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Morphological response of high-energy macrotidal beachesPoate, Timothy George January 2012 (has links)
Spatial data collected over 3 years is presented to assess the extent of morphological variability under seasonal and storm waves at four high-energy macrotidal beaches. A novel approach is adopted to identify and classify the beach response which is used to assess the relative stability of the system to changes in the dominant forcing conditions. Field measurements and modelling simulations using XBeach provide further support for a storm dominated system exhibiting relative stability. Morphologically the beaches range from dissipative to intermediate and are characterised by low tide bar/rip morphology which plays a key role in the nearshore dynamics and beach safety. Located in the north coast of Cornwall the sites are exposed to high-energy waves that dominate the stability and behaviour of beaches in this region. The growing need for marine renewable energy in the UK has led to the deployment of a Wave Hub on the seabed off the north coast of Cornwall, designed to provide grid connection for wave energy devices (WECs). As a unique development much has been done to address concerns over potential impacts cause by arrays of WECs during its construction and operational lifetime; these predicted impacts include changes in the quality of waves for surfing and effects on the beach dynamics which determines beach safety through the presence of bar/rip features. In this thesis three years of monthly topographic surveys were collected from beaches in the proposed Wave Hub shadow zone to assess their morphodynamic variability. Realtime kinematic (RTK) GPS surveys were undertaken using an all-terrain vehicle to measure the three dimensional (3D) morphology at four beaches (Perranporth, Chapel Porth, Porthtowan and Gwithian) situated along a 23 km stretch of the north Cornish coast. In addition nearshore wave data, in-situ hydrodynamic measurements, local tide gauges and Argus video data allowed detailed analysis of process-response mechanisms for long term (yearly); seasonal (monthly); storm (weekly/daily); and tidal (hourly) morphological behaviour. Of particular interest was the degree to which the beaches displayed bar/rip morphology, characterised by the three dimensionality (3D) of beach response, which determines wave breaking and affects beach safety. Using a combination of measured shoreline variability and empirical beach classification schemes, the response to changes in the wave conditions at each beach have been assessed. The sites exhibited net long term accretion derived from the intertidal beach volume. Throughout the survey period intersite similarity in beach response was observed in response to storm waves, yet coupling between the seasonal wave climate and the beach morphology was not evident at any of the sites, due to the dominance of recovery phases following storm events. The role of increased wave conditions (exceeding Hs=4 m) during sustained storm events (> 50 hrs) led to offshore transport from the beach face to the subtidal bar region. Post-storm recovery was characterised by onshore transport and the development of substantial 3D low tide morphology. Under normal wave conditions (Hs=1.6 m) the dominant 3D features smoothed out as channels in-filled and bars reduced over a period of 2-3 months. This cyclicity was observed on ~3 occasions at the northern sites, while Gwithian remained more stable throughout; reflecting the more sheltered position of the beach. Overall the beaches exhibited a significant storm dominated morphological response cycle, unlike the more familiar winter/summer seasonal response. Nearshore bar behaviour at Perranporth and Porthtowan, assessed using ARGUS images, was dominated by offshore migration (ca.20 m/yr) following closely the net intertidal accretion, while bar shape exhibited changes over monthly periods. Intensive field studies of morphological change, nearshore current flows and surf zone wave conditions were undertaken at Porthtowan during small swell dominated waves and large energetic storm conditions in May and October 2010 respectively. The field data highlighted accretionary response under small swell dominated waves, and strong offshore directed undertow flows (0.5 m/s-1) during erosive energetic conditions (>Hs = 4m) which were then related to the monthly surveys. These results were applied to XBeach model simulations which helped further identify the importance of antecedent morphology and the complexities of intertidal geology in controlling beach response. The study provides the longest continuous record of beach morphology dynamics for macrotidal energetic sites and provides a valuable addition to work in this field. The dominance of storm driven morphological response was clear with highly threedimensional morphology developing under post storm conditions and continued beach evolution driven by the seasonal conditions. Antecedent morphology was found to be a key element of beach response with geological control an additional component. The projected reduction in wave conditions due to the Wave Hub and the natural variability observed indicates the sites are unlikely to shift significantly from their current dynamic state in response to the Wave Hub, and as such the potential impact on nearshore and beach dynamics is minimal.
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Efeitos do laser de GaAlAs sobre superfície de titânio: avaliação morfológica e de temperaturaUZUN JUNIOR, NELSON 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:33:26Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:05:41Z (GMT). No. of bitstreams: 0 / Dissertacao (Mestrado Profissionalizante em Lasers em Odontologia) / IPEN/D-MPLO / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP; Faculdade de Odontologia, Universidade de Sao Paulo, Sao Paulo
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Sedimentological Characteristics and 3-D Internal Architecture of Washover Deposits from Hurricanes Frances, Ivan, and JeanneHorwitz, Mark H 13 November 2008 (has links)
Extensive overwash occurred along Florida's Atlantic and northern Gulf facing barrier islands during the passages of Hurricanes Frances, Ivan, and Jeanne in 2004. These high-energy storm events provided a unique opportunity to study the spatial depositional patterns and internal sedimentary architecture of fresh washover deposits resulting from inundation to collision regime overwash events. Sedimentological characteristics and 3-D internal architecture of the washover deposits were studied through coring, trenching, sediment analysis, ground penetrating radar (GPR) surveys, and pre- and post-storm aerial photography and LiDAR topographic survey data.
The cross-shore extent of washover deposition is controlled by sediment supply, accommodation space, and the extent of cross-shore penetration of overwash flow. Antecedent morphology of the beach or barrier island is the primary factor governing sediment supply and accommodation space. Antecedent morphology coupled with spatio-temporal factors including storm position, intensity, and duration govern the extent of landward excursion of overwash flow. Washover deposition ranges from thin deposits, limited in cross-shore extent to the beach berm, to extensive sheet-like sediment bodies extending across an entire barrier island profile.
Four sedimentary facies are recognized, which can be related to antecedent morphology. Berm facies, dominates the beach and seaward side of the foredune, and is characterized by a basal erosional surface and seaward dipping planar stratification. Back-berm facies extends landward from the dune crest down the backside of the foredune, exhibits little evidence of erosion along the basal contact, and is dominated by landward inclined stratification. Platform facies, largely confined to the interior platform, exhibits little evidence of erosion along the pre-storm surface, and horizontal to gently landward dipping parallel stratification, which merges landward with, and commonly overlies steeply landward dipping foreset stratification. Antecedent hummocky dunes may be preserved within platform facies. The landward most facies, backbay facies is dominated by subaqueous deposition within the back bay, and is characterized by steeply landward dipping tabular foreset and sigmoidal stratification. In the longshore direction, backbay facies exhibit trough and mound GPR reflective patterns, representing washover sediment ridges and troughs oriented parallel to the primary flow direction, and illustrate the highly 3-dimesional nature of the washover deposits.
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Evaluación del cambio morfológico en la cuenca del río Mala aplicando RUSLE y técnicas geoespacialesRoque Rodrigo, Geraldine Pamela, Santisteban Sobenes, Cyndel Nicole 06 August 2021 (has links)
Los efectos de la deforestación, el cambio climático y las acciones humanas provocan cambios significativos en la morfología de la cuenca debido al aumento del flujo y el transporte de sedimentos. Como resultado, se han observado altas tasas de erosión en las últimas décadas. El presente estudio se llevó a cabo en la cuenca del río Mala de la provincia de Cañete (Lima, Perú). El cambio morfológico de la cuenca del río Mala es evidente en la formación de islas y en el curso ramificado que ha adoptado a lo largo de los años debido a la erosión. El objetivo de este estudio fue analizar el cambio morfológico resultado de la pérdida de suelo durante el período 1996-2016 para la cuenca del río Mala aplicando las técnicas de RUSLE y geoespaciales. Los parámetros del modelo RUSLE requieren 5 factores (R, K, LS, C y P), que se obtienen a través de la información geoespacial y meteorológica recopilada de las principales instituciones del país. Con la información obtenida, se calcularon las tasas de erosión a través de un álgebra de mapas con la aplicación del software Arc-GIS. Según los resultados, la pérdida media de suelo es de 248.44 t ha-1 año-1 en la cuenca del río Mala. Además, el mapa de erosión muestra que el 42.38% de la cuenca presenta niveles de erosión extremadamente graves. Los resultados pueden contribuir a la aplicación de mejores prácticas conservación y ordenamiento territorial del suelo para reducir la erosión en la cuenca del río Mala. / The effects of deforestation, climate change and human actions cause significant changes in the morphology of the basin because of increased flow and sediment transport. As a result, high rates of erosion have been observed. The present study was carried out in the Mala River Basin of Cañete Province (Lima, Peru). The morphological change of the Mala River basin is evident in the formation of islands and in the branching course it has adopted over the years due to erosion. The objective of this study was to analyse the morphological change resulting from soil loss during the period 1996-2016 for the Mala River Basin applying RUSLE and geo-spatial techniques. The parameters of RUSLE model require 5 factors (R, K, LS, C and P), which are obtained through geographic and rainfall information from the main agencies of the country. With the information obtained, erosion rates were calculated through a map algebra with the application of Arc-GIS software. According to results, the average soil loss is 248.44 t ha-1 year-1 in the Mala River Basin. In addition, the erosion map shows that 42.38% of the basin presents extremely severe erosion levels. The results can help in the implementation of soil management and conservation practices to reduce soil erosion in the Mala River basin. / Tesis
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Nominal Morphology in Russian Correspondence 1700-1715 : Part One - Part TwoMidy, Isabelle January 2011 (has links)
The materials examined here consist of 121 Russian letters dating from 1700-1715. The present study aims to define a stage in linguistic evolution and analyze the morphological heterogeneity in the textual corpus. The letters are divided into three categories: private, semiofficial, and official. All nomina (substantives, adjectives, pronouns, and numerals) are registered and their occurrences processed statistically case by grammatical case. The focus is on linguistic features where a choice is possible and variation is in evidence. Conservatism asserts itself primarily in strongly standardized texts such as the official correspondence, while phonetic spelling reflecting akanie and dialectally influenced syncretism between different cases (e.g., the GDLsg) is observable mainly in the private letters, which consitute the least standardized category. There is a trend break among u-genitives and u-locatives, where our findings indicate that the u-ending is losing ground. A statistically established correlation between declensional type and the presence/absence of a coordinated adjunct is noted in the instrumental plural of masculine o-, jo-stems. The choice of the archaizing Ipl-ending suggests that repetition of the –mi- element is perceived to be redundant. In the singular paradigm of the adjective the feminine instrumental forms are strongly conservative, and the modern short ending occurs in only a few instances. In the nominative plural the modern ending –ye, -ie dominates for all cases and in all letter categories. The use of samyj for the comparative degree is not particularly prominent in these 18th-century letters. Because this descriptive comparison type developed in the 17th century, its use could have been expected to rise in the 18th, but our materials do not indicate any such increase. With few exceptions, pronouns generally display forms corresponding to modern usage. One notable deviation is the occurrence of a pronoun with an adjectival ending in the genitive singular (tago), but it is an idiosyncratic feature. Numerals for the most part correspond to modern usage, although their low frequency does not invite generalizations. / <p>978-91-86071-61-5 (del 1), 978-91-86071--62-2 (del 2), 978-91-86071-63-9 (del 1-2)</p>
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IMPACTS OF UPSTREAM DAM DEVELOPMENT ON FLOW, SEDIMENT AND MORPHOLOGICAL CHANGES IN VIETNAMESE MEKONG DELTA / 上流ダム開発がベトナム・メコンデルタにおける流量・土砂および河床変動に及ぼす影響DOAN, VAN BINH 24 September 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第22052号 / 工博第4633号 / 新制||工||1722(附属図書館) / 京都大学大学院工学研究科都市社会工学専攻 / (主査)教授 角 哲也, 准教授 Sameh Kantoush, 准教授 竹門 康弘 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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