calculation, which removes the effect of a much younger aeolian cap, was utilized to calculate more representative optically stimulated luminescence ages. Five radar facies were identified based on reflector amplitude and orientation. The resulting data indicate that the Tertiary/Quaternary Shelly Sediments were deposited before marine isotope stage 6, the Quaternary Alluvium was deposited during marine isotope stage 6 and the Quaternary Beach Ridge and Dune was deposited during the marine isotope stage 5e sea‐level highstand, which peaked at approximately 2·5 m above present sea‐level in this area.  相似文献