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The Hyllingen Series comprises the southern part of the Caledoniansynorogenic Fongen- Hyllingen layered mafic intrusion, whichoccupies an area of 160 km2, southeast of Trondheim, Norway.Large, raft-like inclusions form an important part of the HyllingenScries. Most of these are of fine-grained, equigranular rocksof basaltic composition with lithologies matching those of theadjacent country rocks. The rafts, which compose up to 22% ofthe lower part of the Hyllingen Series, are broadly concordantwith modal layering in the host gabbroic rocks. Individual bodiescan be up to 1500 m long and over 100 m thick. Some of the raftsare branching, and appear locally to form a threedimensionalnetwork. Impact structures are associated with small metabasicinclusions but not with the large rafts. The Hyllingen magma chamber is believed to have developed asa southerly expanding, thin wedge, forming the upper part ofthe Fongen chamber. The magma was compositionally zoned andcrystallized along the inclined floor of the wedge-shaped chamber.The wedge expanded as a result of the influx of dense, primitivemagma in the northern part of the chamber. The highly evolvedmagma at the top of the chamber penetrated along fractures inthe roof and spread laterally to form sill-like bodies. Theroof zone consisted of a network of veins and sills penetratingan interconnected framework of metabasic hornfels. Continuedcrystallization at the floor, while the magma chamber expanded,finally resulted in the interconnected rafts being engulfedby the crystallization front. Fragments detached from the roofsank to the floor to cause the observed impact structures. Thelarge, raft-like, fine-grained, granular, gabbroic bodies areconsidered to be in situ country rock inclusions.
Reprints available from J. R. Wilson 相似文献
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Abstract— The matrix of the CM2 carbonaceous chondrite Murray contains rare micrometer‐sized prismatic crystals of aragonite that formed during late‐stage parent body aqueous alteration. The aragonite was identified by X‐ray microanalysis coupled with electron backscatter diffraction (EBSD), TEM selected area electron diffraction and cathodoluminescence spectroscopy. The sixteen crystals found all occur within loose and elongate submillimeter‐sized clusters and one cluster is present in each of the two thin sections studied. Orientation determinations using EBSD show that the c axes of aragonite crystals within each cluster lie roughly in a plane, itself aligned approximately parallel to the long axis of the host cluster. Aragonite is inferred to have crystallized after calcite but before completion of static/impact‐related compaction. The clusters developed by growth of aragonite within films of aqueous fluids that had a relatively high Mg/Ca ratio. These fluids were focused within zones of high porosity and permeability along a weak compactional fabric in the matrix and this fabric is also likely to have influenced the orientations of aragonite crystals as they grew. These results suggest that aragonite probably occurs in most of those carbonaceous chondrites that have undergone moderate degrees of parent body aqueous alteration and may provide further insights into the evolution of pore fluid compositions and volumes and the chronology of asteroidal evolution. 相似文献
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KARL‐DAG VORREN ELLEN ELVERLAND MAARTEN BLAAUW ERLING K. RAVNA CHRISTIN A. H. JENSEN 《Boreas: An International Journal of Quaternary Research》2009,38(3):401-420
Owing to proximity of the North Atlantic Stream and the shelf, the Andøya biota are assumed to have responded rapidly to climatic changes taking place after the Weichselian glaciation. Palynological, macrofossil, loss‐on‐ignition, tephra and 14C data from three sites at the northern part of the island of Andøya were studied. The period 12 300–11 950 cal. yr BP was characterized by polar desert vegetation, and 11 950–11 050 cal. yr BP by a moisture‐demanding predominantly low‐arctic Oxyria vegetation. During the period 11 050–10 650 cal. yr BP, there was a climatic amelioration towards a sub‐arctic climate and heaths dominated by Empetrum. After 10 650 cal. yr BP the Oxyria vegetation disappeared. As early as about 10 800 cal. yr BP the bryozoan Cristatella mucedo indicated a climate sufficient for Betula woodland. However, tree birch did not establish until 10 420–10 250 cal. yr BP, indicating a time‐lag for the formation of Betula ecotypes adapted to the oceanic climate of Andøya. From about 10 150 to 9400 cal. yr BP the summers were dry and warm. There was a change towards moister, though comparatively warm, climatic conditions about 9400 cal. yr BP. The present data are compared with evidence from marine sediments and the deglaciation history in the region. It is suggested that during most of the period 11 500–10 250 cal. yr BP a similar situation as in present southern Greenland existed, with birch woodland in the inner fjords near the ice sheet and low‐arctic heath vegetation along the outer coast. 相似文献
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WILLIAM F. READ ELLEN D. GRIZZLE WALTER M. GRIZZLE 《Meteoritics & planetary science》1967,3(4):219-229
Abstract. About 1950 an iron meteorite weighing 19 1/4 pounds was found a mile west of Withrow in Douglas County, Washington. The discovery site happens to be a little less than 5 miles SSE from that of the Waterville meteorite. However, the two irons are definitely not from a single fall. Withrow is a medium octahedrite showing secondary recrystallization of the type ascribed to cosmic heating. It was apparently picked up not more than a few years after it fell. Weathering is minimal, and effects of passage through the atmosphere are well preserved. 相似文献
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WILLIAM F. READ ELLEN D. GRIZZLE WALTER M. GRIZZLE 《Meteoritics & planetary science》1967,3(4):231-234
Abstract. The surface of the Withrow meteorite shows an unusual pit about two inches in diameter. This is explained as the result of pushing out of a plug of metal by expansion of an underlying troilite nodule. 相似文献
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Few studies have examined the hydrodynamic behaviour of carbonate sediments. The data presented here are the result of preliminary research on entrainment in well- and poorly sorted carbonate sands. Experiments were performed using naturally occurring sediments in a tilting, recirculating freshwater flume. Results indicate that when of similar size, shape and density, the transport threshold of carbonate sands is similar to that of quartz. However, owing to their lower density and often platy or irregular shape, skeletal sands require a lower shear stress to initiate transport. Because the density of carbonate particles may increasingly vary with grain size, the threshold of motion in coarse carbonate grains may differ more markedly from that of quartz. In poorly sorted samples, results show that the coarse-grained constituents move before the finer-grained components. Grain properties and boundary-layer dynamics are believed to explain this phenomenon. Rollability of the larger grains combined with physical trapping and immersion within a low velocity sublayer are believed to prevent finer particles from moving. Given the appropriate sediments and flow conditions, it may therefore be possible to deposit and preserve fine-grained sediments in a flow regime typically thought to transport such materials. 相似文献
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