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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Palaeoenvironmental reconstruction: evidence for seasonality at Allia Bay, Kenya, at 3.9 million years

Macho, Gabriele A., Jiang, Y., Leakey, M.G., Williamson, D.K. January 2003 (has links)
No / In an earlier study, stress lines in primate teeth were found to occur on a recurrent basis, probably corresponding to seasonal fluctuations in environmental parameters, such as food availability (Macho et al., J. Hum. Evol. 30 (1996) 57¿70). In the present study this approach was extended to the study of teeth of extant and extinct mammals, with the specific aim to determine the pattern of seasonality at the Australopithecus anamensis-bearing site at Allia Bay, Kenya. It was found that extant and extinct species, who share similar dietary/ecological adaptations, are comparable in their patterns of stress. Typical browsers/mixed feeders were found to exhibit three recurrent disturbances per year, whereas grazers usually only exhibit two. The average spacing between lines is also comparable between extant and extinct species. Hence, while the severity and predictability of the seasons probably fluctuated during crucial periods of hominin evolution, there is little doubt that all hominins lived in a seasonal environment. At Allia Bay, the pattern of stress lines found in mammals suggests that the environmental conditions in which A. anamensis lived may have been comparable to those found in the Masai Mara today.
2

Palaeoenvironmental reconstruction of catchment processes in sediments from Bolgoda Lake, Sri Lanka

Eriksson, Frida, Olsson, Daniel January 2015 (has links)
Bottom sediment is an archive of the historical changes in a lake and its catchment. This thesis is apalaeoenvironmental reconstruction of catchment processes in Bolgoda Lake situated in western SriLanka. We studied a sediment core retrieved from this lake. In our study, we focus on multiplephysical and chemical proxies: grain-size, loss-on-ignition, total organic carbon content, C:N ratio,and δ13C stored in the organic matter. The aim of this study is to contribute to a better understandingof the palaeoenvironmental conditions in the region and allow a comparison between this site andothers.In the deepest part of the core, we see an overall high sand content, which indicates a period ofhigher discharge into the lake compared to what the other core parts indicate. This is probably aresult of higher precipitation. This is followed by a decline in C:N and a rise in TOC in the second partwhich indicates an increase of primary production in the lake. In the third part we again see a shift inthe C:N indicating a source change back to more terrestrial runoff. The increase in TOC and LOIvalues together with decrease in C:N ratio and a steady increase in δ13C indicate an increase inlacustrine productivity in the upper part of the core.By reconstructing the palaeoenvironmental history in Bolgoda Lake we can conclude that it isprobable that some other factor than diagenetic change affects the lake. Our results indicate thatthese changes most likely are due to more wet periods and anthropogenic activity, mainly throughland use changes.
3

Late Holocene palaeoenvironmental reconstruction on a peat sequence from northeastern South Africa, using grass phytoliths as main proxy

Sjöström, Jenny January 2013 (has links)
Contemporary a geographical imbalance of where palaeoclimatological studies have been undertaken exists, where the majority of palaeodata is based on studies from the northernhemisphere. Multiproxy analysis was performed on a peat core from Lydenburg, north-eastern Mpumalanga, covering the last 1.600 years. Proxy focus was put on fossil grassphytoliths. A general drying trend can be noted from AD 400 to 1000, followed by moremesic conditions around AD 1200. The increasingly mesic conditions were interrupted by asignificantly drier period between c. AD 1250 to 1350. This part of the Lydenburg sequenceoccurs in the end of a climate event termed “Medieval warm period” (MWP), suggested tohave been warmer and variable but mostly wetter in southern Africa. The results are in lineregarding the increased temperature and suggested variability. However, in contrast withearlier findings, significantly drier conditions seem to have prevailed at the Lydenburg fenat the end of “MWP” as interpreted by multiple proxies. Following AD 1400 increasinglymesic conditions was recorded as interpreted by several of the analysed proxies. Morepalaeoenvironmental studies needs to be performed in the area in order to elaborate on thedriving factors of palaeoenvironmental change in the region, as well as to establish if thesignals from the Lydenburg fen record local or regional changes. The results support earlierphytolith studies suggesting that small rondels should be excluded from phytolithassemblages in tropical and sub-tropical areas in Africa. / People, Land, and Time in Africa (PLATINA) / Bokoni project. This MA thesis is part of a transdisciplinary project involving scholars from Sweden and South Africa aiming to understand traces of pre-colonial terraces found in north-easter Mpumalanga, South Africa.
4

Different generation of controlled moraines in the glacier foreland of Midtdalsbreen, Norway / Tvärställt styrda moränslätter alldeles invid Midtdalsbreen glaciär, Norge

Allègre, Xavier January 2018 (has links)
A series of small mounds (&lt; 3m) were sampled in the foreland of Midtdalsbreen outlet glacier, southern Norway. These landforms were interesting, especially at site number 1 because they were located very close to a higher Little Ice Age (LIA) moraine (&gt; 5 m), thereby informing the dynamic of the glacier after the LIA at this location. It was yet to determine if these specific mounds are controlled moraines. If they are controlled moraines, then this would have implication for the glacier dynamics and the geometry of the snout after the LIA. It could be determined, based on the landform record evidence, whether the ice at the snout of Midtdalsbreen was thin and cold shortly after the LIA. Furthermore, whether the landscape was deglaciated by downwasting and then by backwasting was the main question addressed in relation to the nature of the mound and the thickness of ice at the snout during and after the LIA. In order to better understand the nature of the landform record and the mounds near the LIA moraine, satellite imagery coupled with careful field investigations were used in the foreland of the Midtdalsbreen outlet glacier. A geomorphological map was produced, and it was useful to put the mounds in a geographical context. Further sedimentological investigation; including clast-shape analyze, produced more evidence about the inner nature of these landforms. Both few controlled moraines and other landforms throughout the glacier foreland indicate that the ice geometry for Midtdalsbreen, shortly after the LIA was such that the snout of the glacier was a thin sheet of ice flowing against the previously deposited LIA moraine. The sedimentology of the controlled moraine is such that the sediments are deposited in steeply dipping layers, and they could even be misinterpreted as permafrost terrains at first glimpse. However, other sedimentological evidences such as the presence of sorted sand and sometimes dipping beds of gravels in addition to the geomorphological mapping make it meaningful to interpret few of the mounds as controlled moraines. A modern analogue to these controlled moraines is dirt cones present on top of the glacier snout as well as controlled moraines a few hundred of meter from the snout. Observations both on the glacier snout and on the foreland involve that dirt-cones later evolve into these sedimentological hummocky units with steeply dipping layers within the paleo-landscape. These observations constrain the thickness of ice at the snout of Midtdalsbreen after the LIA as well as the glacier dynamic during its melt: for controlled moraines to be generated by glaciers, these accumulations of sediments would have to thaw by downwasting and then by backwasting, directly at the glacier snout. This process -comprising of different stages- allows enough time to deposit controlled moraine. It is then a thin, cold-based sheet of ice which is by the end responsible for the deposition of such a landform record. There was even dead-ice present on the landscape at that point. After deposition of dirt cones on top of the ice, important meltwater action is contributing to the glacifluvial origin of these hummocks which evolve from dirt-cones onto the glacier, to ice-cored moraines, and then to controlled moraines onto the foreland. Details about the multistage processes leading to the formation of controlled moraines is also at the center of the investigations. / <p>Updated version, september 2019.</p>
5

Géoarchéologie du delta du Tibre : Evolution géomorphologique holocène et contraintes hydrosédimentaires dans le système Ostie– Portus / Geoarchaeology of the Tiber delta : Holocene geomorphological evolution and hydrosedimentary pressure on the Ostia - Portus system

Salomon, Ferréol 24 June 2013 (has links)
Ostie et Portus sont deux villes portuaires emblématiques de la façade littorale de la Rome antique. Construites au contact du Tibre et de la mer Tyrrhénienne, elles se situent dans des milieux géomorphologiquement très instables (mobilité du fleuve et du trait de côte). Nous nous proposons dans cette étude de reconstituer les dynamiques hydrosédimentaires du Tibre deltaïque à l’époque romaine (principalement aux Ier s. av. – Ier s. ap. J.-C.) et d’en identifier les conséquences sur le système Ostie-Portus. Pour mener à bien ce travail, nous nous appuyons sur des données sédimentaires issues de carottages réalisés dans le paléoméandre d’Ostie et les canaux de Portus. Ces résultats sont ensuite confrontés aux données archéologiques et historiques. Le croisement des données sédimentaires, archéologiques et textuelles permet d’envisager une crise hydrosédimentaire d’origine anthropoclimatique dans le bassin versant du Tibre s’étalant de la seconde partie du Ier s. av. J.-C. au début du Ier s. ap. J.-C. A Ostie, cette crise s’exprime par : (1) une accumulation de sédiments à l’embouchure du Tibre qui conduit au comblement du port fluvial d’Ostie ; (2) plusieurs inondations importantes (parfois torrentielles – cf. Rome) ; et (3) peut-être une hausse des niveaux phréatiques. A cela s’ajoute, avant ou pendant cette crise, une forte variabilité latérale de l’embouchure et du paléoméandre d’Ostie, qui a pu affecter le développement d’Ostie. Contraint par une forte pression démographique à Rome et par le contexte socio-économique, Claude fonde Portus au milieu du Ier s. ap. J.-C. Cette ville portuaire maritime est conçue dans l’idée de pallier les insuffisances du port d’Ostie : (1) les capacités d’accueil du port sont considérablement accrues (bassin de 200 ha) ; (2) le site d’implantation est choisi 3 km au nord de l’embouchure du Tibre pour échapper aux contraintes hydrosédimentaires qui se posaient à Ostie. Pour des raisons logistiques (transport des marchandises vers Rome), la planification de Portus est accompagnée d’un système de canaux relié au Tibre. Les ingénieurs romains prennent cependant soin de dissocier le système des canaux de celui des bassins portuaires (gestion de la charge solide) et certains de ces canaux sont envisagés comme évacuateurs de crue (gestion des inondations). Les études sédimentaires menées permettent de décrire les modalités de fonctionnement et de comblement de certains de ces canaux (Canale Traverso, Canale Romano). Ce travail est complété par une réflexion méthodologique sur le diagramme de Passega et une modélisation de l’évolution holocène de la partie nord du delta du Tibre à partir de l’analyse de carottes. / Ostia and Portus are two important harbour cities located on theThyrrenian coast, near the ancient Rome. This location corresponds to a fastly changing landscape (river and coastline mobility). The aim of this study is to reconstruct the Tiber hydrosedimentary dynamics in its delta plain during Ancient times (mainly in the 1st c. BC - 1st c. AD) and to identify their impact on the system Ostia-Portus. To complete this work, we analyse sedimentary cores drilled in the palaeomeander of Ostia and the canals of Portus. These results are compared to the archaeological and historical data. Crossing sedimentary, archaeological and textual data allows to consider hydrosedimentary anthropoclimatic crisis in the Tiber River watershed, during the period between the second part of the Ist century BC and the beginning of the Ist century AD. This crisis is expressed in Ostia, by: (1) a sediment accumulation at the mouth of the Tiber River, leading to the filling of the river mouth harbour of Ostia; (2) several major floods (at Rome - sometimes torrential floods); and (3) perhaps an increase of the groundwater levels. During this hydrosedimentological crisis or before, a strong lateral mobility of the Tiber mouth and the palaeomeander of Ostia probably affect the development of the city. Obliged by a strong demographic pressure in Rome and by the socio-economical context, Claude built Portus in the middle of the 1st century AD. Portus is planned with the idea to overcome the shortcomings of Ostia’s harbour: (1) by an increased harbour basin area (200 ha), and (2) by its establishment, 3 km north of the Tiber mouth, to avoid the main hydrosedimentary constraints. For logistical reasons (goods transport to Rome), Portus includes a fluvial canal system, connected to the Tiber River. However, Roman engineers take care to separate the canal system and the harbour basins (sediment load) and some of these canals are considered floodways (flood management). Sedimentary analysis characterise the canal functioning and filling (Canale Traverso, Canale Romano). This work is complemented by a methodological reflection on the Passega diagram and by a modeling of the Holocene evolution of the Tiber delta’s northern part , based onthe analysis of core samples.

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