Vertical structure Of atmospheric trace gases over Southeast Australia

Pak, Bernard Ching-Yuen

Unknown Date

Trace gas (CO2 and its carbon and oxygen isotopes, CH4, CO, H2 and N2O) vertical profile data above Cape Grim, Tasmania for the period April 1992 to February 1997 are investigated. A climatology of the distribution of each trace gas has been compiled from statistical treatment of the raw data. These climatologies are useful for verification of transport model outputs. Here, the CO2 climatology is compared to simulation results from two transport models (Melbourne University Transport Model and TM2Z) using three different sets of CO2 fluxes separately (compiled with different methods by different authors). Large discrepancies are found between simulations and observations, especially in the free troposphere (4-6 km). By considering emission ratios, trajectories, satellite fire counts and simulation with biomass burning fluxes, the influence of tropical biomass burning plumes on the southeastern Australian region in the austral winter/spring is studied and quantified. This identification process requires a multiple-species approach where the large CO anomalies and the unexpected behaviour of H2 are most revealing. The frequent presence of burning plumes in the mid troposphere complicates one of the original motivations for the Cape Grim Overflight Program, which is to estimate the air-sea exchange of CO2 in this region. A suggestion arising from analysis of pre-1992 aircraft sampling in this region was that the regional CO2 air-sea flux south of Australia is exceptionally large.

GENETIC ANALYSIS OF IMPORTANT TRAITS FOR CONFECTIONERY SUNFLOWER IN AUSTRALIA

Yue Sun

Unknown Date

Sunflower is grown worldwide for oil production. In Australia, sunflower is under intense competition from canola as an oil crop. Confectionery sunflower aimed for the overseas snack food market is a potential opportunity for Australian farmers due to its ability to provide off-season supply to the major market located mainly in the northern hemisphere. To serve this aim, new confectionery sunflower hybrids adapted to Australian production system with drought tolerance, large achenes, high self-fertility and rust resistance are of paramount importance. The objectives of this project were to understand the genetic inheritance and genetic linkage relationships of the above traits and also to identify linked DNA markers with the potential for marker-assisted selection (MAS). The inheritance of achene-length was studied in a 12 x 12 diallel and a 14 x 12 North Carolina design II (NC II) mating design. Achene-length was evaluated under three environments for each mating design. Genetic correlation among all five achene-size related traits (achene-length, -width, - thickness and also kernel-length and -width) and 100-achene weight were moderate to high. Narrow-and broad-sense heritability for achene-length was moderate to high and similar for each design. The general combining ability (GCA) and maternal effects were found to be the main genetic factors controlling achene-length and each accounted for around 45% of the total genotypic variance. The inheritance of self-fertility (SF) was assessed with the same 12 x 12 diallel mating design evaluated in two environments. The 12 parents also displayed various levels of SF in addition to a wide range of achene-length. Negative genetic correlations between SF and all five achene-size related traits and 100-achene weight were observed. Modelling achene-length as a covariate revealed that certain pre-pollination floret characteristics represented by achene-length at maturity strongly affects SF in sunflower. When the effect of achene-length was removed statistically as a covariate, the specific combining ability (SCA) effect increased dramatically and became the major factor (other than pre-pollination floret characteristics) for SF determination and accounted for 65% of the total variance. Long achene genotypes tended to have low SF and a positive SCA effect was observed more frequently in F1 hybrids that involved small achene lines. The broad sense heritability was moderate (0.663 ± 0.017), while the estimate of narrow-sense heritability was nearly zero. A segregating F6:7 recombinant inbred line population with 239 progeny was developed from a cross between HaR4, a low delta (Δ), high transpiration efficiency (TE), sunflower line with rust resistance but relatively low SF, and SA52 with all the characteristics in the opposite direction. The population was evaluated in two environments for three TE-related traits including Δ, specific leaf weight (SLW) and chlorophyll content (CC) and four agronomic traits i.e. days to flowering (DTF), plant height (PlantH), SF and rust resistance (RustR). A linkage map 1074.6 cM in length with 138 SSR and 37 ISSR markers consisting of 19 linkage groups was constructed. Spatially adjusted BLUPs were used in QTL analysis for individual and combined environments. Altogether, 10 QTL were identified for Δ, SLW and CC at individual environments, and 7 were detected by a combined analysis. Sixteen QTL were identified for 4 agronomic traits and 14 of them were confirmed by a combined analysis. Significant linkage among all three TE related traits was discovered on linkage group 4 (LG4), where alleles from one parent had the same direction of influence on TE which suggested either coupling phase linkage or pleiotropy. QTL for SF and RustR were closely linked on LG13. An F2 population with 502 progeny developed from a cross between Jumbo, a large achene confectionery sunflower line, and RIL25, an oilseed small achene line, was evaluated for five achene-size related traits in a single field trial. Using a subset of 178 progeny a framework genetic linkage map, 899.7 cM in length, containing 128 SSR markers and 23 ISSR markers was constructed with 18 linkage groups. Based on the results of a simulated QTL analysis, a modified selective genotyping strategy was employed for QTL analysis with 178 F2 individuals (128 randomly selected, 25 shortest achene F2’s and 25 longest achene F2’s). Altogether 18 achene-size related QTL with small effects were identified. Achene-size related genes characteristically expressed additive gene action although several alleles were partially recessive towards the large achene parent. The 18 identified achene-size related QTL were validated in the same diallel mating experiment mentioned above. Significant marker-trait associations were detected for 15 QTL. In addition to 12 significant alleles detected from the F2 population, 12 additional alleles associated with achene-size traits were revealed after the analysis with the diallel. These markers are ready to be used in MAS for confectionery sunflower breeding. Great steps have been made in obtaining essential knowledge of inheritance and linkage of target traits for breeding confectionery sunflower adapted to Australian production environments. The identified markers can be used in MAS and further enhance the breeding process.

confectionery sunflower

quantitative trait loci

combining ability

carbon isotope discrimination

specific leaf weight

chlorophyll content

achene size

kernel size

self-fertility

rust resistance

Dynamique sédimentaire au Paléocène en contexte précoce de bassin d’avant pays dans le domaine Nord-Pyrénéen / Dynamics Palaeocene sedimentary record in the Northern Pyrenean Basin

Maufrangeas, Adrien

05 July 2018

Lors du Paléocène, le bassin d’avant-pays nord-pyrénéen est une large baie ouverte sur le proto-océan Atlantique. Ce golfe est constitué d’une plateforme carbonatée peu profonde dans la région des Petites-Pyrénées, et de sédiments majoritairement continentaux dans les Corbières (Aude). Nous avons recueilli des donnés sédimentologiques, au travers de 10 coupes, réparties sur un transect ouest-est d’environ 150 km, parallèle à l’actuelle chaîne des Pyrénées. L’analyse faciologique de ces coupes a permis de définir des séquences. L’absence de données stratigraphiques notamment dans les séries continentales des Corbières, rendait les corrélations incertaines. Ainsi pour améliorer le calage stratigraphique une analyse des variations du δ13Corg a été réalisée sur une coupe (Lairière)pour l’ensemble du Paléocène. Cette coupe a été comparée avec des coupes de références marines bien calées et ainsi ce travail a permis d’affiner la stratigraphie du Paléocène en domaine continental et plus largement dans la zone d’étude. Couplées à l’analyse séquentielle, ces données ont aussi permis de reconstituer l’architecture du Paléocène. Notre approche nous a permis de (1) tracer des esquisses paléogéographiques pour chacun des trois étages du Paléocène, de (2) proposer un modèle d’évolution tectono-stratigraphique et de (3) discuter des facteurs de contrôle de la sédimentation paléocène dans le bassin nord-pyrénéen. / During the Paleocene, the North Pyrenean Foreland Basin is an open bay on the Atlantic Ocean. This gulf consists of a shallow carbonate platform in the Petites-Pyrenees area, and mainly continental sediments in the Corbières area (Aude). We collected sedimentological data, through 10 sections, on a west-east transect of 150 km, parallel to the present-day Pyrenees. The facies analysis of these sections allowed us to define sequences but the lack of stratigraphical data, particularly in the continental deposits of the Corbières, made correlations uncertain. To overcome this problem, an analysis of the δ13Corg variations was carried out. It provided a geochemical curve for the whole Paleocene that was then compared with marine reference sections which made possible to refine the stratigraphy of the continental succession and more largely of the study area. Coupled with sequential analysis, these data have also enabled the reconstruction of Paleocene architecture. Our approach allowed us to (1) draw paleogeographic map for each of the Paleocene three stages, to (2) propose a model of tectono-stratigraphical evolution and to (3) discuss the control factors of Paleocene sedimentation in the North Pyrenean Basin

Bassin d’avant-pays nord-Pyrénéen

Paléocène

Signal isotopique du carbone

Corbières

Petites-Pyrénées

North pyrenean foreland basin

Paleocene

Chemostratigraphy

Organic carbon isotope

Corbières

Petites-Pyrénées

Climate change, water stress and agriculture in the Indus Civilisation, 3000-1500 BC

Jones, Penelope Jean

January 2018

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.

Variabilité saisonnière et interannuelle de la croissance du chêne vert méditerranéen et vulnérabilité au changement climatique / Seasonal and inter-annual growth variations and vulnerability to climate change in Mediterranean Quercus ilex

Lempereur, Morine

22 July 2015

La croissance secondaire est à l'origine de l'accumulation de biomasse pérenne par les arbres et détermine en partie la capacité des écosystèmes forestiers à stocker du carbone. Cependant, les contraintes environnementales sur la croissance en milieu méditerranéen sont encore mal décrites et nous ne savons pas comment les changements climatiques futurs vont les modifier. L'objectif de la thèse est de déterminer, principalement à partir de l'étude de l'allocation du carbone à la croissance secondaire, les réponses fonctionnelles saisonnières et interannuelles du chêne vert (Quercus ilex L.) aux variations climatiques en région méditerranéenne. L'utilisation de différentes approches expérimentales, à des échelles spatiales allant du cerne à l'écosystème et à des échelles temporelles allant de la journée à plusieurs dizaines d'années, a permis de mettre en évidence l'effet de différentes contraintes environnementales (disponibilité en eau, réchauffement de la température, et densité du peuplement) sur la croissance secondaire et la composition isotopique du cerne. L'étude de la phénologie de la croissance montre que celle-ci est contrôlée directement par les températures hivernales et le déficit hydrique, plus que par la disponibilité en éléments carbonés issus de la photosynthèse. De 1968 à 2013, les changements climatiques ont entrainé une contrainte hydrique de plus en plus précoce qui s'est trouvée compensée par un début de croissance initié plus tôt dans l'année, sous l'effet du réchauffement des températures hivernales, et une meilleure efficacité d'utilisation de l'eau, sous l'effet de l'augmentation de la concentration en CO2 atmosphérique. La réduction de la mortalité et l'augmentation de la croissance observée dans des parcelles éclaircies montre que cette pratique sylvicole permet de préparer les taillis de chêne vert à l'intensification de la sècheresse prévue pour la région méditerranéenne. / Tree secondary growth is responsible for woody biomass accumulation and is a major component of carbon storage in forest ecosystems. Environmental constraints on secondary growth in Mediterranean ecosystems must, however, be described in more to details to better understand how they will be modified by climate change. This dissertation aims at studying the functional responses of Mediterranean holm oak (Quercus ilex) to seasonal and inter-annual climate variations through the study of carbon allocation to secondary growth. Different experimental approaches, at spatial scales ranging from tree rings to the ecosystem and at temporal scales from the day to several decades, were used to identify the main environmental constraints (water availability, temperature warming, competition) to secondary growth and carbon isotopic composition of tree rings. The phenology of stem growth shows evidence for a direct environmental control on annual growth by winter temperature and summer drought that is more limiting than the carbon supply from photosynthesis. Climate change from 1968 to 2013 resulted in earlier water limitation on secondary growth, which was compensated by earlier growth onset, due to warmer winter temperature, and higher water use efficiency, due to increased atmospheric CO2 concentration. Thinning reduced tree mortality and increased stem growth, so thinning management in old holm oak coppices could prepare the ecosystem to better withstand the increasing drought forecasted for the Mediterranean region.

Croissance secondaire

Phénologie

Déficit hydrique

Changement climatique

Flux de carbone

Isotope du carbone

Secondary growth

Phenology

Water limitation

Climate change

Carbon flux

Carbon isotope

Application of Biomarkers and Compound Specific Stable Isotopes for the Assessment of Hydrology as a Driver of Organic Matter Dynamics in the Everglades Ecosystem

He, Ding

25 June 2014

The Everglades is a sub-tropical coastal wetland characterized among others by its hydrological features and deposits of peat. Formation and preservation of organic matter in soils and sediments in this wetland ecosystem is critical for its sustainability and hydrological processes are important divers in the origin, transport and fate of organic matter. With this in mind, organic matter dynamics in the greater Florida Everglades was studied though various organic geochemistry techniques, especially biomarkers, bulk and compound specific δ13C and δD isotope analysis. The main objectives were focused on how different hydrological regimes in this ecosystem control organic matter dynamics, such as the mobilization of particulate organic matter (POM) in freshwater marshes and estuaries, and how organic geochemistry techniques can be applied to reconstruct Everglades paleo-hydrology. For this purpose organic matter in typical vegetation, floc, surface soils, soil cores, and estuarine suspended particulates were characterized in samples selected along hydrological gradients in the Water Conservation Area 3, Shark River Slough and Taylor Slough. This research focused on three general themes: (1) Assessment of the environmental dynamics and source-specific particulate organic carbon export in a mangrove-dominated estuary. (2) Assessment of the origin, transport and fate of organic matter in freshwater marsh. (3) Assessment of historical changes in hydrological conditions in the Everglades (paleo-hydrology) though biomarkes and compound specific isotope analyses. This study reports the first estimate of particulate organic carbon loss from mangrove ecosystems in the Everglades, provides evidence for particulate organic matter transport with regards to the formation of ridge and slough landscapes in the Everglades, and demonstrates the applicability of the combined biomarker and compound-specific stable isotope approach as a means to generate paleohydrological data in wetlands. The data suggests that: (1) Carbon loss from mangrove estuaries is roughly split 50/50 between dissolved and particulate carbon; (2) hydrological remobilization of particulate organic matter from slough to ridge environments may play an important role in the maintenance of the Everglades freshwater landscape; and (3) Historical changes in hydrology have resulted in significant vegetation shifts from historical slough type vegetation to present ridge type vegetation.

Biomarker

n-alkanes

compound specific isotope

carbon isotope

hydrogen isotope

Everglades

mangroves

cattail

floc

Analytical Chemistry

Biogeochemistry

Environmental Chemistry

Organic Chemistry

Geochemical investigation of the co-evolution of life and environment in the Neoproterozoic Era

Kang, Junyao

19 February 2024

The co-evolution of life and the environment stands as a cornerstone in Earth's 4.5-billion-year history. Environmental fluctuations have wielded substantial influence over biological evolution, while life forms have, in turn, reshaped Earth's surface and climate. This dissertation centers on a critical period in Earth's history—the Neoproterozoic Era—when profound environmental shifts potentially catalyzed pivotal eukaryotic evolutionary events. By delving deeper into Neoproterozoic paleoenvironments, I aim at a clearer understanding of life-environment co-evolution in this crucial era. The first chapter focuses on an important juncture—the transition from prokaryote to eukaryote dominance in marine ecosystems during the Tonian Period (1000 Ma to 720 Ma). To assess whether the availability of nitrate, an important macro-nutrient, played a critical role in this evolutionary event, nitrogen isotope compositions (δ¹⁵N) of marine carbonates from the early Tonian (ca. 1000 Ma to ca. 800 Ma) Huaibei Group in North China were measured. The data indicate nitrate limitation in early Neoproterozoic oceans. Further, a compilation of Proterozoic sedimentary δ¹⁵N data, together with box model simulations, suggest a ~50% increase in marine nitrate availability at ~800 Ma. Limited nitrate availability in early Neoproterozoic oceans may have delayed the ecological rise of eukaryotes until ~800 Ma when increased nitrate supply, together with other environmental and ecological factors, may have contributed to the transition from prokaryote-dominant to eukaryote-dominant marine ecosystems. Recognizing the spatial and temporal variations in Neoproterozoic oceanic environments, the second chapter lays the groundwork for a robust stratigraphic framework for the early Tonian Period. Employing the dynamic time warping algorithm, I constructed a global stratigraphic framework for the early Tonian Period using δ¹³C_carb data from the North China, São Francisco, and Congo cratons. This exercise confirms the generally narrow range of δ¹³C_carb fluctuations in the early Tonian, but also confirms the presence of a negative δ¹³C_carb excursion of notable magnitude (~9 ‰) at ca. 920 Ma in multiple records, suggesting that it was global in scope. This negative excursion, known as the Majiatun excursion, is likely the oldest negative excursion in the Neoproterozoic Era and marks the onset of the dynamic Neoproterozoic carbon cycle. Shifting focus to the late Neoproterozoic, the third chapter delves into the origins of Neoproterozoic superheavy pyrite, whose bulk-sample δ³⁴S values are greater than those of contemporaneous seawater sulfate and whose origins remain controversial. Two supervised machine learning algorithms were trained on a large LA-ICP-MS pyrite trace element database to distinguish pyrite of different origins. The analysis validates that two models built on the co-behavior of 12 trace elements (Co, Ni, Cu, Zn, As, Mo, Ag, Sb, Te, Au, Tl, and Pb) can be used to accurately predict pyrite origins. This novel approach was then used to identify the origins of pyrite from two Neoproterozoic sedimentary successions in South China. The first set of samples contains isotopically superheavy pyrite from the Cryogenian Tiesi'ao and Datangpo formations. The second set of samples contains pyritic rims from the Ediacaran Doushantuo Formation; these pyrite rims are associated with fossiliferous chert nodules and do not have superheavy sulfur isotopes. For the superheavy pyrite, the models consistently show high confidence levels in identifying its genesis type, and three out of four samples were inferred to be of sedimentary origins. For the pyritic nodule rims, the models suggest that early diagenetic pyrite was subsequently altered by hydrothermal fluids and therefore shows mixed signals. The third chapter highlights the importance of pyrite trace elements in deciphering and distinguishing the origins of pyrite in sedimentary strata. / Doctor of Philosophy / Understanding how life and the environment have shaped our planet's story over 4.5 billion years is like piecing together an intricate puzzle. On the one hand, changes in the environment kickstarted big shifts in how life evolved. On the other hand, living creatures have also left their mark on Earth's landscapes and climate. This dissertation focuses on unraveling the mysterious Neoproterozoic Era (1 billion to 538 million years ago), a time when Earth saw some of its most dramatic changes. A significant aspect of my investigation delves into the evolutionary dynamics within ancient marine ecosystems. Specifically, I'm exploring a critical juncture when organisms with more complex cellular structures, known as eukaryotes, became ecologically more important than prokaryotic life forms in many aspects of Earth systems. By examining ancient rock formations from China, I have found evidence suggesting that nitrate, a vital nutrient, was scarce in the Neoproterozoic oceans. However, around 800 million years ago, there appears to have been a significant surge in nitrate availability. This surge potentially catalyzed a pivotal phase in evolution, possibly driving the shift from prokaryote to eukaryote dominance in these ancient waters. Second, there is a challenge to delineate a robust timeline for the early Neoproterozoic Era. Imagine trying to piece together a story from a time when there were no calendars or clear dates. Employing advanced statistical methods and comparing chemical signals preserved in carbonate rocks from disparate global locations, I endeavor to craft a coherent timeline for this crucial period. Within this timeline, a noteworthy anomaly in the carbon cycle emerged around 920 million years ago known as the Majiatun excursion. This anomaly represents a significant shift in the Neoproterozoic carbon cycle. Furthermore, my investigation plunges into the geochemistry of sulfur, an important element in shaping ancient marine environments. Certain sedimentary rocks harbor anomalous sulfur isotope signatures in the mineral pyrite (also known as fool's gold), hinting at dramatic environmental transformations during the late Neoproterozoic. Employing advanced analytical techniques and machine learning methodologies, I seek to discern the origins and implications of these anomalous sulfur isotope signals found in pyrite, unraveling their significance in reconstructing the environmental dynamics of ancient oceans.

Neoproterozoic

Nitrogen Isotope

Iron Speciation

Redox

Tonian

Nitrate

Eukaryotes

Carbon Isotope

North China Craton

Chemostratigraphy

Sulfur Isotope

Pyrite

Trace Element

LA-ICP-MS

Machine Learning

Random Forest

XGBoost

Reconstitution of Atlantic Rainforest vegetation dynamics since the Late Pleistocene at southeastern (Espirito Santo state coast and Minas Gerais eastern) and northeastern (Bahia southern) Brazil / Reconstituição da dinâmica da vegetação de Mata Atlântica desde o Pleistoceno tardio nas regiões sudeste (costa norte do estado do Espírito Santo e leste de Minas Gerais) e nordeste (sul da Bahia) do Brasil

Francisquini, Mariah Izar

06 October 2017

This research is associated to the FAPESP 2011/0095-7 thematic project, \"Interdisciplinary palaeoenviromental studies at Espirito Santo coast\" and to the FAPESP Research Program about Climate Global Change (PFPMCG-FAPESP). The objectives were: (1) to characterize the late Pleistocene connection between Atlantic and Amazon rainforest and possible routes of interaction (coast, continent or both); (2) to identify environmental characteristics that indicates the Northeastern Espírito Santo and Southern Bahia as a stable forest since the late Pleistocene; (3) reconstitute the vegetation dynamics and infer climate fluctuations. Three sedimentary cores were collected: at northern Espirito Santo (ES) state, southern Bahia (BA) and eastern Minas Gerais (MG). Carbon and nitrogen isotope analyses and bioindicators in sediments/ soils, chronologically determined by radiocarbon dating, contributed to the local palaeoenvironmental reconstitution. At ES, from ~33,460 to ~13,740 cal yr BP the vegetation was composed of arboreal/ shrub cold adapted species and the organic matter recorded the dominance of C3 plants (?13C ~-28?), suggesting a cold and humid forest domain. From ~13,740 to ~9500 cal yr BP vegetation changes, with the increase of grasses and decrease of arboreal types. Between ~9500 and to ~4000 cal yr BP herbs were abundant with a probable mixture of C3 and C4 plants (?13C ~-24?) and algae, suggesting a higher seasonality between humid and dry season. From ~7300 cal yr BP until present the peat layer initiates its deposition, and the pollen records represents the current vegetation. At BA, radiocarbon dating in high-resolution, C and N isotopes and palynology each ~150 years from ~6400 to ~3400 cal yr BP showed detailed vegetational dynamics. From ~6400 to ~5620 cal yr BP the pollen record indicates abundance of trees and shrubs (up to 96%). From ~5620 to ~4850 cal yr BP occurred a slightly increase of herbs (28%) but the ?13C of ~-28% indicate C3 plants domain. From 4850 to ~3400 cal yr BP trees and shrubs abundance increases up to 94%, indicating the forest domain. The results confirm the forest stability and high local humidity, allowing to recognize the area as a probable refugee since 6500 cal yr BP. Vegetation, climate and the landscape has changed at MG since ~10,000 cal yr BP. From 10,600 to ~9500 cal yr BP, pollen was not preserved, C/N values (2 to 11) reveal the algal contribution, the ?13C (~-20?) indicate the mixture of C3 and C4 plants and radiocarbon date inversions indicate that the material was reworked. From 9,500 to 7,500 cal yr BP the vegetation was predominantly herbaceous with mixture of C3 and C4 plant sources (?13C ~-17?). From 7,500 to 7,000 cal yr BP C3 plants (?13C ~-30?) as trees/shrubs domains the polen record. From ~7,000 to ~6500 cal yr BP the pollen records the herbaceous abundance, dominated by C4 plants (?13C ~-12 to 18?). Peat deposition starts at ~6500 cal yr BP composed by C3 plants, mainly dominated by trees. Pollen records since at least early Holocene and the floristics of current vegetation did not show any disjunct specie with Amazon / Este projeto está associado ao temático FAPESP 2011/00995-7, \"Estudos paleoambientais interdisciplinares na costa do Espírito Santo\", e ao Programa FAPESP de Pesquisas sobre Mudanças Climáticas Globais (PFPMCG-FAPESP). Os objetivos foram: (1) caracterizar a conexão da Mata Atlântica e Floresta Amazônica e possíveis rotas de interação (litorânea, continental ou ambas); (2) identificar padrões que caracterizem a região da costa norte do Espírito Santo e sul da Bahia como refúgios florestais; (3) reconstituir a dinâmica da vegetação e inferir flutuações climáticas desde o Pleistoceno tardio. Três testemunhos sedimentares foram coletados: ao norte do Espírito Santo (ES), ao sul da Bahia (BA) e ao leste de Minas Gerais (MG). Análises isotópicas de carbono e nitrogênio e bioindicadores em sedimento/solos, cronologicamente determinados por datação 14C, contribuíram para a reconstituição paleoambiental nestas regiões. No ES, de ~33.460 a ~13.740 anos cal AP, a vegetação era composta por espécies de árvores/arbustos típicas de regiões frias com o domínio de plantas C3 (?13C ~-28?), sugerindo a presença de uma floresta fria e úmida. De ~13.740 a ~9500 anos cal AP ocorreu o aumento das herbáceas e diminuição dos tipos arbóreos. Entre ~9500 e ~4000 anos cal AP, as herbáceas tornaram-se abundantes com mistura de plantas C3 e C4 (?13C~-24?) e algas, sugerindo maior sazonalidade entre as estações seca e úmida. De ~7300 anos cal AP até o presente, iniciou-se a deposição da turfa e pólen da vegetação atual. Na BA, a alta resolução de datação C-14, isótopos de C e N e palinologia a cada ~150 anos entre ~6400 e ~3400 anos cal AP revelaram a dinâmica da vegetação. Entre 6400 e 5620 anos cal AP arbóreas/arbustivas (96%) são abundantes. De ~5620 até ~4850 anos cal AP ocorreu um pequeno aumento de herbáceas (28%), e os valores de ?13C ~-28% indicam o domínio de plantas C3. De 4850 a ~3400 anos cal AP, a abundância de arbóreas/arbustivas (94%), indica domínio florestal. Os resultados confirmam a estabilidade florestal e a umidade local, permitindo reconhecer esta área como um possível refúgio florestal desde pelo menos 6500 anos cal AP. Em MG, desde ~10.000 anos cal AP ao presente, a vegetação, o clima e a paisagem modificaram consideravelmente. De 10.600 a ~9500 anos cal AP não houve preservação de pólen, os valores de C/N (~2 e 11) revelam a contribuição algal, o ?13C (~-20?) indica mistura de plantas C3 e C4 e inversões nas datações indicam o retrabalhamento do material. De 9500 a 7500 anos cal AP a vegetação era predominantemente herbácea, com mistura de C3 e C4 (?13C ~-17?). De 7500 a 700 anos cal AP, plantas C3 (?13C ~-30?) arbustivo-arbóreas dominam o registro polínico. De ~7000 a 6500 anos cal AP as herbáceasC4 (?13C ~-12?) são abundantes. A deposição de turfa iniciou em ~6500 anos cal AP, composta por plantas C3 arbóreas. Registros palinológicos desde o Holoceno inferior e a avaliação florística atual não revelaram a presença de espécies de distribuição disjunta com a Amazônia

Carbon isotope

Datação Carbono-14

Forest refuge

Isótopos de carbono

Isótopos de nitrogênio

Last Glacial Maximum (LGM)

Nitrogen isotope

Palinologia

Palynology

Quaternário

Quaternary

Radiocarbon dating

Refúgios florestais

Ultimo máximo Glacial (UMG)

Croissance et δ13C des cernes de trois essences forestières tempérées (Fagus sylvatica, Quercus petraea et Pinus sylvestris) face aux variations climatiques à l'échelle interannuelle et saisonnière / Growth and ring δ13C of three temperate forest species (Fagus sylvatica, Quercus petraea et Pinus sylvestris) under climatic variations at interannual and seasonal scales

Michelot, Alice

01 July 2011

Il est probable que les changements climatiques futurs diminuent la croissance forestière en région tempérée. Cette vulnérabilité des espèces face aux contraintes du climat peut être étudiée via les cernes des arbres. Ces derniers sont en effet des archives du carbone utilisé par les arbres pour leur croissance, en lien avec les caractéristiques spécifiques de gestion du carbone et de réponse au climat. L’objectif principal de cette thèse est de déterminer, à partir des cernes, les réponses fonctionnelles de trois essences forestières tempérées (Fagus sylvatica, Quercus petraea et Pinus sylvestris) aux variations climatiques. Pour cela, nous avons réalisé une approche expérimentale en étudiant deux proxys (ou indices climatiques) : la croissance et la composition isotopique en 13C (δ13C) des cernes, à deux échelles temporelles : interannuelle et saisonnière. A l’échelle interannuelle, sur la période 1960-2007, une étude dendrochronologique a été réalisée sur les trois essences et a été complétée par l’analyse du δ13C des cernes (en relation avec le climat). A l’échelle saisonnière, nous avons déterminé précisément, sur une année (2009), les dynamiques de croissance du cerne et les variations de δ13C intra-cerne. Nos résultats mettent en évidence une sensibilité de la croissance et du δ13C des cernes des trois essences aux sécheresses estivales. Grâce à la complémentarité des proxys et des échelles temporelles, nous avons également trouvé des réponses climatiques contrastées entre espèces. La croissance du Hêtre est la plus réactive au climat d’une année à l’autre. Cette croissance ainsi que le δ13C des cernes sont fortement sensibles aux températures de juillet, en plus des précipitations printanières et estivales. Cette réponse immédiate au climat peut être expliquée par une forte dépendance de la croissance au fonctionnement foliaire et une faible utilisation des réserves carbonées pour assurer le début de la croissance. Le Chêne présente lui des arrières-effets climatiques sur sa croissance, via une forte sensibilité aux sécheresses de l’automne précédent, contrairement aux deux autres espèces. Ce résultat est à mettre en relation avec l’utilisation importante de réserves carbonées par rapport aux assimilats pour la croissance du bois initial, cette dernière étant très rapide, comme nous l’avons observé grâce à l’analyse saisonnière de la croissance. Concernant le Pin, la croissance, parce qu’elle dure plus longtemps que celle des décidues, est influencée par les températures et les précipitations de juin jusqu'à août. Le δ13C des cernes de pins est celui qui enregistre le plus la réponse au VPD, aussi bien à l’échelle saisonnière qu'interannuelle, probablement du fait d’une forte sensibilité de la conductance stomatique à ce paramètre. Les informations fournies par les cernes permettent d’appréhender la survie des espèces face aux changements climatiques futurs et peuvent être utilisées pour comprendre le dépérissement lié à ces changements. / Climate change will probably alter the tree growth in temperate forests. The species vulnerability to climatic constraints can be studied using tree rings. The latter's are natural archives of carbon used for tree growth and are linked to species carbon transfer and response to climate. The main thesis objective was to determine the functional response of three temperate species (Fagus sylvatica, Quercus petraea et Pinus sylvestris) under climatic variations using tree rings. For this, an experimental approach was conducted using two proxies (or climatic indices): the radial growth and the carbon isotope composition in 13C (δ13C) of rings at two time scales: interannual and intra-annual (or seasonal). At interannual scale, over the period 1960-2007, a dendrological study was done for three species and was completed by analysis of ring δ13C (in relation to climate). Over one year (2009) at seasonal scale, we precisely determined the radial growth dynamics and the variations in intra-ring δ13C. Our results highlighted growth and ring δ13C sensitivities to summer droughts. Because of proxy and time-scale complementarities, we have also found contrasted climatic responses among species. The beech growth is the most year-to-year responsive to climate. This growth and ring δ13C were highly sensitive to temperature in July in addition to spring and summer precipitation. This quick response of beech growth to climate could be explained by strong growth dependence to leaf functioning and low carbon reserve use to ensure the growth beginning. Contrary to the two others species, long-term consequences of climate on oak growth were found, via a high sensitivity to previous autumnal droughts. This result could be related to the high use of carbon reserves compared to assimilates for earlywood growth, which was very quick as observed by seasonal growth analysis. Concerning pine, the growth was influenced by temperatures and precipitation from June to August because the growth lasted longer for pine than that of the deciduous species. At both seasonal and interannual scales, the ring δ13C of pine trees was the best recorder of the VPD response, probably because of strong sensitivity of stomatal conductance to VPD. The information provided by tree rings allow to anticipate the species survival under future climate change and could be used to understand the declining due to these changes.

Climat

Croissance

Isotope stable du carbone

Forêt tempérée

Fagus sylvatica

Quercus petraea

Pinus sylvestris

Cerne

Climate

Tree ring

Stable carbon isotope

Interannual and seasonal variations

Temperate forest

Fagus sylvatica

Quercus petraea

Pinus sylvestris

Growth

Investigations on rainfall variability during the late Quaternary based on geochemical analyses of lake sediments from tropical and subtropical southern Africa

Kristen, Iris

January 2009

This thesis presents investigations on sediments from two African lakes which have been recording changes in their surrounding environmental and climate conditions since more than 200,000 years. Focus of this work is the time of the last Glacial and the Holocene (the last ~100,000 years before present [in the following 100 kyr BP]). One important precondition for this kind of research is a good understanding of the present ecosystems in and around the lakes and of the sediment formation under modern climate conditions. Both studies therefore include investigations on the modern environment (including organisms, soils, rocks, lake water and sediments). A 90 m long sediment sequence was investigated from Lake Tswaing (north-eastern South Africa) using geochemical analyses. These investigations document alternating periods of high detrital input and low (especially autochthonous) organic matter content and periods of low detrital input, carbonatic or evaporitic sedimentation and high autochthonous organic matter content. These alternations are interpreted as changes between relatively humid and arid conditions, respectively. Before c. 75 kyr BP, they seem to follow changes in local insolation whereas afterwards they appear to be acyclic and are probably caused by changes in ocean circulation and/or in the mean position of the Inter-Tropical Convergence Zone (ITCZ). Today, these factors have main influence on precipitation in this area where rainfall occurs almost exclusively during austral summer. All modern organisms were analysed for their biomarker and bulk organic and compound-specific stable carbon isotope composition. The same investigations on sediments from the modern lake floor document the mixed input of the investigated individual organisms and reveal additional influences by methanotrophic bacteria. A comparison of modern sediment characteristics with those of sediments covering the time 14 to 2 kyr BP shows changes in the productivity of the lake and the surrounding vegetation which are best explained by changes in hydrology. More humid conditions are indicated for times older than 10 kyr BP and younger than 7.5 kyr BP, whereas arid conditions prevailed in between. These observations agree with the results from sediment composition and indications from other climate archives nearby. The second lake study deals with Lake Challa, a small, deep crater lake on the foot of Mount Kilimanjaro. In this lake form mm-scale laminated sediments which were analyses with micro-XRF scanning for changes in the element composition. By comparing these results with investigations on thin sections, results from ongoing sediment trap studies, meteorological data, and investigations on the surrounding rocks and soils, I develop a model for seasonal variability in the limnology and sedimentation of Lake Challa. The lake appears to be stratified during the warm rain seasons (October – December and March – May) during which detrital material is delivered to the lake and carbonates precipitate. On the lake floor forms a dark lamina with high contents of Fe and Ti and high Ca/Al and low Mn/Fe ratios. Diatoms bloom during the cool and windy season (June – September) when mixing down to c. 60 m depth provides easily bio-available nutrients. Contemporaneously, Fe and Mn-oxides are precipitating which cause high Mn/Fe ratios in the light diatom-rich laminae of the sediments. Trends in the Mn/Fe ratio of the sediments are interpreted to reflect changes in the intensity or duration of seasonal mixing in Lake Challa. This interpretation is supported by parallel changes in the organic matter and biogenic silica content observed in the 22 m long profile recovered from Lake Challa. This covers the time of the last 25 kyr BP. It documents a transition around 16 kyr BP from relatively well-mixed conditions with high detrital input during glacial times to stronger stratified conditions which are probably related to increasing lake levels in Challa and generally more humid conditions in East Africa. Intensified mixing is recorded for the time of the Younger Dryas and the period between 11.4 and 10.7 kyr BP. For these periods, reduced intensity of the SW monsoon and intensified NE monsoon are reported from archives of the Indian-Asian Monsoon region, arguing for the latter as a probable source for wind mixing in Lake Challa. This connection is probably also responsible for contemporaneous events in the Mn/Fe ratios of the Lake Challa sediments and in other records of northern hemisphere monsoon intensity during the Holocene and underlines the close interaction of global low latitude atmospheric circulation. / In dieser Arbeit werden Ergebnisse von Untersuchungen an den Sedimenten zweier afrikanischer Seen vorgestellt, die ein Archiv für Klimaveränderungen über einen Zeitraum von mehr als 200.000 Jahren darstellen. Der Schwerpunkt liegt in dieser Arbeit auf dem letzten Glazial und dem Holozän (ca. 100.000 Jahre vor heute [nachfolgend als 100 kyr BP bezeichnet] bis heute). Grundlegende Voraussetzung für solche Studien ist ein gutes Verständnis der Ökosysteme in und um den See, sowie des gegenwärtigen Sedimentationsgeschehens. Deswegen beinhalten beide Seestudien Untersuchungen der heutigen Organismen, Böden, Gesteine, Wasserchemie und Sedimentablagerungen. Im Tswaing-See im nordöstlichen Südafrika wurden anhand eines 90 m langen Sedimentprofils Studien zur Sedimentzusammensetzung und Untersuchungen der Zusammensetzung und Qualität des organischen Materials durchgeführt. Sie zeigen einen Wechsel zwischen Phasen hohen detritischen Eintrags, während derer v.a. kaum autochthones organisches Material im See erhalten blieb, mit Phasen geringen Eintrags und dafür karbonatischer oder evaporitischer Sedimentation, die hohe Gehalte v.a. autochthonen organischen Materials aufweisen. Diese Phasen werden als relativ feuchte bzw. trockene Perioden interpretiert und folgen bis vor ca. 75 kyr BP Schwankungen der lokalen solaren Einstrahlung. Dieser Einfluss nimmt nach 75 kyr BP ab und azyklische feuchte Phasen werden beobachtet. Mögliche Ursachen sind Veränderungen in der ozeanischen Zirkulation und Verschiebungen in der Lage der Innertropischen Konvergenzzone (ITCZ); beides sind auch heute Haupteinflussfaktoren auf die Niederschläge in der Region. Die heute lebenden Organismen des Tswaing-Kraters wurden mittels Analysen der Biomarkerzusammensetzung und der Kohlenstoffisotopie charakterisiert und ihr Einfluss auf die heutigen Seeablagerungen untersucht. Dabei konnten zusätzlich Indikatoren für die Aktivität methanotropher Bakterien nachgewiesen werden. Der Vergleich heutiger Sedimente mit denen des Zeitraumes 14 bis 2 kyr BP zeigt deutliche Veränderungen sowohl in der Zusammensetzung, als auch in der Kohlenstoffisotopie der Biomarker, die mit Veränderungen in der Hydrologie erklärt werden können. Die gefundenen Hinweise auf feuchtere Bedingungen im Zeitraum älter als 10 kyr BP, für trockenere Verhältnissen zwischen 10 und 7.5 kyr BP und für die nachfolgende Wiederzunahme an Feuchtigkeit werden durch die sedimentologischen Ergebnisse unterstützt. Objekt der zweiten Seestudie ist der Challa-See am Fuß des Kilimanjaro. Hier werden heute im mm-Maßstab laminierte Sedimente gebildet, die mit Mikro-XRF-scanning auf Veränderungen in der Elementzusammensetzung untersucht wurden. Zusammen mit Untersuchungen der Mikrofazies und im Vergleich mit ersten Ergebnissen noch laufender Sedimentfallenstudien, mit meteorologischen Daten und Analysen des Umgebungsgesteins werden die saisonalen Veränderungen in der Temperaturverteilung, der Durchmischungstiefe, dem detritischen Eintrag und der Bioproduktivität des Sees in den Sedimenten nachvollziehbar. Der See ist in den feucht-warmen Perioden von Oktober bis Dezember und von März bis Mai stratifiziert. Während dieser Zeit erfolgt der Eintrag detritischen Materials und Kalziumkarbonat fällt aus; eine dunkle Lage mit hohen Gehalten an Fe und Ti und mit hohen Ca/Al- und niedrigen Mn/Fe-Verhältnissen bildet sich am Boden des Sees. Diatomeen blühen während der kühlen, windigen Periode von Juni bis September, wenn die Durchmischung bis auf etwa 60 m Tiefe Nährstoffe verfügbar macht. Die Ausfällung von Fe- und Mn-oxiden sorgt für hohe Mn/Fe-Verhältnisse; es bildet sich eine helle Lage auf dem Sediment. Trends im Mn/Fe-Verhältnis werden als Signal für Veränderungen in der Intensität oder Dauer der saisonalen Durchmischung interpretiert. Dies wird unterstützt durch parallele Trends im Gehalt an organischem Material und an biogenem Silizium, wie durch Analysen an einem 22 m langen Bohrkern gezeigt werden kann. Nach gut durchmischten und von erhöhtem Eintrag von außen geprägten Verhältnissen während des letzten Glazials erfolgt gegen 16 kyr BP ein Übergang zu stärker stratifizierten Bedingungen. Diese korrespondieren mit einem steigenden Seespiegel und verbreiteten Hinweisen auf feuchte Bedingungen im tropischen Ostafrika. Stärkere Durchmischung herrschte während der Jüngeren Dryas und von 11.4 bis 10.7 kyr BP. Diese Perioden entsprechen Zeiten verringerter Südwest- und vermutlich verstärkter Nordostmonsunintensität im Bereich des Indisch-Asiatischen Monsuns und spiegeln eine global beobachtete südliche Verschiebung der ITCZ wider. Nach einer kurzen stabilen, feuchten Phase im frühen Holozän nimmt die Durchmischung des Sees im Verlauf des Holozän wieder zu. Abrupte Ereignisse während des Holozän scheinen im Challa-See zeitgleich mit Veränderungen der Monsunintensität der Nordhemisphäre aufzutreten und bezeugen die starke klimatische Kopplung der niederen Breiten in globalem Maßstab.

Paläoklima

Afrika

Monsun

Seedurchmischung

Seesedimente

Biomarker

Alkenone

XRF

palaeoclimate

Africa

monsoon

lake mixing

lake sediments

biomarker

alkenones

XRF

Earth sciences