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Analysis of Coastal Erosion on Martha's Vineyard, Massachusetts: a Paraglacial IslandBrouillette-jacobson, Denise M 01 January 2008 (has links) (PDF)
As the sea rises in response to global climate changes, small islands will lose a significant portion of their land through ensuing erosion processes. The particular vulnerability of small island systems led me to choose Martha’s Vineyard (MV), a 248 km2 paraglacial island, 8 km off the south shore of Cape Cod, Massachusetts, as a model system with which to analyze the interrelated problems of sea level rise (SLR) and coastal erosion. Historical data documented ongoing SLR (~3mm/yr) in the vicinity of MV. Three study sites differing in geomorphological and climatological properties, on the island’s south (SS), northwest (NW), and northeastern (NE) coasts, were selected for further study. Mathematical models and spatial data analysis, as well as data on shoreline erosion from almost 1500 transects, were employed to evaluate the roles of geology, surficial geology, wetlands, land use, soils, percent of sand, slope, erodible land, wind, waves, and compass direction in the erosion processes at each site. These analyses indicated that: 1) the three sites manifested different rates of erosion and accretion, from a loss of approximately 0.1 m/yr at the NE and NW sites to over 1.7 m/yr at the SS site; 2) the NE and NW sites fit the ratio predicted by Bruun for the rate of erosion vs. SLR, but the SS site exceeded that ratio more than fivefold; 3) the shoreline erosion patterns for all three sites are dominated by short-range effects, not long-range stable effects; 4) geological components play key roles in erosion on MV, a possibility consistent with the island’s paraglacial nature; and 5) the south side of MV is the segment of the coastline that is particularly vulnerable to significant erosion over the next 100 years. These conclusions were not evident from simple statistical analyses. Rather, the recognition that multiple factors besides sea level positions contribute to the progressive change in coastal landscapes only emerged from more complex analyses, including fractal dimension analysis, multivariate statistics, and spatial data analysis. This suggests that analyses of coastal erosion that are limited to only one or two variables may not fully unravel the underlying processes.
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Paraglacial Rockslope StabilityMcColl, Samuel Thomas January 2012 (has links)
The aim of this research was to study the relationship between rock slope stability and glacial processes. An in-depth analysis of our current understanding of how glaciated rock slopes develop instability and movement during deglaciation is presented; this shows that understanding is incomplete without an appreciation of the variable mechanical behaviour of glacier ice. In this thesis, I argue that:
(1) The ductile behaviour of ice at low strain rates allows movement of rock slopes buttressed by ice. Field evidence and simple force models are used to explore rate of movement of ice-contact slopes and the conditions under which they evolve. The results indicate that large rockslides can move and deform glacial ice at rates of 10-2 to 102 m-yr. This implies that ice-contact slope movement may be important for slope evolution and the erosion and entrainment processes of glaciers; and
(2) the elastic strength of glacier ice at the high strain rates associated with seismic shaking enables ice to modify the response of the surrounding rock to seismic shaking. To explore this, numerical analyses of the interaction between glacial erosion, glacier mass, topography, and earthquake shaking intensity are undertaken. Shaking of mountains of variable shape and with different levels of ice inundation is simulated using FLAC 6.0. The results suggest that complete inundation by ice can significantly reduce shaking intensity. This, in combination with glacial steepening of slopes, may make recently deglaciated slopes more prone to coseismic failure.
In the final chapter of the thesis, I present a conceptual model of the evolution of slope stability during stages of glaciation and deglaciation. The model incorporates the ideas presented in the thesis. I then offer recommendations for how our understanding of these processes can be further advanced.
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Quantification de la dénudation glaciaire et postglaciaire dans l'orogène pyrénéen : bilans comparés parmi des cirques et des petits bassins versants en contexte climatique océanique et méditerranéen à l'aide des nucléides cosmogéniques produits in-situ et de mesures topométriques sous SIG / Quantification of the glacial and postglacial denudation in the Pyrenean orogen : comparative assessment among cirques and small catchments under Oceanic and Mediterranean climates using in situ terrestrial cosmogenic nuclides and GIS topometric measuresCrest, Yannick 15 September 2017 (has links)
La question sera d’évaluer si l’érosion glaciaire dans les Pyrénées est suffisante pour expliquer au moins une proportion de la surrection du volume montagneux, et donc dans quelle mesure les moteurs tectoniques demeurent incontournables. Le terrain proposé est un transect E–W, portant sur : un échantillon de cirques granitiques (prélèvement de roche-mère, lithologie homogène) déglacés (Bassiès) ou partiellement englacés (Aneto) ; et un échantillon de bassins versants (prélèvement de sédiments dans le lit du collecteur principal aux exutoires). Les méthodes utilisées seront les isotopes 10Be et 26Al produits in situ (Dunai, 2010) outils servant à quantifier les vitesses d’érosion d’un substratum rocheux ou d’un sol en fonction de leur durée d’exposition au bombardement cosmique provenant de la voûte céleste. Il s’agira ainsi (i) de détecter l'existence d'héritages d'exposition, synonymes de très faible tranche érodée lors du dernier cycle glaciaire (Fabel et al., 2002, 2004) — héritages inconnus jusqu’ici dans les Alpes (Ivy Ochs et al., 2007) mais déjà repérés dans l'est des Pyrénées (Delmas et al., 2008, 2011) ; et (ii) de comparer les taux moyens de dénudation post-glaciaire de bassins versants sélectionnés en fonction de leur passé (glaciaire ou non), de l’ambiance climatique post-glaciaire (influences atlantiques ou méditerranéennes), et enfin, sur chaque site-atelier ainsi défini, de leur taille (échantillonnages compartimentés sur des BV emboîtés de rang 1, 2, et 3 ; v. méthode in Godard et al., 2012). Une approche complémentaire consistera à quantifier systématiquement, dans les quelques cirques témoins, les volumes érodés par cubage des matériaux morainiques tardiglaciaires ou holocènes, mais aussi des éventuels glaciers rocheux et des éboulis. Ces bilans de masse impliqueront éventuellement aussi un effort de datation de ces formations, dont la chronologie (en particulier les glaciations holocènes) est encore très mal connue dans les Pyrénées. / The Pyrenees form a mid-latitude, intermediate altitude mountain range displaying weak tectonic activity and a westward gradient of increasing topographic inheritance from the work of Pleistocene glaciers. This thesis aims to characterize and to quantify the influence of the glacial and non-glacial erosive processes on the most elevated areas of the mountain range, during the last climatic cycle (~100 ka), according to an E-W transect from the Carlit to the Maladeta, via the Ariège. The Holocene tills volumes (Maladeta) were quantified from DEM- and GIS-derived measurements, while the lowering of the glaciated and unglaciated surfaces was determined from cosmogenic nuclides (CN). Denudation was measured through TCN concentrations in alluvial sediment in elevated catchments. Würmian denudation on supraglacial ridges (10–25 mm/ka) was slower than on cirque floors (30–40 mm/ka), thereby resulting in an increase in topographic relief. Denudation of the cirques floor increases during post-Würm spatially limited glaciations (20-400 mm/ka). Small Holocene glaciers erosion in the Maladeta is 180-700 mm/ka even > 1 m/ka. These rates are noteworthy higher than bedrock and regolith plateau weathering (2.60 mm/ka and 20-40 mm/ka, respectively). Postglacial catchments denudation (25-450 mm/ka) linearly increases with mean slope (r = 0.83) and then with the Pleistocene glacial inheritance of the landscape. Results confirm the atonic tectonic activity of the Pyrenees and show the influence of the glaciers and fragile meta-sedimentary lithologies on the Holocene denudation.
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Ruptures de Versant Rocheux (RVR) à l’échelle des Alpes occidentales : inventaire systématique, analyse spatiale, perspectives patrimoniales / Rock Slope Failure (RSF) in the Western Alps : a systematic inventory with perspectives on causes, geohazards and geoheritageBlondeau, Sylvain 02 October 2018 (has links)
L’étude des instabilités gravitaires profondes de versant (nommées ici RVR : Ruptures de Versant Rocheux) s’effectue généralement sous forme d’un suivi instrumenté à l’échelle d’un site jugé dangereux, parfois à l’échelle d’une vallée ou d’un massif. Plus rares sont les études qui apprécient la diversité, la taille et la distribution spatiale des RVR à l’échelle d’une chaîne de montagne. C’est ce que propose cette thèse pour les Alpes occidentales. Il s’agit tout d’abord d’un inventaire construit de manière systématique par imagerie satellite à l’aide d’un outil en accès libre : Google Earth Pro™, et d’une série de méthodes de détection visuelles assorties de vérifications sur le terrain. Une typologie qui s’appuie sur des classifications existantes, mais qui s’adapte au cortège de RVR observés dans l’aire d’étude, a permis de retenir cinq grandes catégories de RVR : les EAR (Eboulements et avalanches rocheuses), GR (Glissements rocheux), GC (Glissements-coulées), DGCVR (Déformations gravitaires profondes de versants rocheux) et DDV (Déformation de versant). Nous élaborons sur cette base une étiologie des RVR en fonction de grands facteurs préparatoires réputés mettre en mouvement les masses rocheuses : lithologie, structure géologique (contacts anormaux), sismicité, pente topographique, relief local, intensité du paléoenglacement würmien, précipitations actuelles, dégradation du pergélisol. Sur un inventaire exhaustif de 1400 RVR, les résultats montrent que la susceptibilité lithologique est le premier facteur qui conditionne l’occurrence des RVR, mais qu’il se cumule avec l’amplitude du relief exacerbée par le paléoenglacement quaternaire. Ce dernier fournit le potentiel gravitationnel localement nécessaire à la mise en mouvement des masses rocheuses. Les autres facteurs examinés présentent des degrés d’importance moindres à l’échelle régionale, avec toutefois des exceptions intéressantes à l’échelle locale et pour des catégories de RVR particulières. Ainsi, on peut noter des RVR en lien avec certaines failles et fronts de chevauchements, ainsi qu’avec la dégradation du pergélisol — mais uniquement dans le cas des éboulements. Parmi l’ensemble des facteurs, le pouvoir explicatif des totaux de précipitations demeure le plus faible. Dans une optique de valorisation scientifique du catalogue des RVR inventoriés, nous proposons des perspectives de mise en valeur géo-patrimoniale de certaines RVR sur la base de leurs caractéristiques morphologiques, ou du risque que certaines masses rocheuses font peser sur les enjeux économiques et humains des populations. Nous présentons ainsi une galerie de RVR remarquables, retenues pour leur caractère singulier, ou dangereux, ou éducatif, ou emblématique à divers titres. / The study of rockslope failure (RSF) is usually focused on the instrumental monitoring of hazardous sites, sometimes extended to a population of RSF in a valley or massif. Few studies survey and analyse RSF at the much broader scale of a mountain range. Here we produce a systematic inventory of RSF in the Western Alps based on satellite imagery provided by the open-access platform Google Earth Pro™, and using a series of ground-truth-tested visual detection methods. Based on a categorisation inspired by existing classifications but adapted to the range of RSF observed in the study area, five main RSF types were identified: rockfalls and rock avalanches, rockslides, earthflows, deep-seated gravitational slope deformations (DSGSD), and slope deformations. We analyse the spatial incidence of those five categories in relation to a range of likely cumulative causes. The analysis covers lithology and rock fabric, geological structure (faults, thrust fronts), seismicity, slope angle, local relief, the intensity of Würmian glaciation, modern rainfall patterns, and permafrost degradation. Results from a total population of 1400 RSF occurrences show that RSF incidence and mode are overwhelmingly susceptible to rock type, but that local relief enhanced by past glaciation generates the gravitational potential needed to move the rock masses. Other conditional factors receive lower rankings at the regional scale, but stronger connections appear in local settings. At places, RSF size or density are seen to correlate with faults, thrust fronts, and with permafrost degradation (restricted, however, to the rockfall category). Among all the likely causes of RSF, rainfall totals represent the weakest link. Among the 1400 sites we focus on a subset of flagship RSF occurrences that we consider relevant to either geoheritage or land-use planning concerns. The criteria were selected on the basis of morphological characteristics (uniqueness, educational and scientific value) or from the perspective of the hazards that some of the displaced rock masses may present to human life and infrastructure.
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Die Eisrandtäler im Karakorum: Verbreitung, Genese und Morphodynamik des lateroglazialen Sedimentformenschatzes / Lateroglacial valleys in the Karakoram: Distribution, genesis and morphodynamics of lateroglacial sediment associationsIturrizaga, Lasafam 28 November 2005 (has links)
No description available.
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A dendrochronological investigation of paraglacial activity and streamflow in the vicinity of the Homathko Icefield, British Columbia coast mountains, CanadaHart, Sarah J. 08 October 2009 (has links)
Moraine and glacier dams bordering the Homathko Icefield burst in the 1980s and 1990s, causing catastrophic downstream floods. The largest of the floods occurred in August 1997 and was caused by rapid breaching of the dam that impounds Queen Bess Lake, below Diadem Glacier. The outburst flood from the lake eroded the Holocene-age sediment fill in the valley below, exposing a series of subfossil forest layers separated by overbank floodplain sediments. A field investigation of the eroded valley fill in 2008 revealed multiple paraglacial valley-fill units, many of which are capped by in situ stumps and woody detritus. Dendrogeomorphic dating and stratigraphic evidence revealed six major sediment deposition events that coincide with regional, independently dated glacier episodes over the past 1200 years. Construction of tree-ring chronologies for the study area also allowed for the examination of the relationship between radial tree growth and hydroclimate. Dendroclimatological and dendrohydrological techniques were used to reconstruct summer stream discharge of nearby Chilko River. An Engelmann spruce tree-ring chronology provided a proxy for mean summer discharge of Chilko River for the period 1775-2007. This record is the first to be developed from tree-ring data for a river draining a glacierized watershed in the British Columbia Coast Mountains. This proxy record provides insights into streamflow variability of a typical Coast Mountains river over the past 232 years and confirms the long-term influence of the Pacific Decadal Oscillation and El Niño-Southern Oscillation teleconnections on hydroclimatic regimes in the region.
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Late Quaternary to Holocene Geology, Geomorphology and Glacial History of Dawson Creek and Surrounding area, Northeast British Columbia, CanadaHickin, Adrian Scott 20 December 2013 (has links)
Northeastern British Columbia was occupied by the Cordilleran (CIS) and the Laurentide (LIS) ice sheets, however, the timing and extent remains contentious. The late Quaternary and Holocene history of this area is examined by exploring geomorphic, stratigraphic, geochemical and geochronologic components of glacial, deglacial, paraglacial and non-glacial landsystems. New tools, such as GIS, LiDAR, and new geochronologic methods, such as optical dating are used to understand the Quaternary geology and geomorphology of the region.
Bedrock topography represents the base of the Quaternary section and modelling shows that paleovalleys, common in this region, host extensive Neogene sedimentary records. Stratigraphies from the Murray and Pine valleys indicate glaciation prior to the Mid-Wisconsinan (MIS 3) and during the Late Wiconsinan (MIS 2). Glacial landforms record Late Wisconsinan ice-sheet coalescence and reflect the complex interaction of the LIS and CIS margins.
During deglaciation, the LIS and CIS separated and glacial Lake Peace (GLP) formed. Shoreline features enable reconstruction of lake and ice configurations. Four phases of GLP are preserved. Optical ages from Phase II indicate GLP occupied the area some time between ca. 16 – 14 ka yrs ago. The apparent tilt on the shorelines provides a measure of isostatic adjustments and suggests asynchronous retreat of first the LIS, then the CIS.
The transition from paraglacial to boreal conditions was driven by climate change and is recorded by vegetation sucession and cessation of paraglacial processes. Optical ages from stabilized dunes and radiocarbon ages from organics date the transition between 12 – 11.5 ka yrs ago with full boreal conditions established by 10 ka yrs ago.
The Holocene is dominated by erosional processes, however some systems are aggrading. A case study on a floodplain demonstrates that resistivity (Ohmmapper) surveys provide a grain-size proxy to suppliant GPR studies, which is essential for geophysical fluvial architectural analysis. In the study, the discrepancy between planform style (classic meander model) and subsurface geophysical surveys (indicative of vertical accretion associated with braided and wandering fluvial styles) reiterates cautions that planform may not always be a functions of depositional process and one may not be used to predict the other. / Graduate / 0372 / 0373 / 0368
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Morphologie et architecture d'une barrière composite paraglaciaire : l'isthme de Miquelon-Langlade (N- O Atlantique) / Internal architecture of mixed sand-and-gravel beach ridges : Miquelon-Langlade Barrier, NW AtlanticBilly, Julie 09 December 2014 (has links)
Cette thèse a pour objectif d’établir une vision globale et continue mer-terre-mer d’une barrière littorale paraglaciaire, en combinant une approche morphologique et architecturale. L’originalité de l’isthme de Miquelon-Langlade (NO Atlantique) entre les deux îles éponymes réside en sa diversité et complexité de systèmes (flèches, cordons littoraux, lagune) qui s’emboitent formant une barrière composite évoluant le long de deux façades ouvertes sur l’océan. Ce travail a été rendu possible grâce à l’association de données topographiques (GPS-RTK), de géophysique marine (sismique HR) et terrestre (géo-radar), sédimentaires (carottes, échantillons de surface) ainsi que des datations par OSL. L’étude de cette barrière a permis 1) d’identifier l’ensemble des dépôts d’une séquence paraglaciaire (dépôts de chute, bas niveau, augmentation et haut niveau marin); 2) de pointer l’importance de la géométrie des îles, du substratum rocheux ainsi que de la topographie héritée dans la formation de la barrière; 3) de définir l’architecture interne de beach ridges mixte sable-galet; et 4) de pointer le potentiel de ces systèmes en tant marqueur du paléo-niveau marin tout en proposant la première courbe de tendance de l’évolution du RSL pour l’Archipel de Saint-Pierre-et-Miquelon sur les derniers 3000 ans (+1mm/an). L’association de l’ensemble de ces informations a permis de proposer un schéma de mise en place de la barrière, depuis le retrait de la calotte (13 700 ans) jusqu’à sa forme actuelle, évoluant dans un contexte d’augmentation du RSL et de fort apport sédimentaire, tout en proposant une vision de détail de la formation de la plaine de beach ridges au cours des derniers 3000 ans. / The purpose of this PhD thesis was to define a complete and continuous sea-land-sea view of a paraglacial coastal barrier system, combining morphological and architectural approaches. Particularity of the Miquelon-Langlade isthmus (NO Atlantic) lies in its diversity and complexity of systems (spits, beach ridges, and lagoon) that fit together to form a composite barrier prograding along two open coasts. Investigations of this barrier included topographic (RTK-GPS), ground-penetrating radar (GPR) seismic, sedimentary (cores, augers, samples) and chronologic (OSL) data collections. This study of this paraglacial composite barrier make possible 1) to characterize all deposits of the paraglacial sequence (FSST, LST, TST, HST); 2) to emphasize the primary influence of islands geometry, bedrock and inherited topography on the coastal progradational pattern; 3) to provide a better understanding of the internal architecture of depositional processes and driving mechanisms of mixed sand-and-gravel beach ridges; 4) to examine the potential of these mixed beach-ridge systems to record and preserve paleo-sea-level information, to produce the first sea level trends for the Saint-Pierre-et-Miquelon archipelago over the last 3000 years. The combination of all these data provide a model of development of the barrier since the ice sheet retreat (13 700 yrs) to its present form, in a context of RSL rise and high local glaciogenic sediment supply, and a detailed view of the formation of the beach ridge plain over the last 3000 yrs.
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