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

Contenu total en éléments traces de sols forestiers du Québec méridional

Masse, Jacynthe

06 1900

Les sols forestiers constituent un réservoir considérable d’éléments nutritifs disponibles pour soutenir la productivité forestière. Ces sols contiennent aussi une quantité, encore inconnue à ce jour, d’éléments traces biodisponibles provenant de sources anthropiques ou naturelles. Or, plusieurs de ces éléments recèlent un potentiel toxique pour les organismes vivants. Ainsi, la quantification de la concentration et du contenu total en éléments traces des sols forestiers s’avère nécessaire afin d’évaluer les impacts des perturbations sur la qualité des sols. Les objectifs de ce projet de recherche sont: 1) de mesurer le contenu total en éléments traces en phase solide (Ag, As, Ba, Cd, Ce, Co, Cr, Cu, Mn, Ni, Pb, Rb, Se, Sr, Tl, V, Y, Zn) des divers horizons de sols d’écosystèmes forestiers du Québec méridional; 2) d’établir des liens significatifs entre la fraction soluble dans l’eau des éléments traces et les propriétés des horizons de sols et; 3) d’évaluer le rôle de la proximité d’un centre urbain sur les contenus en éléments traces. Pour répondre à ces objectifs, quatre profils de sols situés dans la région de St-Hippolyte et deux situés dans la région de Montréal furent échantillonnés jusqu'à l'atteinte du matériel parental. Les résultats de ce projet de recherche ont révélé que le contenu total en éléments traces présents dans les profils de sols se retrouve en grande partie dans les fragments grossiers du sol. Il a été démontré que la teneur en carbone organique, les complexes organométalliques et les oxydes de fer et d’aluminium dictent la distribution en profil de la majorité des éléments traces étudiés. Finalement, il fut prouvé que la région de Montréal présente des niveaux de contamination en éléments traces (Ag, As, Ba, Cu, Mn, Pb, Rb, Se, Sr, Tl et Zn) supérieurs à ceux rencontrés dans les Laurentides. / Forest soils represent an important stock of nutrients available to sustain forest productivity. They also contain an amount, still unknown, of trace elements inherited from natural or anthropogical sources. Many of these trace elements can be toxic to living organisms. Thereby, quantification of the concentration and the total content of trace elements in forest soils is necessary to asses the impact of these elements on soil quality. The specific objectives of this research project are: 1) to measure the total content of trace elements in solid phase (Ag, As, Ba, Cd, Ce, Co, Cr, Cu, Mn, Ni, Pb, Rb, Se, Sr, Tl, V, Y, Zn) of various soil horizons in two forest ecosystems of southern Quebec, 2) to establish significant correlations between the bioavailable fraction (water-soluble) of trace elements and soil horizons properties and 3) to compare the trace element stock of two Canadian Shield’s forest soil with those of similar soils situated in the Montreal area. To achieve these goals four soil profiles situated in the pristine region of St-Hippolyte and two in the urban area of Montréal, were excavated down to the parent material. The results of this research have established that the trace element’s total stock is mainly concentrated in coarse fragments of the soil. Multivariate statistical analyses revealed significant links between organic carbon, organometallic complexes as well as Fe-Al oxides and the distribution of trace element in soil profiles. Finally, it was proved that Montreal’s soil contained more trace element (Ag, As, Ba, Cu, Mn, Pb, Rb, Se, Sr, Tl et Zn) than Canadian Shield’s soils.

Éléments traces

Sols forestiers

Contamination

Milieux urbains

Variations spatiales

Bouclier Canadien

Trace element

Forest soil

Mobility

Montreal

Spatial variation

Canadian shield

Cycle géodynamique du soufre : le rôle des sédiments subduits / Geodynamic cycling of sulphur : the role of subducted sediments

Pelleter, Anne-Aziliz

27 June 2017

Dans l’objectif d’évaluer le devenir de sédiments subduits variablement enrichis en soufre dans des conditions P-T (pression – température) correspondant au toit de la plaque sous un arc volcanique, des expériences de fusion et de cristallisation ont été réalisées en conditions hydratées en presse piston-cylindre(3 GPa ; 650 – 1000°C ; ƒO2 ~ NNO) sur des sédiments naturels (pélite et marne), non dopés en éléments en traces et variablement enrichis en soufre (0, 1 et 2 wt% Sin). Lors de la fusion du sédiment pélitique, des liquides trondhjémitiques à granitiques sont produits en équilibre avec un résidu composé de grenat +disthène ± phengite ± quartz + rutile. Lors de la fusion du sédiment marneux, des liquides granodioritiques sont produits en équilibre avec un résidu constitué de grenat ± épidote ± clinopyroxène ± disthène ± quartz +rutile. L’ajout de soufre dans le système pour une ƒO2 ~ NNO conduit à une précipitation de sulfures. La quantité de fer (Fe2+) disponible dans le système diminue fortement (augmentation du Mg#) et impactegrandement les relations de phases : le grenat, l’épidote et la phengite sont déstabilisées au profit des pyroxènes, de la biotite ou encore de l’amphibole. La distribution des éléments en traces dans le liquide silicaté par rapport au sédiment de départ est également très affectée pour les systèmes dopés en soufre(ex : fractionnement des terres rares). Nous proposons, à partir des données obtenues dans des xénolites mantelliques (Grenade, Petites Antilles) et lors de modélisations géochimiques, que la contribution dans lecoin mantellique de 1 à 3 % de liquides trondhjémitiques/granitiques issus de la fusion de sédiments pélitiques modérément enrichis en soufre (≤ 1 wt% Sin) peut expliquer la variabilité de composition des basaltes du sud de l’arc des Petites Antilles (Grenade et Grenadines). / The main issue of this study is to constrain the fate of subducted sediments variably enriched in sulphur for P-T (pressure – temperature) relevant for the slab at sub-arc depth. Using piston-cylinder apparatus, we performed melting and crystallisation experiments (3 GPa; 650 – 1000°C; ƒO2 ~ NNO) on natural, trace elementundoped and volatile-rich sediments (pelite and marlstone). Experiments were conducted with variable water (5 to 10 wt% H2Oin) and sulphur (0, 1 and 2 wt% Sin) contents. Silicate melts produced by the fluid-present melting of pelite range from trondhjemitic to granitic compositions, are broadly peraluminous and coexist with garnet + kyanite ± phengite ± quartz + rutile. Those produced by the fluid-present melting of marlstone are sodic (granodioritic composition), metaluminous to slightly peraluminous and coexist with garnet ± epidote ± clinopyroxene ± kyanite ± quartz + rutile. Sulphur addition at ƒO2 ~ NNO leads to sulphide precipitation. Thus, iron (Fe2+) contents decrease (Mg# increase) in the system and this strongly impacts phase relationships: garnet, epidote and phengite are consumed in favour of pyroxens, biotite and amphibole. Trace-element distribution between silicate melt and starting bulk for S-doped systems is largely impacted (e.g. rare earth elements fractionation). On the basis of data obtained in mantle xenoliths(Grenada, Lesser Antilles) and from geochemical modelisations, we are suggesting that a contribution in the mantle wedge of 1 to 3 % of trondhjemitic/granitic melts derived from pelitic sediments (≤ 1 wt% Sin) mayaccount for the composition of basalts in the southern part of Lesser Antilles (Grenada and Grenadines).

Subduction

Éléments volatils

Soufre

Sédiments

Fusion partielle hydratée

Partage des éléments en traces

Petites Antilles

Grenade

Xénolites mantelliques

Métasomatose

Subduction

Volatile elements

Sulphur

Sediments

Hydrous partial melting

Trace-element partitioning

Lesser Antilles

Grenada

Mantle xenoliths

Metasomatism

552.1

CALFRAC: Programa que quantifica o processo de cristalização fracionada e sua aplicação ao estudo de soleiras da Bacia do Paraná (Estado do Paraná) / CALFRAC: Program to quantify fractional crystallization processes and your application in the study Paraná Basin sills (Paraná).

Galdino, Luciano

06 December 2010

Foi desenvolvido um programa computacional escrito na linguagem de programação C++ denominado CALFRAC para quantificar o processo de cristalização fracionada em sistemas ígneos, utilizando para isso as concentrações dos elementos maiores, menores e traços. O algoritmo moderniza, torna mais eficiente e aprimora os programas publicados na literatura e possui a grande vantagem de poder calcular, automaticamente, todas as possíveis combinações de evolução das amostras envolvidas na diferenciação, além de associar aos cálculos os elementos-traço, os quais servem para confirmar os resultados sugeridos pelos ajustes dos elementos maiores e menores. O CALFRAC calcula a fração total subtraída do magma inicial e as frações referentes a cada mineral fracionado através do cálculo do balanço de massa, utilizando as concentrações de elementos maiores e menores, empregando os métodos de estimativa de máxima verossimilhança e dos multiplicadores de Lagrange para a resolução por mínimos quadrados, enquanto para os elementos-traço o programa utiliza a Equação de Rayleigh. Em ambos os casos a média dos erros percentuais relativos é usada como indicação das melhores evoluções. O programa CALFRAC foi aplicado na investigação da possibilidade de diferenciação por cristalização fracionada em amostras de soleiras de diabásio da Bacia do Paraná, que ocorrem nos municípios de Salto do Itararé, Ponta Grossa, Prudentópolis, Rebouças, Irati, Reserva e Jaguariaíva (PR), as quais foram coletadas para essa finalidade. Nas 33 amostras coletadas foram realizadas determinações de elementos maiores, menores e traços, incluindo terras raras, empregando-se os métodos de Fluorescência de Raios X e Ativação Neutrônica. Os resultados fornecidos pelo programa foram insatisfatórios, não sendo possível estabelecer um percurso de diferenciação das rochas mais primitivas para as mais diferenciadas das intrusões, devido ao fato de que provavelmente muitas das amostras analisadas representam a mistura de magmas com porções contendo acumulação de fases minerais causada pelo próprio processo de cristalização fracionada in situ. / CALFRAC is a computer program written in C++ programming language developed to quantify fractional crystallization processes in igneous systems. Major, minor and trace element concentrations are used as input for calculations. The new algorithm enhances and makes the program more efficient than those published in the literature. Besides it is capable to automatically calculating all possible rock sample combinations involving differentiation by fractional crystallization process, using in addition trace element concentrations to corroborate the results obtained by the fitting of major and minor element abundances. CALFRAC calculates the total fraction subtracted from the original magma and the percentage of each fractionated mineral by solving least-squares mass balance equations based on major and minor element concentrations. The methods of maximum likelihood estimate and Lagrange multipliers are used to solve the equations, whereas for the quantification of trace elements the program uses the Rayleigh Equation. In both cases the mean relative percentage errors is used as an indication of the best results. The program CALFRAC was applied to investigate the possibility of differentiation by fractional crystallization of diabase samples from Paraná Basin sills, which outcrop nearby Salto do Itararé, Ponta Grossa, Prudentópolis, Rebouças, Irati, Reserva and Jaguariaíva towns (PR). The 33 collected samples were analyzed for major, minor and trace elements, including rare earths, employing X-Ray Fluorescence and Neutron Activation methods. The program output was not satisfactory, since it was not possible to establish a differentiation sequence from the more primitive to the more differentiated rocks of the intrusions. This is probably due to the fact that many rock samples are the result of mixing of magmatic melts with mineral accumulation zones, which were formed by the in situ fractional crystallization process.

Análise por ativação neutrônica

Computer program

Cristalização fracionada

Fractional Crystallization

Major and minor element modeling

Modelagem de elementos maiores e menores

Modelagem de elementos traços

Neutron activation analysis

Paraná Magmatic Province

Programa computacional

Província Magmática do Paraná

sills

Soleiras

Trace element modeling

Contenu total en éléments traces de sols forestiers du Québec méridional

Masse, Jacynthe

06 1900

Les sols forestiers constituent un réservoir considérable d’éléments nutritifs disponibles pour soutenir la productivité forestière. Ces sols contiennent aussi une quantité, encore inconnue à ce jour, d’éléments traces biodisponibles provenant de sources anthropiques ou naturelles. Or, plusieurs de ces éléments recèlent un potentiel toxique pour les organismes vivants. Ainsi, la quantification de la concentration et du contenu total en éléments traces des sols forestiers s’avère nécessaire afin d’évaluer les impacts des perturbations sur la qualité des sols. Les objectifs de ce projet de recherche sont: 1) de mesurer le contenu total en éléments traces en phase solide (Ag, As, Ba, Cd, Ce, Co, Cr, Cu, Mn, Ni, Pb, Rb, Se, Sr, Tl, V, Y, Zn) des divers horizons de sols d’écosystèmes forestiers du Québec méridional; 2) d’établir des liens significatifs entre la fraction soluble dans l’eau des éléments traces et les propriétés des horizons de sols et; 3) d’évaluer le rôle de la proximité d’un centre urbain sur les contenus en éléments traces. Pour répondre à ces objectifs, quatre profils de sols situés dans la région de St-Hippolyte et deux situés dans la région de Montréal furent échantillonnés jusqu'à l'atteinte du matériel parental. Les résultats de ce projet de recherche ont révélé que le contenu total en éléments traces présents dans les profils de sols se retrouve en grande partie dans les fragments grossiers du sol. Il a été démontré que la teneur en carbone organique, les complexes organométalliques et les oxydes de fer et d’aluminium dictent la distribution en profil de la majorité des éléments traces étudiés. Finalement, il fut prouvé que la région de Montréal présente des niveaux de contamination en éléments traces (Ag, As, Ba, Cu, Mn, Pb, Rb, Se, Sr, Tl et Zn) supérieurs à ceux rencontrés dans les Laurentides. / Forest soils represent an important stock of nutrients available to sustain forest productivity. They also contain an amount, still unknown, of trace elements inherited from natural or anthropogical sources. Many of these trace elements can be toxic to living organisms. Thereby, quantification of the concentration and the total content of trace elements in forest soils is necessary to asses the impact of these elements on soil quality. The specific objectives of this research project are: 1) to measure the total content of trace elements in solid phase (Ag, As, Ba, Cd, Ce, Co, Cr, Cu, Mn, Ni, Pb, Rb, Se, Sr, Tl, V, Y, Zn) of various soil horizons in two forest ecosystems of southern Quebec, 2) to establish significant correlations between the bioavailable fraction (water-soluble) of trace elements and soil horizons properties and 3) to compare the trace element stock of two Canadian Shield’s forest soil with those of similar soils situated in the Montreal area. To achieve these goals four soil profiles situated in the pristine region of St-Hippolyte and two in the urban area of Montréal, were excavated down to the parent material. The results of this research have established that the trace element’s total stock is mainly concentrated in coarse fragments of the soil. Multivariate statistical analyses revealed significant links between organic carbon, organometallic complexes as well as Fe-Al oxides and the distribution of trace element in soil profiles. Finally, it was proved that Montreal’s soil contained more trace element (Ag, As, Ba, Cu, Mn, Pb, Rb, Se, Sr, Tl et Zn) than Canadian Shield’s soils.

Éléments traces

Sols forestiers

Contamination

Milieux urbains

Variations spatiales

Bouclier Canadien

Trace element

Forest soil

Mobility

Montreal

Spatial variation

Canadian shield

ペリドタイト部分溶融における粒界濃集元素の挙動

鈴木, 和博, 諏訪, 兼位, 榎並, 正樹

03 1900

科学研究費補助金 研究種目:一般研究(B) 課題番号:63460053 研究代表者:日比野 倫夫 研究期間:1988-1989年度

微量元素

ペリドタイト

マグマ

部分溶融

鉱物粒界

インコンパチブル元素

玄武岩

Basalt

Grain-boundary

Incompatible element

Peridotite

Magma

チタナイト

Trace element

希土類元素

Partial melting

Trace Metal Composition Of Particulate Matter In The Water Column And Sediments Of The Black Sea And Regional Rivers

Yigiterhan, Oguz -

01 July 2005

The Black Sea, with its oxic, suboxic and anoxic layers, provides a unique environment for studying how biological and geochemical processes affect the composition of particulate matter. The elemental composition of particles in the Black Sea is controlled by their origin and sources. Particles from rivers are dominated by aluminosilicate material that has compositions similar to the earth&rsquo / s crust. In general this material is relatively unreactive. Biological processes in the upper oxic and suboxic layers of the water column result in enrichments of elements which used as nutrients. Cu, Ba and Mo have been proposed as tracers for planktonic material and new production. Geochemical processes like manganese and iron recycling between oxidized and reduced forms, metal sulfide formation, and biogenic matter decomposition can have a large impact on the composition of particles in the suboxic and anoxic zones. The aim of this thesis was to study the composition of particles suspended in the water column of the Black Sea, in regional rivers draining into the Black Sea, and of particles deposited in these rivers and Black Sea sediments. The objectives were to determine the chemical composition and distribution of particles supplied by rivers and produced in the Black Sea, and compare with those particles buried in the sediments. The chemical distributions can help us to understand the biogeochemical processes taking place. The ultimate goal is to understand if there is a chemical signature that characterizes sediments deposited in anoxic basins that can be used to determine if ancient sedimentary rocks were deposited under such conditions. Water column filter samples were collected from the central western basin and along transects to the SW shelf regions during several research cruises of R/V Bilim and R/V Knorr in the Black Sea. Samples were taken by using both in situ large volume filtration systems and on deck vacuum filtration of discrete samples. River samples were collected by hand from the bank of four Turkish rivers and the Danube River. Sediment samples were obtained from 0 - 25 cm interval of a box core from the deep western basin. All samples were digested and analyzed by inductively coupled plasma - mass spectrometry and combination of atomic absorption (flame &amp / graphite furnace) instruments. The elements analyzed included Al, Ti, V, Cr, Mn, Fe, Ni, Co, Cu, Zn, Mo, Ag, Cd, Ba, Pb, and U. Great care was taken to avoid contamination and to obtain the highest level of precision and accuracy. The precision was typically about 5% for most elements. The accuracy, determined using standard reference materials, was also usually better than 5%. Another goal of this research was to determine the metal concentrations and best digestion methods using different types of filter materials. Blank filters were digested and analyzed and the analyses of various filter blanks are presented in the thesis. The analyses showed that the particulate matter data from Turkish Rivers were very similar to the composition of global average riverine particulate material and global average crust. The Danube River had elevated concentrations for some elements that were probably due to anthropogenic contamination. The Turkish river samples were closer to (but still higher than) the averages for the world&rsquo / s rivers but many elements in the Danube were much higher. These high values determined for major elements in the Danube samples strongly suggest considerable contamination of the Danube as compared to the Turkish Rivers. The Danube River samples were especially enriched in Pb, Zn, Ag, Cu, Cd, and Mn and slightly enriched with Cr and Ni. The first five elements, in particular, are well known indicators of pollution. The particulate matter in the water column of the Black Sea was influenced by lithogenic input from rivers, biological processes and geochemical processes. In order to examine the biogeochemical processes extensively, all the data were plotted as Metal/Al (Me/Al) ratios and compared with the ratios of the average crust and Turkish Rivers. Deviations were used to examine the anomalies due to biological and geochemical processes. In addition, the Al content of individual sample and the Me/Al ratio of crust or rivers were used to subtract the lithogenic component from the total composition. Enrichments due to biological processes were observed for Ba &gt / Fe &gt / Cr &gt / Mn &gt / Zn &gt / Ni &gt / Cu &gt / Mo &gt / V &gt / Co &gt / Cd &gt / U for the overall biogenic composition. Enrichments due to biology are most evident for Ba, Fe, Cr and Mn. This is a unique data set as there have been few previous analyses of biological enrichment for most of these elements. The results of particulate matter analyses showed that some elements including U, V, Cr, Ni, Cu, Co, Zn, Ba and Mo were enriched in the set of samples from the euphotic zone. Redox cycling in the suboxic zone was observed, as expected, for Mn and Fe, whose oxides play an important role in scavenging processes. The redox dependent processes in the suboxic &ndash / anoxic interface influence the vertical distribution of U, Ni, Co, Cu, Zn, Ba and possibly Mo, Cr and V. Elements influenced by sulfide formation in the anoxic layer are Fe, Cr, Ni, Co, Mo, and presumably Ag. The sediment data were also examined based on the same approaches. The elements Zn, Pb, U and Cd decreased with sediment depth over the top 5 cm suggesting that they were remobilized out of the sediments. In general the sediments from the Black Sea have Me/Al ratios very similar to local Turkish Rivers and average crust. There is no unique sediment signature (except possibly for Mo) indicating that these sediments were deposited under sulphidic conditions. This study does not support the hypothesis that the composition of ancient rocks can be used to characterize the environment of deposition.

Q General Science 1-385

Spårämnestillsatsers påverkan på biogasproduktionen vid anaerob rötning av avloppsslam : Behovet av spårämnen vid slamrötning på Karlstads reningsverk / The influence of trace element addition on the biogas production from anaerobic digestion of sewage sludge : The need for trace elements in the digestion of sewage sludge at Karlstads wastewater treatment plant

Fokkema, Maaike

January 2018

Sverige har som mål att endast använda fossilfria bränslen inom fordonsflottan till år 2030. Ett av dessa fossilfria bränslen är biogas som bland annat produceras på Karlstads reningsverk, Sjöstadsverket. Sjöstadsverket planerar att bygga ut sin slammottagningsstation för att kunna ta emot mer slam. I samband med detta finns det ett intresse av att undersöka effektiviseringsmöjligheter inom biogasproduktionen. Ett vanligt förekommande sätt att öka biogasproduktionen är genom tillsatser av olika spårämnen. I detta arbete har därför tillsatser av spårämnena järn, kobolt, nickel och magnesium undersökts genom termofila småskaliga rötningsförsök i satsreaktorer. Tillsatserna har även undersökts i kombination med det komplexbildande ämnet EDTA för att undersöka om den biologiska tillgängligheten påverkar vid rötning av avloppsslam. Förutom rötningsförsök har även en korrelationsanalys genomförts där olika faktorer som kan påverka biogasproduktionen undersökts för år 2017. Resultaten av rötningsförsöken visar att inga tillsatser av järn, magnesium, nickel eller kobolt kommer öka biogasproduktionen vid Sjöstadsverket. Istället har biogasproduktionen hämmats vid två av tre rötningsförsök. Dessa resultat indikerar att organismerna i rötningsanläggningen på Sjöstadsverket inte har någon brist på spårämnen. Inte heller tillsatser av EDTA ökade biogasproduktionen vilket visar att det inte heller finns brist på biologiskt tillgängliga spårämnen. Resultaten från rötningsförsöken styrks av korrelationsanalysen eftersom det inte heller finns några tecken på korrelation mellan biogasproduktion och de nämnda spårämnena. Resultaten av korrelationsanalysen visar att pH ut ur rötningsanläggningen kan ha en negativ inverkan på biogasproduktionen vid Sjöstadsverket. Resultaten indikerar att pH blir för högt i anläggningen, något som även påvisats vid rötningsförsöken. Ett högre flöde in i anläggningen kan sänka pH-värdet enligt vidare korrelationsstudier. Detta har även kunnat påvisas vid rötningsförsöken där pH blev lägre vid en kortare uppehållstid. Eftersom Sjöstadsverket baserar sin uppehållstid på en stabil volym i rötkamrarna bör det alltså vara möjligt att öka biogasproduktionen genom att öka flödet in i rötningsanläggningen, vilket kommer ske när den nya slammottagningsstationen sätts i bruk. Eftersom dessa slutsatser främst är baserade på korrelationer rekommenderas vidare studier där pH-värdets och uppehållstidens inverkan på biogasproduktionen vid Sjöstadsverket undersöks närmare. / The Swedish government has set a national goal to have no vehicles running on fossil fuels in year 2030. One of the fuels that can replace the fossil fuels of today is biogas. The biggest wastewater treatment plant in Karlstad, called Sjöstadsverket, is already producing biogas and is expanding to receive more sludge in the future. Because of this, Sjöstadsverket wants to investigate the possibility of a more effective biogas production. A common way to improve biogas production is trace element additives. Therefor the addition of cobalt, nickel, iron and magnesium has been investigated through small scale thermophilic anaerobic digestion trials in batch reactors. The trace elements have also been added in combination with EDTA to investigate the bioavailability of the trace elements. In addition to these experiments a correlation analysis was performed where different factors that might influence the biogas production were investigated for year 2017. The results from the digestion trials prove that no addition of iron, magnesium, cobalt or nickel will increase the biogas production. Instead, the biogas production was inhibited during two out of three experiments. These results indicate that the organisms in the digester at Sjöstadsverket already have a sufficient amount of trace elements. The addition of EDTA did not increase the biogas production either which indicates that the trace elements also are bioavailable to a sufficient extent. The results from the digestion trials are validated by the correlation analysis because no correlation could be found between the biogas production and the investigated trace elements. The results from the correlation analysis show that the pH-level affects the biogas production negatively. The results indicate that the pH-level is to high, something that was also observed during the digestion trials. A higher flow rate into the digesters could lower the pH-levels according to further correlation studies. This has also been observed during the digestion trials where a shorter retention time lowered the pH-levels. Because Sjöstadsverket bases their retention time on a stable volume in the digesters, it could be possible for them to increase the biogas production by increasing the flow rates, which will happen when they start receiving more sludge. Because these conclusions are mainly based on correlations, further studies of the influence of pH-levels and retention times on the biogas production at Sjöstadsverket are recommended.

anaerobic digestion

biogas

sewage sludge

trace element addition

nickel

cobalt

iron

magnesium

EDTA

correlation analysis

pH

retention time

flow rate

mercury

lead

rötning

biogas

avloppsslam

spårämnestillsatser

nickel

kobolt

järn

magnesium

EDTA

korrelationsanalys

pH

uppehållstid

flöde

kvicksilver

bly

Water Treatment

Vattenbehandling

Fracionamento geoquímico de elementos-traço em sedimentos do sistema de ressurgência de Cabo Frio (Rio de Janeiro) nos últimos 8.000 anos

Moreira Ramírez, Manuel Antonio

12 March 2018

Submitted by Biblioteca de Pós-Graduação em Geoquímica BGQ (bgq@ndc.uff.br) on 2018-03-12T17:39:30Z No. of bitstreams: 1 Tese Manuel Moreira.pdf: 26683391 bytes, checksum: 22f4cca548ed444677c5428a580b351d (MD5) / Made available in DSpace on 2018-03-12T17:39:30Z (GMT). No. of bitstreams: 1 Tese Manuel Moreira.pdf: 26683391 bytes, checksum: 22f4cca548ed444677c5428a580b351d (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Universidade Federal Fluminense. Instituto de Química. Programa de Pós-Graduação em Geoquímica, Niterói, RJ / A acumulação dos elementos-traço nos sedimentos desempenha um importante papel na ciclagem destes elementos nos ambientes marinhos, associado a variáveis formas de retenção no reservatório sedimentar, em diferentes escalas temporais. No presente estudo foi avaliado o fracionamento geoquímico de Fe, Mn, As, Cd, Co, Cr, Cu, Mo, Ni, Pb e Zn entre as frações solúveis em HCl, associada à pirita (FeS2) e associada à fração orgânica, como forma de elucidar os processos que determinam a acumulação destes elementos nos sedimentos da plataforma continental do Sistema de Ressurgência de Cabo Frio (SRCF) nos últimos 8.000 anos. Foi observado que o fracionamento dos elementos Fe, Mn, As, Cr, Ni, Pb e Zn apresenta uma maior proporção na fração solúvel em HCl nos três testemunhos sedimentares coletados ao longo da plataforma continental. O Cu em todas as estações apresentou uma maior proporção na fração da matéria orgânica. O Cd (plataforma interna) e o Pb (plataforma externa) apresentaram uma fração da matéria orgânica importante. O Mo apresentou uma fração pirítica mais importante. O fracionamento geoquímico demonstrou que as formas nas quais os elementos foram acumulados, indicam fortemente influência da diagênese sedimentar. As concentrações de Fe e de S pirítico não foram fatores limitantes no grau de piritização dos elementos-traço. A associação de elementos-traço, tanto à fração ligada à MO quanto à fração ligada à pirita, contribuiu para determinar a retenção de elementos nos sedimentos. Quanto mais intensos foram os processos de re-oxidação do ciclo do S (indicados pela assinatura isotópica da pirita, δ34S), maior foi o grau de piritização do Pb, ao contrário do encontrado para Fe, Cu e Mo, em áreas específicas da plataforma. A estabilização do nível do mar foi o principal evento paleo-oceanográfico determinando a variação vertical da acumulação nos últimos 8.000 anos cal AP, sendo que a variabilidade dos fluxos dos elementos estudados (em relação ao somatório das frações não-detríticas obtidas na extração sequencial) não tendeu a acompanhar a variabilidade do fracionamento geoquímico. Mesmo sob condições oxidantes da coluna d’água, pode ser encontrado um sinergismo da associação à MO e à pirita, contribuindo para determinar a retenção de elementos como Cd, Co, Cu, Mo e Pb nos sedimentos / The accumulation of trace elements in the sediments plays an important role in the cycling of these elements in marine environments, associated with different forms of retention in the sedimentary reservoir, at different time scales. In the present study, the geochemical fractionation of Fe, Mn, As, Cd, Co, Cr, Cu, Mo, Ni, Pb and Zn was evaluated between the fractions soluble in HCl, associated with pyrite (FeS2) and associated with the organic fraction, To elucidate the processes that determine the accumulation of these elements in sediments of the continental shelf of the Cabo Frio Upwelling System (CFUS) in the last 8,000 years. It was observed that the fractionation of the elements Fe, Mn, As, Cr, Ni, Pb and Zn presents a higher proportion in the soluble fraction in HCl in the three sediment cores collected along the continental shelf. Cu in all seasons presented a higher proportion in the fraction of organic matter. The Cd (inner shelf) and the Pb (outer shelf) presented a fraction of the important organic matter. Mo presented a more important pyritic fraction. Geochemical fractionation has shown that the forms in which the elements are being accumulated are strongly influenced by sedimentary diagenesis. The concentrations of Fe and S pyritic were not limiting factors in the degree of piritization of trace elements. The association of trace elements to the fraction bound to the MO and to the fraction bound to pyrite contributed to determine the retention of elements in the sediments. The more intense the S-cycle re-oxidation processes (indicated by the isotopic signature of pyrite, δ34S), the higher the Pb pyritization degree, as opposed to Fe, Cu and Mo, in specific areas of the shelf. The stabilization of the sea level was the main paleo-oceanographic event determining the vertical variation of the accumulation in the last 8,000 years BP. The variability of the fluxes of the elements studied (in relation to the sum of the non-detrital fractions obtained in the sequential extraction) did not tend to follow the variability of the geochemical fractionation. Even under oxidizing conditions of the water column, a synergism of the association with OM and pyrite can be found, contributing to determine the retention of elements such as Cd, Co, Cu, Mo and Pb in the sediments

Grau de Piratização

Biogeoquímica de elementos-traço

Plataforma continental

Sistema de Ressurgência de Cabo Frio

Metal-traço

Sedimento

Piratização

Plataforma continental

Ressurgência (oceanografia)

Cabo Frio (RJ)

Produção intelectual

Degree of pyritization

Trace element biogeochemistry

Continental shelf

Cabo Upwelling System

CALFRAC: Programa que quantifica o processo de cristalização fracionada e sua aplicação ao estudo de soleiras da Bacia do Paraná (Estado do Paraná) / CALFRAC: Program to quantify fractional crystallization processes and your application in the study Paraná Basin sills (Paraná).

Luciano Galdino

06 December 2010

Foi desenvolvido um programa computacional escrito na linguagem de programação C++ denominado CALFRAC para quantificar o processo de cristalização fracionada em sistemas ígneos, utilizando para isso as concentrações dos elementos maiores, menores e traços. O algoritmo moderniza, torna mais eficiente e aprimora os programas publicados na literatura e possui a grande vantagem de poder calcular, automaticamente, todas as possíveis combinações de evolução das amostras envolvidas na diferenciação, além de associar aos cálculos os elementos-traço, os quais servem para confirmar os resultados sugeridos pelos ajustes dos elementos maiores e menores. O CALFRAC calcula a fração total subtraída do magma inicial e as frações referentes a cada mineral fracionado através do cálculo do balanço de massa, utilizando as concentrações de elementos maiores e menores, empregando os métodos de estimativa de máxima verossimilhança e dos multiplicadores de Lagrange para a resolução por mínimos quadrados, enquanto para os elementos-traço o programa utiliza a Equação de Rayleigh. Em ambos os casos a média dos erros percentuais relativos é usada como indicação das melhores evoluções. O programa CALFRAC foi aplicado na investigação da possibilidade de diferenciação por cristalização fracionada em amostras de soleiras de diabásio da Bacia do Paraná, que ocorrem nos municípios de Salto do Itararé, Ponta Grossa, Prudentópolis, Rebouças, Irati, Reserva e Jaguariaíva (PR), as quais foram coletadas para essa finalidade. Nas 33 amostras coletadas foram realizadas determinações de elementos maiores, menores e traços, incluindo terras raras, empregando-se os métodos de Fluorescência de Raios X e Ativação Neutrônica. Os resultados fornecidos pelo programa foram insatisfatórios, não sendo possível estabelecer um percurso de diferenciação das rochas mais primitivas para as mais diferenciadas das intrusões, devido ao fato de que provavelmente muitas das amostras analisadas representam a mistura de magmas com porções contendo acumulação de fases minerais causada pelo próprio processo de cristalização fracionada in situ. / CALFRAC is a computer program written in C++ programming language developed to quantify fractional crystallization processes in igneous systems. Major, minor and trace element concentrations are used as input for calculations. The new algorithm enhances and makes the program more efficient than those published in the literature. Besides it is capable to automatically calculating all possible rock sample combinations involving differentiation by fractional crystallization process, using in addition trace element concentrations to corroborate the results obtained by the fitting of major and minor element abundances. CALFRAC calculates the total fraction subtracted from the original magma and the percentage of each fractionated mineral by solving least-squares mass balance equations based on major and minor element concentrations. The methods of maximum likelihood estimate and Lagrange multipliers are used to solve the equations, whereas for the quantification of trace elements the program uses the Rayleigh Equation. In both cases the mean relative percentage errors is used as an indication of the best results. The program CALFRAC was applied to investigate the possibility of differentiation by fractional crystallization of diabase samples from Paraná Basin sills, which outcrop nearby Salto do Itararé, Ponta Grossa, Prudentópolis, Rebouças, Irati, Reserva and Jaguariaíva towns (PR). The 33 collected samples were analyzed for major, minor and trace elements, including rare earths, employing X-Ray Fluorescence and Neutron Activation methods. The program output was not satisfactory, since it was not possible to establish a differentiation sequence from the more primitive to the more differentiated rocks of the intrusions. This is probably due to the fact that many rock samples are the result of mixing of magmatic melts with mineral accumulation zones, which were formed by the in situ fractional crystallization process.

Análise por ativação neutrônica

Cristalização fracionada

Modelagem de elementos maiores e menores

Modelagem de elementos traços

Programa computacional

Província Magmática do Paraná

Soleiras

Computer program

Fractional Crystallization

Major and minor element modeling

Neutron activation analysis

Paraná Magmatic Province

sills

Trace element modeling