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The sandy deposits produced by tsunamis and liquefaction share many sedimentary features, and distinctions between the two are important in seismically active coastal zones. Both types of deposits are present in the wetlands bordering Puget Sound, where one or more earthquakes about 1100 years ago caused both tsunami flooding and sediment venting. This co‐occurrence allows an examination of the resulting deposits and a comparison with tsunami and liquefaction features of modern events. Vented sediments occur at four of five wetland field localities and tsunami deposits at two. In comparison with tsunami deposits, vented sediments in this study and from other studies tend to be thicker (although they can be thin). Vented sediments also have more variable thickness at both outcrop and map scale, are associated with injected dykes and contain clasts derived from underlying deposits. Further, vented sediments tend to contain a greater variety of sedimentary structures, and these structures vary laterally over metres. Tsunami deposits compared with vented sediments are commonly thinner, fine and thin landward more consistently, have more uniform thickness on outcrop and map scales, and have the potential of containing coarser clasts, up to boulders. For both tsunami deposits and vented sediments, the availability and grain size of source material condition the characteristics of the deposit. In the cases presented in this paper, both foraminifera and diatom assemblages within tsunami deposits and vented sediments consisted of brackish and marine species, and no distinction between processes could be made based on microfossils. In summary, this study indicates a need for more careful analysis and mapping of coastal sediments associated with earthquakes to avoid misidentification of processes and misevaluation of hazards. 相似文献
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BY NICHOLAS R. GOLLEDGE JEREMY D. EVEREST TOM BRADWELL JOANNE S. JOHNSON 《Geografiska Annaler: Series A, Physical Geography》2010,92(1):111-124
This paper presents new lichenometric population data from the Antarctic Peninsula (67°S), and describes a new approach to lichen growth-rate calibration in locations where dated surfaces are extremely rare. We use historical aerial photography and field surveys to identify sites of former perennial snowpatches where lichen populations now exist. As an independent check on lichen mortality by snowkill, and the timing of snow patch disappearance, we use a positive-degree day (PDD) approach based on monthly climate data from Rothera Research Station. We find that maximum growth rates for lichens <40 mm in diameter on Adelaide Island are around 0.8 mm/yr. Furthermore, we propose that our combined methodology may be more widely applicable to the Polar Regions where the construction of lichenometric dating (age-size) curves remains a problem. 相似文献
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ABSTRACT The conglomeratic sandstone of the Sandstone of Floras Lake (Miocene) is a superbly exposed example of a coarse-grained sequence deposited in a high-energy, storm-wave-dominated, shallow-marine environment. The features of the unit suggest deposition on a shoreface in proximity to a fluvial source. Distinguishing characteristics include amalgamated hummocky-stratified sandstone, low-angle cross-stratified conglomerate beds, lenticular conglomerate beds, tabular conglomerate beds, high-angle scours, trough cross-bedded sandstone, organic-rich beds, and burrows of several sizes. These features are interpreted in terms of their depths of deposition, generation by fair weather, storm, and/or flood processes, and as indicators of relative rates of sedimentation. The unit records complex interaction of tectonic, wave, fluvial and tidal processes. Relative depth changes indicated in the sequence probably reflect changes in the balances between sediment supply, basin subsidence, and eustatic sea-level changes. Wave processes are manifest in the presence of structures deposited both above and below fair-weather wave base. Deposition and reworking by chaotic seas associated with local storms and by long-period swell associated with distant storms may be indicated by the interbedding of amalgamated hummocky-stratified sandstone and conglomerate beds. The effects of the lateral migration of a fluvial source with time are reflected by the changing nature and apparent rates of supply of sediments deposited in the nearshore zone. Tidal processes are manifest largely as superimposed features on wave- and current-generated structures. Biogenic structures are an important clue to the rates and frequencies of all these processes. The conglomeratic sandstone was deposited on a high-energy, tectonically active continental margin, similar to the present setting of the southern Oregon coast. It was deposited at varying depths in a subsiding basin during a time of world-wide sea-level rise. The sequence provides an opportunity for the study of coarse-grained nearshore-marine sediments and the delineation of the interaction of various processes during deposition. Detailed sedimentologic and palaeoecologic analysis provides insight into the nature of storm and flood processes that are difficult to observe in the modern environment. 相似文献
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A continuous pollen record from the last glacial period to 100 B.P. was obtained from an ice core drilled in 1977 near the top of the Agassiz Ice Cap. Pollen concentrations are low ( c . 15–173 grains/100 I) through-out the core and exotic pollen grains (from distant sources) dominate over regional pollen grains (from Ellesmere Island). The very low concentrations during the Wisconsinan glacial period and the early Holocene are attributed to the increased distance of potential sources as most of northern North America was ice-covered or supported tundra vegetation. An increase of exotic grains (mainly birch and alder) at c . 7,600 B.P. corresponds to the period of alder migration into the Low Arctic regions. The subsequent fluctuations of exotic pollen, especially the increase at c . 3,100 B.P., are unexplained at present. Regional pollen concentrations start to increase at c . 6,100 B.P. and a maximum concentration is reached at c . 3,100 B.P. The pollen record suggests that plant migration into northern Ellesmere was limited until 6,100 B.P., then increased gradually and continued to do so for about 1,000 years after the climate had started to deteriorate at about 4,000 B.P. 相似文献
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Seasonal and annual variation of pollen content in the snow of a Canadian high Arctic ice cap 总被引:1,自引:0,他引:1
Seasonal and annual pollen deposition over an eight-year period (1981-89) in the snow layers of the Agassiz Ice Cap, Ellesmere Island, was investigated. The annual and seasonal layers were determined from the snow stratigraphy. Thirteen to thirty-five kg were sampled for each layer. Most of the pollen grains deposited on the ice cap originate either from the high Arctic regional tundra, or from the boreal forest and low Arctic tundra over 1,000 km to the south. The regional pollen types show large variations throughout the year and the maximum concentration is normally found in the late summer-early autumn snow. The exotic types usually show less seasonal variation, although with slight maximum in the spring or summer layers. The annual regional and exotic pollen influx to the ice cap can be highly variable. These variations are tentatively related to climatic parameters. 相似文献
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Marine shelf strata of the Quinault Formation reflect the influences of storm–flood processes and convergent margin tectonism on sedimentation and palaeocommunity distributions in an active forearc basin of Early Pliocene age, western Washington, USA. The sedimentologic, ichnologic and invertebrate megafaunal character of coastal sea cliff exposures in the Pratt Cliff–Duck Creek area, Quinault Indian Nation, reveal five different sedimentary facies – scoured, Rosselia, bioturbated, mixed and Acharax. These facies document the shifting interplay and intensities among storms, waves and river‐flood plumes during transgression in inner to mid‐shelf settings. Storm sedimentation on the inner shelf is recorded north of Pratt Cliff by amalgamated, proximal tempestites of the scoured facies, which grade up‐section to thick deposits of hummocky cross‐stratified sandstone, indicative of strong wave influences. These hummocky beds alternate, in metre‐scale packages, with banded mudstone and siltstone that have distinctive sedimentologic and ichnofaunal characteristics (Rosselia facies). In particular the mudstone and siltstone occur as 1–15 cm‐thick, rhythmic, parallel beds that are laterally continuous, internally homogeneous to faintly laminated, and thus similar in nature to fine‐grained, oceanic flood deposits reported from shelf settings offshore the modern Eel River, northern California. The Quinault flood deposits are dominated by the ubiquitous trace fossil Rosselia socialis, comprising vertical, mud‐packed, flaring burrows with a sand‐filled central shaft which has been inferred as the feeding‐dwelling structure of a vermiform invertebrate adapted to high sedimentation rates in inner‐shelf settings. Fairweather conditions in between the higher energy periods of storms, waves and floods are recorded north of Pratt Cliff by the mixed facies, which is interpreted as representing the sand and mud zone of the inner‐ to mid‐shelf transition. Quieter, deeper, mid‐shelf, fairweather settings are typified by the bioturbated facies south of Pratt Cliff, where lower sedimentation rates and lower physical energies produced extensively bioturbated deposits of sandy siltstone punctuated, in places, by isolated sandy beds of distal tempestites. Quinault strata also chronicle stratigraphic signatures of subduction of the Juan de Fuca plate beneath western Washington during the Pliocene. For example, the imprint of geochemically unusual authigenic carbonates and a chemosynthetic palaeocommunity (Acharax facies) have been interpreted as a methane seep on the Quinault seafloor. Furthermore, a mobile rockground epifauna of pholadid bivalves became established on abundant, dark mudstone cobbles and pebbles sourced from the Hoh Assemblage, a Miocene accretionary prism that was actively deforming as well as interacting with Quinault forearc sediments during the Pliocene. Hoh mudstone clasts were supplied to the Quinault shelf via seafloor‐piercing diapirs and eroding mélange shear zones, exposures of which today occur in fault contact with Quinault strata along the coast from Taholah to the Raft River. 相似文献
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