Global ETD Search

131	Identifying cohorts using isotope mass spectrometry: the potential of temporal resolution and dietary profiles Beaumont, Julia, Bekvalac, J., Harris, Sam, Batt, Catherine M. 14 February 2021 (has links) Yes / Archaeological skeletal material from most sites represents a cross-sectional, opportunistic sample of the burials. These are influenced by the proportion and area of the site which is excavated, the taphonomic conditions and survival of tissues. This may not be representative of the population, and in an attritional cemetery may represent a long period of use, during which humans will have differing life-courses. Here we describe a commingled skeletal assemblage, the only human remains recovered from the historically significant medieval site of St Stephen’s Chapel, Palace of Westminster, London. Using carbon (δ13C) and nitrogen (δ15N) stable isotope ratios of bulk bone collagen and incremental dentine to investigate dietary life histories from 5 individuals, we combine the evidence with radiocarbon dating to assign them to two different temporal cohorts. Lifeways Cohort Commingled remains Radiocarbon dating
132	Sediment reservoir dynamics on steepland valley floors : influence of network structure and effects of inherited ages Frueh, Walter Terry 05 December 2011 (has links) Sediment deposit ages inferred from radiocarbon dating of stream bank material were used to estimate residence times of valley-floor deposits in headwater valleys of the Oregon Coast Range, USA. Inherited ages of radiocarbon-dated material, i.e., time between carbon fixation in wood and its incorporation in a sediment deposit, can result in over-estimation of the ages of those deposits and, hence, the residence times of sediment within those units. Calibrated radiocarbon dates of 126 charcoal pieces sampled from Knowles Creek were used to estimate the distribution of inherited ages in fourteen depositional units representing three deposit types: fluvial fines, fluvial gravels, and debris flows. Within a depositional unit, the inherited age distribution of a piece of charcoal was estimated by convolving its calibrated age distribution with that of the piece of charcoal with the smallest weighted-mean calibrated age (i.e., an approximation of a unit's date of deposition) within that unit. All inherited age distributions for a particular deposit type were then added and normalized to provide a probability distribution of inherited ages for that deposit type. Probability distributions of inherited ages average 688, 1506, and 666 yr for fluvial fines, fluvial gravels, and debris flow units, respectively. Curves were fit to inherited age distributions for each deposit type. These curve fits were then convolved with deposit age distributions (i.e., equal to calibrated age distributions of woody material sampled from stream banks) of samples from Bear Creek (Lancaster and Casebeer, 2007) to correct these deposit ages for inherited age. This convolution gives a corrected deposit age. In cases in which means of corrected deposit age distributions for an upper unit were older than those of a lower unit within a stratigraphic column, the upper sample’s corrected deposit age distribution was set to that of the youngest lower in the stratigraphic section. Convolution shifted individual deposit age distributions towards zero and increased their standard deviation by an average of 365%. However, convolution decreased the standard deviations of normalized probability distribution functions of deposit ages inferred from many samples from 1340 to 1197 yr, and from 471 to 416 yr for lower and upper reaches, respectively, of the Bear Creek valley in the Oregon Coast Range. Convolution decreased estimates of mean deposit ages from 1296 to 1051 yr, and from 308 to 245 yr for lower and upper reaches, respectively, of the Bear Creek. Estimates of percentages of basin denudation passing through each reach's deposit ("trapping efficiency") increased from 11.6% to 14.4%, and from 25.4% to 31.9% for lower and upper Bear Creek, respectively. However, basic shapes of residence time distributions and, thus, inferences regarding removal of sediment from the reaches did not change after deposit dates were corrected. Sediment residence times in the lower Bear Creek valley are exponentially distributed, which implies that all sediment has a uniform probability of evacuation from deposits, whereas the power-law-distributed residence times in upper Bear imply preferential evacuation of younger deposits and preservation of older deposits. Much of the sediment transported onto valley floors via debris flows is deposited, and then is evacuated over longer times. Volumes and residence times of stored sediment in these deposits at the transition from debris flow to fluvial evacuation, and their associated width of valley floors, vary throughout a network. Export volumes and frequencies from tributaries are controls on deposit volumes and may control valley widening of mainstem valley floors. In addition, closely spaced tributaries may exert composite effects on valley floor landforms. It is hypothesized that the volumes of sediment stored at confluences increases with contributing watershed area of tributaries to the point where tributary slopes are low enough to cause most debris flows to be deposited within tributary valleys instead of in the mainstem valley. In four ~1 km reaches with contributing watershed areas of 0.3 to 5.0 km², field surveys provided measures of width of valley floors and volume of deposits, and radiocarbon dating of charcoal provided residence times of sediment in these deposits. Mean residence times of reaches vary between 1.1 and 2.5 kyr. Exponential distributions fit to residence times within two of the reaches imply evacuation of sediment independent of deposit ages. Power-law fits to residence times of the other two reaches imply age-dependent evacuation of deposits. Distribution shapes of residence times, and their means, do not vary systematically with contributing watershed area of mainstems. Mean width of mainstem valley floors increases with contributing watershed areas of both mainstems and their respective tributaries. Volumes of sediment stored on the valley floor increase with contributing areas of mainstems, and these volumes at tributary junctions peaked at tributary contributing areas of ~0.1 km². Percentage of basin denudation entering storage decreases with contributing area of mainstem. This decrease may be due to increasing percentages of sediment supply via fluvial transport for larger watersheds, and much, if not most, of this supply routes through the system quickly. / Graduation date: 2012 Sediment charcoal radiocarbon residence time storage reservoir
133	The effects of climate change on fine root dynamics in a Norway spruce forest / Die Auswirkungen von Klimawandel auf Feinwurzeldynamik in einem Fichtenbestand Gaul, Dirk 01 August 2008 (has links) No description available. 580 Pflanzen (Botanik) Mathematics and Computer Science Bodenfrost Feinwurzeln Feinwurzeldynamik Minirhizotrone Radiocarbon Wurzelalter fine roots longevity minirhizotrons radiocarbon root dynamics sequential coring soil frost throughfall exclusion 42.44
134	Dissolved organic matter characterization in a large arctic river : origins and dynamic / Caractérisation des matières organiques dissoutes d’un fleuve arctique : origines et dynamique Le Dantec, Théo Aurélien 02 February 2018 (has links) Les projections concernant les changements climatiques dans les régions arctiques annoncent une augmentation disproportionnée des températures de surface pouvant influencer le cycle hydrologique et la fonte des pergélisols. Les hautes latitudes sont donc perçu comme des environnements potentiellement très sensibles aux modifications du climat. Ces modifications ont la capacité d’impacter les cycles biogéochimiques, en particulier la mobilisation du carbone vers les milieux aquatiques de la zone arctique. Dans les rivières arctiques, la période la plus importante du cycle hydrologique est la crue de printemps qui peut réaliser la majeure partie des transferts annuels de carbone organique vers l’océan dans un lapse de temps très court. L’objectif de cette thèse vise à suivre la dynamique des MOD en termes de quantité et de qualité au cours du cycle hydrologique du fleuve Ienisei, grâce à diverses techniques de caractérisation des MOD permettant de mettre en évidence les variations saisonniéres de leur composition, sources, âge et état de dégradation. La première étape a été d’examiner la large gamme de techniques de caractérisation des MOD dans les rivières du monde afin d’identifier les plus répendues,pértinentes et fiables. Grâce au développement d’une base de données des mesures des qualités des MOD, nous avons pu évaluer la couverture géographique des études de caractérisation des MOD, donner des estimations et gamme de valeurs des principales variables de caractérisation des MOD et observer des tendances générales des qualités des MOD selon un gradient latitudinal. La seconde étape a porté sur l’étude de la dynamique du COD dans le fleuve Ienisei concernant les variations de concentrations et les liens avec la chimie de l’eau et l’hydrologie. Nous avons mené des campagnes d’échantillonnage durant trois années consécutives (2014 à 2016), en couvrant avec une haute fréquence de prélèvement la période de la crue de printemps afin d’en capturer la dynamique rapide. Nous avons observé des concentrations en COD qui suivent l’hydrogramme avec les concentrations maximales mesurées quelques jours avant le pic de crue. Le COD a aussi répondu aux variations de débit (augmentation, probablement liée à des précipitations plus intenses du début d’automne. Nous avons enregistré un flux de COD moyen, durant les trois années de prélèvement, d’environ 4,53 Tg yr-1, ce qui est dans l’ordre de grandeur rapporté dans la littérature. Nous avons également observe ue variabilité interannuelle relativement importante avec les estimations d’exports annuels variant de 5,45 Tg yr-1 en 2014 à 3,57 Tg yr-1 en 2016, certainement influence par l’amplitude de débit. Nous avons confirmé le rôle prédominant de la crue de printemps dans les exports de COD avec en moyenne plus de 65% des exportations ayant lieu Durant cette période (approximatvement mai/juin). Le troisième point a consisté en l’étude de la qualité des MOD présentent dans les eaux du Ienisei et de son évolution durant le cycle hydrologique en combinant différentes outils de caractérisation. Associer les modes de caractérisation aide à renforcer les observations et à valider les interprétations. La plus part des variables mesurées avec les différentes techniques se sont confirmées les unes les autres. L’utilisation des biomarqueurs de la lignine, des propriétés optiques et de la datation 14C ont permis de tracer les sources prédominantes des MOD comme étant principalement dérivées de matières organiques récemment produites lixiviée depuis les litières forestières boréales et des horizons supèrieures pendant la crue de printemps et de matières organiques plus anciennes provenant des horizons plus profonds durant la période des basses eaux. / Arctic regions are expected to be highly sensitive to climate change regarding the prediction of disproportionately large increases in surface temperatures and their related influence over the hydrological cycle and permafrost thaw. These modifications have the potential to impact biogeochemical cycles in these regions and in particular the mobilization of organic carbon into rivers. The most crucial period in arctic rivers hydrological cycle is the spring freshet that can account for most of the annual organic carbon transfers to the ocean in a very short window of time. The focus of this thesis was to monitor the dynamic of DOM in terms of quantity and quality along the hydrological cycle of the Yenisei river, through DOM characterization approaches to reveal seasonal variations in its composition, sources, age and degradation state. The first step was to make a review of the full range of existing DOM characterization approaches in worldwide river systems to identify the most widely used, the most relevant and reliable ones. Through the development of a DOM quality measurements database, we have been able to evaluate the geographical coverage of DOM characterization studies, to give estimates and ranges of values of the main reported DOM characterization variables and to observe global trends of DOM quality across latitudinal gradient. Second stage was to investigate DOC dynamic in the Yenisei river with regard to quantity and links with water chemistry and hydrology. We conducted sampling campaigns during three consecutive years (2014 to 2016), covering with a high sampling frequency the spring flood period to capture its very dynamic evolution. We reported DOC concentrations that followed the hydrograph with highest concentrations observed a few days before peak discharge. DOC concentration also responded to discharge variation (increase, likely due to higher precipitation) in early autumn. We reported average DOC flux over the three sampling years of about 4.53 Tg yr-1 which is within the range of values reported in the literature. We observed interannual variability with annual export estimates ranging from 5.45 Tg yr-1 in 2014 to 3.57 Tg yr-1 in 2016, likely driven by discharge amplitude. We confirmed the important role of spring freshet in DOC export with on average more than 65% occurring during this period (roughly May/June). Third point was to determine DOM quality combining characterization techniques. Combination of approaches helped to strengthen observations and cross validate interpretations. Most of the variables reported from the different characterization techniques confirmed one each other. The use of lignin biomarkers, optical properties and radiocarbon age of DOM allowed us to trace DOM main sources has primarily deriving from recently produced organic matter leached from boreal forest litter and top soil horizon during the spring flood and older organic matter derived from deeper soil horizons during low flow period. Matières organiques dissoutes Carbone organique dissous Rivières arctiques Ienisei Sibérie Caractérisation Lignine Absorbance Fluorescence Radiocarbon Flux Dissolved organic matter Dissolved organic carbon Arctic rivers Yenisei Characterization Lignin Absorbance Fluorescence Radiocarbon Flux
135	Norm and difference : Stone Age dietary practice in the Baltic region Eriksson, Gunilla January 2003 (has links) <p>Stone Age research on Northern Europe frequently makes gross generalizations about the Mesolithic and Neolithic, although we still lack much basic knowledge on how the people lived. The transition from the Mesolithic to the Neolithic in Europe has been described as a radical shift from an economy dominated by marine resources to one solely dependent on farming. Both the occurrence and the geographical extent of such a drastic shift can be questioned, however. It is therefore important to start out at a more detailed level of evidence in order to present the overall picture, and to account for the variability even in such regional or chronological overviews. Fifteen Stone Age sites were included in this study, ranging chronologically from the Early Mesolithic to the Middle or Late Neolithic, c. 8300–2500 BC, and stretching geographically from the westernmost coast of Sweden to the easternmost part of Latvia within the confines of latitudes 55–59° N. The most prominent sites in terms of the number of human and faunal samples analysed are Zvejnieki, Västerbjers and Skateholm I–II. Human and faunal skeletal remains were subjected to stable carbon and nitrogen isotope analysis to study diet and ecology at the sites. Stable isotope analyses of human remains provide quantitative information on the relative importance of various food sources, an important addition to the qualitative data supplied by certain artefacts and structures or by faunal or botanical remains. A vast number of new radiocarbon dates were also obtained.</p><p>In conclusion, a rich diversity in Stone Age dietary practice in the Baltic Region was demonstrated. Evidence ranging from the Early Mesolithic to the Late Neolithic show that neither chronology nor location alone can account for this variety, but that there are inevitably cultural factors as well. Food habits are culturally governed, and therefore we cannot automatically assume that people at similar sites will have the same diet. </p><p>Stable isotope studies are very important here, since they tell us what people actually consumed, not only what was available, or what one single meal contained. We should not be deceived in inferring diet from ritually deposited remains, since things that were mentally important were not always important in daily life. Thus, although a ritual and symbolic norm may emphasize certain food categories, these may in fact contribute very little to the diet. By the progress of analysis of intra-individual variation, new data on life history changes have been produced, revealing mobility patterns, breastfeeding behaviour and certain dietary transitions. The inclusion of faunal data has proved invaluable for understanding the stable isotope ecology of a site, and thereby improve the precision of the interpretations of human stable isotope data. The special case of dogs, though, demonstrates that these animals are not useful for inferring human diet, since, due to the number of roles they possess in human society, dogs could deviate significantly from humans in their diet, and in several cases have been proved to do so. </p><p>When evaluating radiocarbon data derived from human and animal remains from the Pitted-Ware site of Västerbjers on Gotland, the importance of establishing the stable isotope ecology of the site before making deductions on reservoir effects was further demonstrated. </p><p>The main aim of this thesis has been to demonstrate the variation and diversity in human practices, challenging the view of a “monolithic” Stone Age. By looking at individuals and not only at populations, the whole range of human behaviour has been accounted for, also revealing discrepancies between norm and practice, which are frequently visible both in the archaeological record and in present-day human behaviour. </p> diet norm variation Mesolithic Neolithic Sweden Latvia stable carbon and nitrogen isotopes radiocarbon reservoir effect dogs breastfeeding gender Archaeology subjects Arkeologiämnen
136	Early-Holocene to present palaeoenvironmental shifts and short climate events from the tropical wetland and lake sediments, Kukkal Lake, Southern India: Geochemistry and palynology Rajmanickam, Vijayaraj, Achyuthan, Hema, Eastoe, Christopher, Farooqui, Anjum 03 1900 (has links) The Kukkal basin, Tamil Nadu, India, receives most of its rain from the southwest monsoon (SWM). A sediment core from Kukkal Lake preserves a continuous sediment record from the early-Holocene to present (9000 yr BP to present). The present lake is situated at an elevation of similar to 1887m a.s.l., in a small basin that appears to have alternated between a and wetland depositional environment. Climate proxies, including sediment texture, total organic carbon (TOC), total nitrogen (TN), C/N, pollen and geochemical composition indicate a steady progression to wetter conditions, with two stepwise changes at about 8000, and between 3200 and 1800 yr BP. The change at 8000 yr BP appears to correspond to a brief (100-150years) dry spell recorded elsewhere in India. The change at 3200-1800 yr BP consisted in a rapid intensification of the SWM, and may correlate with the initiation of the Roman Warm Period'. There is no clear evidence of changes at the times of the Medieval Warm Period' (MWP') and the Little Ice Age' (LIA'). The C/N ratio of the sediments ranges from 14.02 to 8.31, indicating that the organic matter originated from a mixture of lacustrine algae, vascular and terrestrial plants. Chemical weathering indices (Chemical Index of Alteration (CIA), Chemical Index of Weathering (CIW), and Plagioclase Index of Alteration (PIA)) are consistent with extreme silicate weathering. Pollen data show a development from savanna vegetation prior to about 8000 yr BP, followed by grassland with palms, the appearance of ferns just prior to 3200 yr BP and the establishment of the tropical humid forest between 3200 and about 1800 yr BP. chemical indices of weathering climate change ferns Holocene India radiocarbon dating southwest monsoon Tamil Nadu tropical lake tropical wetland
137	Isotope-based source apportionment of black carbon aerosols in the Eurasian Arctic Winiger, Patrik January 2016 (has links) Aerosols change the Earth's energy balance. Black carbon (BC) aerosols are a product of incomplete combustion of fossil fuels and biomass burning and cause a net warming through aerosol radiation interactions (ari) and aerosol cloud interactions (aci). BC aerosols have potentially strong implications on the Arctic climate, yet the net global climate effect of BC is very uncertain. Best estimates assume a net warming effect, roughly half to that of CO2. However, the time scales during which CO2 emissions affect the global climate are on the order of hundreds of years, while BC is a short-lived climate pollutant (SLCP) with atmospheric life times of days to weeks. Climate models or atmospheric transport models struggle to emulate the seasonality and amplitude of BC concentrations in the Arctic, which are low in summer and high in winter/spring during the so called Arctic haze season. The high uncertainties regarding BC's climate impact are not only related to ari and aci, but also due to model parameterizations of BC lifetime and transport, and the highly uncertain estimates of global and regional BC emissions. Given the high uncertainties in technology-based emission inventories (EI), there is a need for an observation-based assessment of sources of BC in the atmosphere. We study short-term and long-term observations of elemental carbon (EC), the mass-based analog of optically-defined BC. EC aerosol concentrations and carbon-isotope-based (δ13C and ∆14C) sources were constrained (top-down) for three Arctic receptor sites in Abisko (northern Sweden), Tiksi (East Siberian Russia), and Zeppelin (on Svalbard, Norway). The radiocarbon (∆14C) signature allows to draw conclusion on the EC sources (fossil fuels vs. biomass burning) with high accuracy (<5% variation). Stable carbon isotopic fingerprints (δ13C) give qualitative information of the consumed fuel type, i.e. coal, C3-plants (wood), liquid fossil fuels (diesel) or gas flaring (methane and non-methane hydrocarbons). These fingerprints can be used in conjunction with Bayesian statistics, to estimate quantitative source contributions of the sources. Finally, our observations were compared to predictions from a state of the art atmospheric transport model (coupled to BC emissions), conducted by our collaborators at NILU (Norwegian Institute for Air Research). Observed BC concentrations showed a high seasonality throughout the year, with elevated concentrations in the winter, at all sites. The highest concentrations were measured on Svalbard during a short campaign (Jan-Mar 2009) focusing on BC pollution events. Long-term observations showed that Svalbard (2013) had overall the lowest annual BC concentrations, followed by Abisko (2012) and Tiksi (2013). Isotope constraints on BC combustion sources exhibited a high seasonality and big amplitude all across the Eurasian Arctic. Uniform seasonal trends were observed in all three year-round studies, showing fractions of biomass burning of 60-70% in summer and 10-40% in winter. Europe was the major source region (>80%) for BC emissions arriving at Abisko and the main sources were liquid fossil fuels and biomass burning (wood). The model agreed very well with the Abisko observations, showing good model skill and relatively well constrained sources in the European regions of the EI. However, for the Svalbard and East Siberian Arctic observatories the model-observation agreement was not as good. Here, Russia, Europe and China were the major contributors to the mostly liquid fossil and biomass burning BC emissions. This showed that the EI still needs to be improved, especially in regions where emissions are high but observations are scarce (low ratio of observations to emitted pollutant quantity). Strategies for BC mitigation in the (Eurasian) Arctic are probably most efficient, if fossil fuel (diesel) emissions are tackled during winter and spring periods, all across Eurasia. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 3: Manuscript.</p> Black Carbon Radiocarbon Air Pollution Arctic Amplification Climate Change Arctic Haze Atmospheric Transport Modeling Emission Inventory Carbon Isotopes
138	Reconstrução da vegetação e do clima em alta resolução no Holoceno na Ilha do Marajó, com o uso de indicadores biológicos e isotópicos / Reconstruction of vegetation and climate in high resolution at Holocene on Marajo Island, with biologic and isotopic indicators uses Francisquini, Mariah Izar 07 April 2011 (has links) Um estudo interdisciplinar, envolvendo análises de fácies, elementares e isotópicas de carbono e nitrogênio, palinologia e diatomáceas, teve como objetivo reconstruir a dinâmica da vegetação, na Ilha do Marajó, com inferências climáticas. Testemunhos sedimentares foram coletados em dois pontos diferentes na porção leste da Ilha, um no manguezal da Praia do Pesqueiro, outro no Lago São Luís, à ~35Km de distância a oeste e a ~8Km do litoral. Neste local, entre 7521 7433 anos cal AP e ~3.100 anos cal AP, a sedimentação é de argila maciça e laminação plano/paralela, com valores de C/N entre 45 e 15 e \'delta\'15N entre 1,34%o e 5,08%o, que indicam mistura de material orgânico terrestre e fitoplanctônico e a relação C/N e \'delta\'13C material com influência marinha. A concentração de Rhizophora chega a 94,4% do total dos grãos e as diatomáceas marinhas e salobras de Cyclotella striata, Cymatotheca weiisflogii e Paralia sulcata são as mais representativas. Todas essas informações indicam a presença de um manguezal onde atualmente se encontra o Lago São Luis. Entre ~3100 anos cal AP e o presente, as fácies de argila maciça, com os valores de C/N entre 18 e 24 e \'delta\'15N de 1,7 a 6,04%o, que indicam mistura de plantas terrestres com material de algas na matéria orgânica sedimentar, e os valores de \'delta\'13C de -22 a -25%o, que indicam mistura de plantas C3 (espécies arbóreas e herbáceas) e C4 (Poaceae), sugerem significativa mudança ambiental. A palinologia registra uma redução na concentração de Rhizophora e aumento das espécies florestais, como Fabaceae, Melastomataceae/Combretaceae e Myrtaceae e a presença das diatomáceas de água doce, de água doce que suportam condições salobras e de mangue, como Brachysira serians, Frustulia Krammeri, Eunotia sp e Surirella sp. Todas essas informações indicam a formação do lago e a modificação da vegetação no seu entorno, similar a atual. Na Praia do Pesqueiro, entre 1739 1567 e ~614 552 anos cal AP, as fácies de areia com estratificação plano/paralela indicam um ambiente de ante-praia. Valores de \'delta\'13C mais enriquecidos (-25 e -26%o), em relação ao período mais recente (parte superfícial do testemunho), sugerem influência marinha e os bioindicadores estiveram ausentes. De ~614 552 até ~180 160 anos cal AP, fácies de argila maciça indica a presença de uma laguna e valores de C/N de 23,8 e \'delta\'15N de 2,44%o a influência terrestre no material orgânico sedimentar. Palinomorfos de floresta e mangue estão presentes, com concentração de 8,6% e 88,2%, respectivamente, aspectos que sugerem a redução do nível relativo do mar (NRM) e expansão da vegetação de mangue e floresta, que ocupam a área de praia. A preservação de diatomáceas marinhas é registrada pela presença de Coscinodiscus. De ~180 160 anos cal AP até o presente, o manguezal se estabelece, como mostram as fácies de argila laminada e maciça, valores de \'delta\'13C mais empobrecidos (-29,34), C/N entre 18,31 e 24,25 e \'delta\'15N de 0,76 e 2,68%o, que indicam influência terrestre com mistura de matéria orgânica fitoplanctônica. A concentração de Rhizophora chega a 89,8% e as diatomáceas de ambiente salobro, como Cyclotella striata, a 85% do total, onde se infere a contínua redução do NRM / An interdisciplinary study involving facies, elementary and isotopic carbon and nitrogen, pollen and diatom analyses, had the objective to reconstruct the vegetation dynamics at Marajó Island, with climatic inferences. Sedimentary cores of up to 2,5meters were collected in two different points at the eastern part of the island, one in the mangrove at Praia do Pesqueiro, and other at São Luís lake, ~35 km far to the western part and ~8 km from the coast. In this place, between 7521 7433 years cal BP and ~3,100 years cal BP, the deposition of massive and laminated plan/parallel clay, with C/N between 45 and 15 and \'delta\'15N from 1.34 to 5.08%o, indicates a mixture of organic terrestrial material with phytoplankton, and the relation C/N and \'delta\'13C reveals the organic material with marine influence. The Rhizophora concentration is about 94.4% and marine and brackish most representative diatoms were Cyclotella striata, Cymatotheca weissflogii and Paralia sulcata. That batch of information indicates the mangrove presence in the site presently occupied by the Lake São Luís. From ~3100 years cal BP to the present, the massive clay structure and the C/N values between 18 and 24 and \'delta\'15N from 1.7 to 6.04%o that indicates a mixture of terrestrial plants and algae material from sedimentary organic matter and \'delta\'13C values from -22 to 25%o, that indicates a mixture of C3 plants (arboreal and herbs) and C4 (Poaceae), suggest significant environmental changes. The pollen record indicate a reduction of Rhizophora concentration and an increase of forest species, like Fabaceae, Melastomataceae/Combretaceae and Myrtaceae, and the presence of freshwater, freshwater that support brackish conditions and mangrove diatoms, like Brachysira serians, Frustulia Krammeri, Eunotia sp and Surirella sp. This set of information indicates the formation and the vegetation around the lake, similar to modern conditions. At Praia do Pesqueiro, between 1739 1567 and ~ 614 552 years cal BP, the plan/ parallel sand structures indicate a foreshore environment. More enriched \'delta\'13C values (between -25 and -26%o), in relation to the more recent period (shallow part of the core), suggests marine influence, and the bioindicators were absent. From ~614 552 until ~180 160 years cal BP, massive clay facies indicates the lagoon presence, and C/N of 23.8 and \'delta\'15N of 2.44%o values indicates terrestrial influence. Forest and mangrove pollen are present, with concentrations around 8.6 and 88.2%, respectively, suggesting the relative sea level (RSL) falling and the expansion of mangrove and forest vegetation to the beach area. The preserved marine diatom is recorded by the Coscinodiscus presence. From ~180 160 years cal BP to the present, the mangrove vegetation is indicated by the massive and laminated clay structures, more depleted \'delta\'13C values (-29.34 %), C/N around 18.31 and 24.25 and \'delta\'15N of 0.76 and 2.68%o, that indicates the high influence of terrestrial environment, with phytoplankton organic matter mixture. The pollen concentration of Rhizophora is about 89.8% and brackish diatoms, as Cyclotella striata, reaches 85%, which permit the inference of decreased marine influence due to the relative sea level fall Amazon Datação 14C Diatomáceas Diatoms Holocene Holoceno Amazônia Isótopos estáveis de C e N Pólen Pollen Radiocarbon dating Stable isotope of C and N
139	Norm and difference : Stone Age dietary practice in the Baltic region Eriksson, Gunilla January 2003 (has links) Stone Age research on Northern Europe frequently makes gross generalizations about the Mesolithic and Neolithic, although we still lack much basic knowledge on how the people lived. The transition from the Mesolithic to the Neolithic in Europe has been described as a radical shift from an economy dominated by marine resources to one solely dependent on farming. Both the occurrence and the geographical extent of such a drastic shift can be questioned, however. It is therefore important to start out at a more detailed level of evidence in order to present the overall picture, and to account for the variability even in such regional or chronological overviews. Fifteen Stone Age sites were included in this study, ranging chronologically from the Early Mesolithic to the Middle or Late Neolithic, c. 8300–2500 BC, and stretching geographically from the westernmost coast of Sweden to the easternmost part of Latvia within the confines of latitudes 55–59° N. The most prominent sites in terms of the number of human and faunal samples analysed are Zvejnieki, Västerbjers and Skateholm I–II. Human and faunal skeletal remains were subjected to stable carbon and nitrogen isotope analysis to study diet and ecology at the sites. Stable isotope analyses of human remains provide quantitative information on the relative importance of various food sources, an important addition to the qualitative data supplied by certain artefacts and structures or by faunal or botanical remains. A vast number of new radiocarbon dates were also obtained. In conclusion, a rich diversity in Stone Age dietary practice in the Baltic Region was demonstrated. Evidence ranging from the Early Mesolithic to the Late Neolithic show that neither chronology nor location alone can account for this variety, but that there are inevitably cultural factors as well. Food habits are culturally governed, and therefore we cannot automatically assume that people at similar sites will have the same diet. Stable isotope studies are very important here, since they tell us what people actually consumed, not only what was available, or what one single meal contained. We should not be deceived in inferring diet from ritually deposited remains, since things that were mentally important were not always important in daily life. Thus, although a ritual and symbolic norm may emphasize certain food categories, these may in fact contribute very little to the diet. By the progress of analysis of intra-individual variation, new data on life history changes have been produced, revealing mobility patterns, breastfeeding behaviour and certain dietary transitions. The inclusion of faunal data has proved invaluable for understanding the stable isotope ecology of a site, and thereby improve the precision of the interpretations of human stable isotope data. The special case of dogs, though, demonstrates that these animals are not useful for inferring human diet, since, due to the number of roles they possess in human society, dogs could deviate significantly from humans in their diet, and in several cases have been proved to do so. When evaluating radiocarbon data derived from human and animal remains from the Pitted-Ware site of Västerbjers on Gotland, the importance of establishing the stable isotope ecology of the site before making deductions on reservoir effects was further demonstrated. The main aim of this thesis has been to demonstrate the variation and diversity in human practices, challenging the view of a “monolithic” Stone Age. By looking at individuals and not only at populations, the whole range of human behaviour has been accounted for, also revealing discrepancies between norm and practice, which are frequently visible both in the archaeological record and in present-day human behaviour. diet norm variation Mesolithic Neolithic Sweden Latvia stable carbon and nitrogen isotopes radiocarbon reservoir effect dogs breastfeeding gender Archaeology subjects Arkeologiämnen
140	Molecular and isotopic characterization of terrestrial organic carbon released to (sub-)Arctic coastal waters Vonk, Jorien Elisabeth January 2010 (has links) Arctic soils store half of the global soil organic carbon (OC) pool and twice as much C as is currently present in the atmosphere. A considerable part of these carbon pools are stored in permafrost. Amplified climate warming in the Arctic will thaw permafrost and remobilize some of these substantial carbon stocks into the active carbon cycle, potentially causing positive feedback to global warming. Despite the global importance of this mechanism, our understanding of the fate of these thawing organic carbon (OC) pools is still poor, particularly regarding its degradation potential. This makes good estimates on greenhouse gas emissions versus coastal reburial impossible. This doctoral thesis aims to improve our understanding on the fate of high-latitude terrestrial OC during fluvial and coastal transport. In two study regions, the Bothnian Bay and the East Siberian Sea, we apply a wide range of bulk, molecular and isotopic geochemical analyses to reveal information on sources, age, degradation and transport routes. Our results show that both study regions receive and store large amounts of terrestrial OC, largely derived from peatlands (paper I, II and IV). This terrestrial matter undergoes extensive degradation in both the water column and surface sediments (paper I, III and IV). Surface sediments in the East Siberian Sea show a offshore-decreasing input of riverine OC and a considerable and constant input of OC from coastal erosion. The strong imprint of rapidly settling coastal OC far out on the shelf may be explained by a strong benthic boundary layer transport in combination with offshore ice-transport and selective preservation of erosion OC compared to riverine OC (paper IV). Molecular radiocarbon data allowed us to distinguish between two (sub-)Arctic soil OC pools that show a remarkably different susceptibility to degradation upon arrival in the coastal system; a young and easily degradable pool originating in surface peatlands, and an old and recalcitrant pool originating in deep mineral soils and coastal mineral Pleistocene deposits (paper III and IV). Our first estimates suggest that, in the Bothnian Bay coastal system, mineral soil OC is at least 20 times less susceptible to degradation than peatland OC (paper III). Hence, a considerable part of the thaw-released mineral OC pool may simply be relocated to coastal sediments instead of being emitted to the atmosphere. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Accepted. Paper 4: Manuscript. organic carbon terrestrial biomarkers radiocarbon particulate organic carbon sediments sphagnum Arctic Bothnian Bay East Siberian Sea Kalix River Kolyma River

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