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Stable Amorphous Calcium Carbonate: Crystallization Behaviour and Stable IsotopesAllan, Katherine January 2022 (has links)
Abstract
Amorphous Calcium Carbonate (ACC) is a naturally occurring amorphous form of the widely distributed mineral calcium carbonate (CaCO3). ACC has been found increasingly as a precursor phase, calcium storage site, or strengthening structural phase in a wide array of different biomineralizing organisms. An accurate understanding of the widely used classic carbonate-water paleothermometry relies on formation of CaCO3 minerals and associated oxygen isotope effects. Moreover, ACC has oft been pointed to as a possible reason for non-equilibrium isotope effects, also called vital effects, in biogenic carbonates. It is, therefore, vital to understand whether ACC can reach equilibrium with its surrounding solution, as well as the role of ACC precursors in the isotopic composition and evolution of the final crystalline phase they transform into. This study is designed to answer these questions through the precipitation of stable ACC by two methods, the alkaline method (AM) which utilizes high pH to precipitate ACC, and the silica method (SM) which envelopes precipitating ACC particles in silica vesicles to prevent crystallization. These differently precipitated ACCs are then subjected to several different experimental treatments. This is achieved by monitoring the crystallization by X-ray Diffraction (XRD), and isotopic evolution of the ACC precipitates by Isotope Ratio Mass Spectrometry (IRMS) as they age and concurrently crystallize in parent solution, or in 18O enriched re-equilibration solution.
This research indicated a marked difference in the crystallization behaviour, isotopic composition, and isotopic evolution of ACC produced by these two precipitation methods. With the AM method, ACC precipitates (AM-ACC) crystallized more predictably to calcite and maintained δ18O signatures that were slightly lower than the equilibrium CO32- and resisted further isotopic exchange with surrounding solution. We propose that the former is mostly due to an incomplete DIC-water oxygen isotope equilibrium prior to the AM-ACC precipitation and the latter is a result of the high pH of the precipitating solution decreasing the solubility of the precipitated ACC phase, disallowing isotope exchange, and favouring crystallization by solid-state transformation. Conversely, while ACC precipitated using the SM (SM-ACC) yielded much more variable results, both in terms of mineralogical identity upon crystallization, and δ18O values. Isotopic results were much closer to the expected equilibrium δ18O value for calcite, hinting at an expedited oxygen isotope exchange between SM-ACC and parent solution. Furthermore, SM-ACC was capable of isotopic exchange with the 18O enriched re-equilibration solution, a feat corresponding AM-ACC was incapable of. Overall, our experimental results gleaned here that precipitation method or precipitation environment play a critical role in the isotopic evolution of precursor ACC to crystalline CaCO3, suggesting ACC as an important source of the vital effect. / Thesis / Master of Science (MSc)
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Paleocoastal Resource Use and Human Sedentism in Island Environments: A Case Study from California's Northern Channel IslandsJew, Nicholas 03 October 2013 (has links)
The peopling of the Americas, including the possibility that maritime peoples followed a coastal route from Northeast Asia into the New World, is a topic of major interest in archaeology. Paleocoastal sites on California`s Northern Channel Islands (NCI), dating between ~13,000 and 8000 years ago, may support this coastal migration theory. Until recently, however, we knew little about Paleocoastal technologies, settlement, and lifeways on the islands. Combining traditional archaeological approaches with experimental and archaeometric techniques, I examine Paleocoastal settlement and resource use on San Miguel and Santa Rosa islands.
Recently discovered Paleocoastal sites have produced sophisticated chipped stone technologies, with bifacially-flaked points and crescents of extraordinary craftsmanship. Exploring lithic raw material procurement strategies, I demonstrate a Paleocoastal preference for island cherts from sources centered on western Santarosae. Using experimental and archaeometric techniques, I show that Paleocoastal peoples systematically employed heat-treatment to manufacture finely crafted bifaces from island cherts.
Using stable oxygen isotope (δ18O) analyses of marine shells from Paleocoastal sites, I examine paleo-sea surface temperatures, seasonality of shellfish collecting, and human sedentism. Evaluating whether such occupations were seasonal or year-round, I tested different sampling strategies for California mussel shells, showing that a method used by many California archaeologists provides erroneous seasonality interpretations for ~35 percent of sampled shells. Using a more intensive sampling strategy, I demonstrate that some Paleocoastal sites were used seasonally, but three substantial middens dating to 8200, 9000, and 10,000 cal BP produced evidence for shell harvesting during all four seasons. This suggests that the NCI were occupied more or less permanently and year-round by at least 10,000 years ago.
My research suggests that Paleocoastal peoples had a strong commitment to maritime and island lifeways starting at least 12,000 years ago. From that time until ~8000 years ago, Paleocoastal peoples relied primarily on island resources despite their close proximity to the mainland. The presence of a relatively large, permanent, and distinctive Paleocoastal population on the NCI may also support the coastal migration theory and an even deeper antiquity of human settlement and sedentism on the NCI.
This dissertation includes previously published and unpublished co-authored material.
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Examination of stable oxygen isotope as a tree ring proxy of tropical ring-less trees / 年輪を持たない熱帯樹木の年輪代替物としての酸素安定同位体の検討Nakai, Wataru 23 May 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21971号 / 農博第2361号 / 新制||農||1071(附属図書館) / 学位論文||R1||N5222(農学部図書室) / 京都大学大学院農学研究科森林科学専攻 / (主査)教授 大澤 晃, 教授 髙部 圭司, 教授 小杉 緑子 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
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Advances in the reconstruction of temperature history, physiology and paleoenvironmental change : evidence from light stable isotope chemistryWurster, Christopher Martin 04 August 2005
<p>The rationale of this study is to apply light stable isotope chemistry towards investigations that require temporally high-resolution data. High-resolution (or high sampling frequency) data sets, are critical for testing environmental and/or paleoenvironmental hypotheses that seek to explain processes occurring over rapid or short time intervals. The investigation of climate variation (e.g., seasonality, El Niño, deglaciation), animal migration and physiology, and disturbance ecology (e.g., fire, flooding) benefits from the recovery of proxy information at decadal to subannual resolutions. The type of material used also dictates a spatial scale. Herein are presented four studies that utilize high-resolution light stable isotope profiles with contrasting temporal and spatial scales.
The first study employs advances in three-dimensional computer-controlled micromilling to recover ~daily to weekly deposited carbonate from small (~1 cm) mollusc shells. Stable oxygen isotope values from freshwater mollusc shells are predictably related to the local environment of growth using previously published temperature-fractionation relationships, providing a paleoclimate record of temperature and precipitation. The second study investigates variation in stable carbon isotope values from Aplodinotus grunniens otoliths, for which high-resolution patterns were critical in assessing metabolic rate as the governing control. The third study employs high-resolution stable oxygen and carbon isotope values to determine chinook salmon (Oncorhynchus tshawytscha) seasonal and ontogenetic migration in Lake Ontario and its tributaries. Lastly, high-resolution stable hydrogen and carbon isotope values of chitin derived from Mexican free-tailed bat (Tadarida brasiliensis) guano are presented, providing a record of abrupt climate change. Thus, this thesis reports on promising new research avenues for paleoclimatology, paleoecology, and modern ecology.
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Advances in the reconstruction of temperature history, physiology and paleoenvironmental change : evidence from light stable isotope chemistryWurster, Christopher Martin 04 August 2005 (has links)
<p>The rationale of this study is to apply light stable isotope chemistry towards investigations that require temporally high-resolution data. High-resolution (or high sampling frequency) data sets, are critical for testing environmental and/or paleoenvironmental hypotheses that seek to explain processes occurring over rapid or short time intervals. The investigation of climate variation (e.g., seasonality, El Niño, deglaciation), animal migration and physiology, and disturbance ecology (e.g., fire, flooding) benefits from the recovery of proxy information at decadal to subannual resolutions. The type of material used also dictates a spatial scale. Herein are presented four studies that utilize high-resolution light stable isotope profiles with contrasting temporal and spatial scales.
The first study employs advances in three-dimensional computer-controlled micromilling to recover ~daily to weekly deposited carbonate from small (~1 cm) mollusc shells. Stable oxygen isotope values from freshwater mollusc shells are predictably related to the local environment of growth using previously published temperature-fractionation relationships, providing a paleoclimate record of temperature and precipitation. The second study investigates variation in stable carbon isotope values from Aplodinotus grunniens otoliths, for which high-resolution patterns were critical in assessing metabolic rate as the governing control. The third study employs high-resolution stable oxygen and carbon isotope values to determine chinook salmon (Oncorhynchus tshawytscha) seasonal and ontogenetic migration in Lake Ontario and its tributaries. Lastly, high-resolution stable hydrogen and carbon isotope values of chitin derived from Mexican free-tailed bat (Tadarida brasiliensis) guano are presented, providing a record of abrupt climate change. Thus, this thesis reports on promising new research avenues for paleoclimatology, paleoecology, and modern ecology.
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Characterization and climate reconstruction of the Ekblaw site, Quttinirpaaq NationalPark, CanadaGrant, George W. January 2019 (has links)
No description available.
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Neolithic agricultural management in the Eastern Mediterranean : new insight from a multi-isotope approachVaiglova, Petra January 2016 (has links)
The work presented in this dissertation explores the nature of agro-pastoral strategies developed by Neolithic farmers as a way to understand how early food production was inter-twined with environmental and socio-economic opportunities and constraints. Towards this end, a multi-isotope approach is used to address questions of scale and intensity of crop cultivation and animal management at the archaeological sites of Kouphovouno, southern Greece, Makriyalos, northern Greece, and Çatalhöyük, south-central Turkey. Measurements of stable carbon, nitrogen, oxygen and strontium isotope values of carbonized plant remains, human and animal bone collagen and animal tooth enamel are used to examine the similarities and differences in the types of treatments that individual species of plants and animals received during the agricultural cycle at the distinct locations. The results show that farmers at the three sites developed variable methods for exploiting the arable and pastoral landscape and catering to their economic and culinary needs. The discussion considers the implications of these findings to our understanding of the complexity and adaptability of early farming systems.
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Climate change, water stress and agriculture in the Indus Civilisation, 3000-1500 BCJones, Penelope Jean January 2018 (has links)
This thesis investigates the relationship between climate, agriculture and social change in South Asia’s Bronze Age urban Indus Civilisation. Specifically, my research tests the hypothesis that an abrupt weakening of the Indian Summer Monsoon ca 2100 cal BC led to increasing crop water stress, and hence potentially contributed to the Civilisation’s decline by reducing food supply. This hypothesis is frequently invoked in discussions of the Civilisation’s end, yet until now, has not been empirically tested. Using material excavated from several Indus settlements, this study uses a novel combination of isotopic techniques to directly test the connection between climate change and agricultural stress. These techniques are first, oxygen isotope analysis of faunal bones and teeth; and second, stable carbon isotope analysis of crop remains. The oxygen analyses provide detailed records of monsoon intensity at a local, human scale, while the carbon analyses provide an empirical test of whether crop water stress increased. Applied in parallel across a diverse suite of Indus sites, these techniques together provide an archaeologically and ecologically-nuanced analysis of climatic impacts. The archaeological analyses are supported by a methodological study, which investigates how water status relates to the stable carbon isotope signature in barley (Hordeum vulgare) and the Indian jujube (Ziziphus mauritiana) along a climatic transect in north-western India today. Overall, the isotopic results suggest that at the sites sampled here, climate change probably had minimal impacts on crop water availability. This does not necessarily mean that climate change had no impacts on agriculture across the greater Indus sphere, and indeed there are hints that there may have been climatic stress in more vulnerable settings. However, at the sites studied here, any hydrological consequences of climate change—including the 4.2 ka event—appear to have had neither a lasting nor a pervasive impact on the adequacy of crop water supply. This is an important finding, and necessitates a clear refinement of how we think about climatic sensitivity, climatic vulnerability, and climatic impacts across—and indeed beyond—the greater Indus.
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Modélisation de l'impact de l'évolution tectonique himalayennes et tibétaines sur le climat et les isotopes stable de l'oxygène au Cénozoïque / Modeling the response of climate and precipitation stable oxygen isotopes to the Cenozoic tectonic evolution of the Himalayas and the Tibetan PlateauBotsyun, Svetlana 01 March 2017 (has links)
La vitesse de surrection du l’Himalaya et du plateau tibétain tout au long du Cénozoïque reste encore aujourd’hui largement débattue. L’analyse des isotopes stables de l’oxygène pour reconstruire les paléo-altitudes est considérée comme une technique très efficace et a été largement utilisée. Néanmoins, cette méthode a deux limites principales: 1) les relations entre δ18O et climat ne sont pas bien établies et 2) le climat Cénozoïque en Asie est mal contraint. Dans le cadre de cette thèse, nous avons étudié le lien entre la surrection des montagnes, les changements climatiques associés et le δ18O dans la paléo-précipitation. Nous utilisons le modèle de circulation générale atmosphérique isotopique LMDZ-iso. Nos simulations climatiques montrent que le retrait de la Paratéthys, le déplacement latitudinal de l’Inde et l’altitude du plateau tibétain contrôlent les précipitations et la variabilité de la mousson en Asie. Afin de comprendre où et comment ces changements climatiques liés à la surrection des montagnes affectent le δ18O, nous avons proposé une expression théorique de la composition isotopique des précipitations fondée sur la distillation de Rayleigh. Nous avons montré que seulement 40 % des sites échantillonnés de l’Himalaya et du plateau tibétain contiennent une signature isotopique représentant la topographie. Les résultats obtenus dans cette étude montrent que l’Himalaya pourrait avoir atteint son altitude actuelle plus tardivement que précédemment proposé. Des conditions aux limites réalistes nous permettent de reconstruire le δ18O des paléo-précipitations pour quatre époques du Cénozoïque (55, 42, 30 et 15 Ma). Dans la mesure où les reconstructions des paléo-altitudes sont particulièrement controversées pour les premières étapes de l’évolution du plateau tibétain, nous avons ensuite approfondi notre étude en nous focalisant sur l’Eocène (en utilisant une paléogéographie qui correspond à 42 Ma). Pour ce cas, nous montrons que le δ18O des précipitations est insensible à l’altitude en Asie, tandis que le δ18O dans les archives naturelles (carbonates) enregistre le signal de la paléo-élévation puisque le fractionnement entre la calcite et l’eau est sensible à la température, qui elle-même dépend en partie de l’altitude. La comparaison du δ18O simulé pour l’Eocène avec les données du δ18O mesuré dans les carbonates suggère que, pendant l’Eocène, l’Himalaya et le plateau tibétain n’avaient pas encore atteint leur élévation actuelle (> 3000 m). / The timing and rate of surface elevations of the Himalayas and the Tibetan Plateau remain controversial and their impact on Asian climate and the onset of monsoon systems in this area is highly debated. Stable oxygen paleoaltimetry is considered to be a very efficient and widely applied technique, but has limitations from two sides: 1) the link between stable oxygen composition of precipitation and climate is not well established, 2) Cenozoic climate over Asia is poorly reconstructed. With a purpose of filling the gap in our knowledge of climate variability over Asia during the Cenozoic, we use the isotope-enabled atmospheric general circulation model LMDZ-iso to understand the links between the growth of mountains, associated climate changes and δ18O in paleo-precipitation. Our results show a significant influence of the Paratethys retreat, the latitudinal displacement of India and the height of the Tibetan Plateau on Asian hydrological cycle. For the purpose of understanding where and how the climatic changes linked with the growth of mountains affect δ18O in precipitation, we develop a theoretical expression for the precipitation composition based on the Rayleigh distillation and show that only 40% of sampled sites for paleoaltimetry depict signal attributed to topography changes. We conclude that the Himalayas may have attained their current elevation later than expected. Realistic Cenozoic boundary conditions allow us reconstructing δ18O in paleoprecipitation for several periods during the Cenozoic (for 55 Ma, 42 Ma, 30 Ma and 15 Ma). The focus has been put on the Eocene (42 Ma), since paleoelevation reconstructions are particularly controversial for this time. We show that Eocene precipitation δ18O is rather insensitive to topographic height in Asia. However, carbonate δ18O still records paleo-elevation because the fractionation between calcite and water is sensitive to temperature, which partly depends on altitude. Comparison of simulated Eocene δ18O patterns with data from the carbonate archives suggest that the Himalayas and the Tibetan Plateau did not reach present-day (> 3000 m) elevations during the Eocene.
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Determining the biological turnover rate of phosphate in agricultural soils using stable oxygen isotopesDuffy, Margaret R. 10 August 2020 (has links)
No description available.
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