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Reworking the Gawler Craton: metamorphic and geochronologic constraints on palaeoproterozoic reactivation of the southern Gawler Craton, Australia.Dutch, Rian A. January 2009 (has links)
The Gawler Craton in South Australia consists of an Archaean to Palaeoproterozoic core surrounded and intruded by a series of Palaeo- to Mesoproterozoic metasediments and igneous suites. The region has experienced a protracted c. 1700 Myr tectonic history from the Archaean through to the Mesoproterozoic, experiencing numerous cycles of deformation, magmatism and basin development. Despite hosting a number of mineral deposits, including the immense Olympic Dam iron oxide-copper-gold deposit, the tectonothermal evolution of the Gawler Craton remains poorly constrained. A significant ambiguity in our current understanding of the geological framework of the Gawler Craton revolves around the timing and spatial distribution of the tectonic events within the craton and their metamorphic evolution. This study addresses some of this ambiguity by unravelling the timing and tectonothermal evolution of the reworked southern Gawler Craton, using a combination of structural and metamorphic analysis, coupled with targeted geochronology. These methods have been applied to three locations representing different lithologies across the southern Gawler Craton. Putting absolute time into structural and metamorphic analysis is a vital tool for unravelling the development of ancient and modern orogenic systems. Electron Probe Micro-Analysis (EPMA) chemical dating of monazite provides a useful method of obtaining good precision age data from monazite bearing assemblages. This technique was developed at the University of Adelaide in order to constrain the timing of reworked assemblages from the southern Gawler Craton. EPMA measurements carried out on samples of known age, from Palaeoproterozoic to Ordovician, produce ages which are within error of the isotopically determined ages, indicating the validity of the developed setup. This technique, together with SHRIMP monazite and titanite and garnet Sm-Nd geochronology, was used on selected samples from the southern Gawler Craton to determine the timing of high-grade metamorphism and deformation. The results show that the Sleaford Complex records evidence of an early D₁event during the c. 2450 Ma Sleaford Orogeny recorded within structural boudins. The majority of the data indicates that the region underwent subsequent reworking and thorough overprinting during the 1725–1690 Ma Kimban Orogeny. In the Coffin Bay region, Palaeoproterozoic peraluminous granites of the Dutton Suite are reworked by a series of migmatitic and mylonitic shear zones during the Kimban Orogeny. Peak metamorphic conditions recorded in mafic assemblages indicate conditions of 10 kbar at 730°C. The post-peak evolution is constrained by partial to complete replacement of garnet – clinopyroxene bearing mafic assemblages by hornblende – plagioclase symplectites, which record conditions of c. 6 kbar at 700°C, implying a steeply decompressional exhumation path. The Shoal Point region consists of a series of reworked granulite-facies metapelitic and metaigneous units which belong to the late Archaean Sleaford Complex. Structural evidence indicates three phases of fabric development with D₁retained within boudins, D₂consisting of a series upright open to isoclinal folds producing an axial planar fabric and D₃, a highly planar vertical high-strain fabric which overprints the D₂ fabric. Geochronology constrains the D₁ event to the c. 2450 Ma Sleafordian Orogeny while the D₂the D₃events are constrained to the 1730–1690 Ma Kimban Orogeny. P-T pseudosections constrain the metamorphic conditions for the Sleafordian Orogeny to between 4.5–6 kbar and 750–780 °C. Subsequent Kimban-aged reworking reached peak metamorphic conditions of 8–9 kbar at 820–850 °C during the D₂ event. Followed by near isothermal decompression to metamorphic conditions <6 kbar and 790–850 °C associated with the development of the D₃high-strain fabric. The Pt Neill and Mine Creek regions are located in the core and on the flank of the crustal scale Kalinjala Shear Zone, which forms the main structural element of the poorly exposed Kimban Orogen. Samples record a similar structural development with a dextrally transpressive system resulting in a layer parallel migmatitic gneissic to mylonitic KS₁ fabric which was subsequently deformed and reworked by upright folds and discrete KD₂ east-side-down sub-solidus mylonitic shear zones during east-west compression. Geochronology constrains the timing of deformation and metamorphism to the Kimban Orogeny between 1720 and 1700 Ma. Metamorphic P-T analysis and pseudosections constrain the peak M₁ conditions in the core of the shear zone to 10–11 kbar at c. 800 °C reflecting lower crustal conditions at depths of up to 30 km. On the flank of the shear zone the M₁ conditions reached 6–7 kbar at 750 °C followed by sub-solidus reworking during KD₂ at conditions of 3–4 kbar at 600–660 °C, suggesting a maximum burial of <24 km. Cooling rates suggest that the core of the shear zone cooled at rates in excess of 40–80 °CMa⁻¹ while the flank underwent much slower cooling at < 10°CMa⁻¹. The rapid cooling and inferred decompression in the core of the shear zone reflects rapid burial and exhumation of lower-crustal material into the mid-crust along the Kalinjala Shear Zone. The absence of evidence for extension indicates that differential exhumation and the extrusion of lower-crustal material into the mid-crust was driven by transpression along the shear zone and highlights the role of transpression in creating large variations in vertical exhumation over relatively short lateral extents. Garnet is a vital mineral for determining constrained P-T-t paths as it can give both the P-T and t information directly. However, estimates of the closure temperature of the Sm-Nd system in garnet vary considerably leading to significant uncertainties in the timing of peak conditions. Five igneous garnets of varying size from an undeformed 2414 ± 6 Ma garnet – cordierite bearing s-type granite from the Coffin Bay region, that were subjected to high-T reworking during the Kimban Orogeny, have been dated to examine their diffusional behaviour in the Sm-Nd system. Garnets were compositionally profiled and then dated. A direct correlation exists between grain size and amount of resetting highlighting the effect of grain size on closure temperature. Major element and REE traverses reveal homogonous major element profiles and relict igneous REE profiles. The retention of REE zoning and homogenisation of major element zoning suggests that diffusion rates of REE’s are considerably slower than that of the major cations, in disagreement with recent experimental determinations of the diffusion rates of REE in garnet. The retention of REE zoning and the lack of resetting in the largest grains suggests that Sm-Nd closure temperature in garnet is a function of grain-size, thermal history and REE zoning in garnet. The findings of this study provide the first temporally constrained tectonothermal model of the evolution of the southern Gawler Craton. The P-T conditions obtained from the earliest D₁ fabric provide the first quantitative constraints on the P-T conditions of the southern Sleafordian Orogeny. The P-T-t evolution determined for the 1725–1690 Ma Kimban Orogeny indicate it developed along a clockwise P-T path, and dominates the structural and metamorphic character of the southern Gawler Craton. The large variations in exhumation over short lateral extents reflect the exhumation of lower crustal rocks during the Kimban Orogeny driven by transpression during the development of a regional transpressional ‘flower structure’. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1372052 / Thesis (Ph.D.) - University of Adelaide, School of Earth and Environmental Sciences, 2009
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Reworking the Gawler Craton: metamorphic and geochronologic constraints on palaeoproterozoic reactivation of the southern Gawler Craton, Australia.Dutch, Rian A. January 2009 (has links)
The Gawler Craton in South Australia consists of an Archaean to Palaeoproterozoic core surrounded and intruded by a series of Palaeo- to Mesoproterozoic metasediments and igneous suites. The region has experienced a protracted c. 1700 Myr tectonic history from the Archaean through to the Mesoproterozoic, experiencing numerous cycles of deformation, magmatism and basin development. Despite hosting a number of mineral deposits, including the immense Olympic Dam iron oxide-copper-gold deposit, the tectonothermal evolution of the Gawler Craton remains poorly constrained. A significant ambiguity in our current understanding of the geological framework of the Gawler Craton revolves around the timing and spatial distribution of the tectonic events within the craton and their metamorphic evolution. This study addresses some of this ambiguity by unravelling the timing and tectonothermal evolution of the reworked southern Gawler Craton, using a combination of structural and metamorphic analysis, coupled with targeted geochronology. These methods have been applied to three locations representing different lithologies across the southern Gawler Craton. Putting absolute time into structural and metamorphic analysis is a vital tool for unravelling the development of ancient and modern orogenic systems. Electron Probe Micro-Analysis (EPMA) chemical dating of monazite provides a useful method of obtaining good precision age data from monazite bearing assemblages. This technique was developed at the University of Adelaide in order to constrain the timing of reworked assemblages from the southern Gawler Craton. EPMA measurements carried out on samples of known age, from Palaeoproterozoic to Ordovician, produce ages which are within error of the isotopically determined ages, indicating the validity of the developed setup. This technique, together with SHRIMP monazite and titanite and garnet Sm-Nd geochronology, was used on selected samples from the southern Gawler Craton to determine the timing of high-grade metamorphism and deformation. The results show that the Sleaford Complex records evidence of an early D₁event during the c. 2450 Ma Sleaford Orogeny recorded within structural boudins. The majority of the data indicates that the region underwent subsequent reworking and thorough overprinting during the 1725–1690 Ma Kimban Orogeny. In the Coffin Bay region, Palaeoproterozoic peraluminous granites of the Dutton Suite are reworked by a series of migmatitic and mylonitic shear zones during the Kimban Orogeny. Peak metamorphic conditions recorded in mafic assemblages indicate conditions of 10 kbar at 730°C. The post-peak evolution is constrained by partial to complete replacement of garnet – clinopyroxene bearing mafic assemblages by hornblende – plagioclase symplectites, which record conditions of c. 6 kbar at 700°C, implying a steeply decompressional exhumation path. The Shoal Point region consists of a series of reworked granulite-facies metapelitic and metaigneous units which belong to the late Archaean Sleaford Complex. Structural evidence indicates three phases of fabric development with D₁retained within boudins, D₂consisting of a series upright open to isoclinal folds producing an axial planar fabric and D₃, a highly planar vertical high-strain fabric which overprints the D₂ fabric. Geochronology constrains the D₁ event to the c. 2450 Ma Sleafordian Orogeny while the D₂the D₃events are constrained to the 1730–1690 Ma Kimban Orogeny. P-T pseudosections constrain the metamorphic conditions for the Sleafordian Orogeny to between 4.5–6 kbar and 750–780 °C. Subsequent Kimban-aged reworking reached peak metamorphic conditions of 8–9 kbar at 820–850 °C during the D₂ event. Followed by near isothermal decompression to metamorphic conditions <6 kbar and 790–850 °C associated with the development of the D₃high-strain fabric. The Pt Neill and Mine Creek regions are located in the core and on the flank of the crustal scale Kalinjala Shear Zone, which forms the main structural element of the poorly exposed Kimban Orogen. Samples record a similar structural development with a dextrally transpressive system resulting in a layer parallel migmatitic gneissic to mylonitic KS₁ fabric which was subsequently deformed and reworked by upright folds and discrete KD₂ east-side-down sub-solidus mylonitic shear zones during east-west compression. Geochronology constrains the timing of deformation and metamorphism to the Kimban Orogeny between 1720 and 1700 Ma. Metamorphic P-T analysis and pseudosections constrain the peak M₁ conditions in the core of the shear zone to 10–11 kbar at c. 800 °C reflecting lower crustal conditions at depths of up to 30 km. On the flank of the shear zone the M₁ conditions reached 6–7 kbar at 750 °C followed by sub-solidus reworking during KD₂ at conditions of 3–4 kbar at 600–660 °C, suggesting a maximum burial of <24 km. Cooling rates suggest that the core of the shear zone cooled at rates in excess of 40–80 °CMa⁻¹ while the flank underwent much slower cooling at < 10°CMa⁻¹. The rapid cooling and inferred decompression in the core of the shear zone reflects rapid burial and exhumation of lower-crustal material into the mid-crust along the Kalinjala Shear Zone. The absence of evidence for extension indicates that differential exhumation and the extrusion of lower-crustal material into the mid-crust was driven by transpression along the shear zone and highlights the role of transpression in creating large variations in vertical exhumation over relatively short lateral extents. Garnet is a vital mineral for determining constrained P-T-t paths as it can give both the P-T and t information directly. However, estimates of the closure temperature of the Sm-Nd system in garnet vary considerably leading to significant uncertainties in the timing of peak conditions. Five igneous garnets of varying size from an undeformed 2414 ± 6 Ma garnet – cordierite bearing s-type granite from the Coffin Bay region, that were subjected to high-T reworking during the Kimban Orogeny, have been dated to examine their diffusional behaviour in the Sm-Nd system. Garnets were compositionally profiled and then dated. A direct correlation exists between grain size and amount of resetting highlighting the effect of grain size on closure temperature. Major element and REE traverses reveal homogonous major element profiles and relict igneous REE profiles. The retention of REE zoning and homogenisation of major element zoning suggests that diffusion rates of REE’s are considerably slower than that of the major cations, in disagreement with recent experimental determinations of the diffusion rates of REE in garnet. The retention of REE zoning and the lack of resetting in the largest grains suggests that Sm-Nd closure temperature in garnet is a function of grain-size, thermal history and REE zoning in garnet. The findings of this study provide the first temporally constrained tectonothermal model of the evolution of the southern Gawler Craton. The P-T conditions obtained from the earliest D₁ fabric provide the first quantitative constraints on the P-T conditions of the southern Sleafordian Orogeny. The P-T-t evolution determined for the 1725–1690 Ma Kimban Orogeny indicate it developed along a clockwise P-T path, and dominates the structural and metamorphic character of the southern Gawler Craton. The large variations in exhumation over short lateral extents reflect the exhumation of lower crustal rocks during the Kimban Orogeny driven by transpression during the development of a regional transpressional ‘flower structure’. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1372052 / Thesis (Ph.D.) - University of Adelaide, School of Earth and Environmental Sciences, 2009
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Rapsódia Paraense para Big Band: uma reelaboração de gêneros do ParáCarvalho, Elienay Gomes January 2010 (has links)
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Previous issue date: 2010 / Este trabalho consiste em um memorial da obra Rapsódia Paraense, a qual foi concebida a partir de cinco gêneros musicais paraenses: carimbó, siriá, retumbão, samba de cacete e lundu marajoara; escolhidos como material pré-composicional, sendo que cada qual foi empregado dentro da obra como tema central de cada seção com o objetivo de sintetizá-los em um só movimento, característico do gênero rapsódia. A revisão da literatura pertinente aborda o significado e contextualização da rapsódia, reelaboração dentro de uma visão prática, os gêneros tradicionais paraenses, a Big Band, a Sam Band Pará e a análise mostrando todos os procedimentos composicionais aplicados à obra. / Salvador
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Fósseis de vertebrados pleistocênicos dos setores central e Sul da planície costeira do Rio Grande do Sul, Brasil: descrição e controles na distribuiçãoCruz, Erick Antal January 2016 (has links)
A presença de depósitos fossilíferos na antepraia e plataforma continental interna foi atribuída às oscilações do nível do mar durante o Quaternário. Hoje em dia, esses depósitos estão sendo erodidos por ondas e correntes e transportados para a praia. O presente trabalho teve como objetivo comparar o setor central e sul da Planície Costeira do Rio Grande do Sul, quantificando e qualificando quanto sua tafonomia, taxonomia e representatividade dos restos esqueletais. Foi coletado um total de 2.820 fósseis, dentre os quais 95% foram coletados no setor sul e apenas 5% foram coletados no setor central. A principal hipótese para essa diferença é a disponibilidade de fósseis na antepraia e plataforma interna. A presença de vários parceis e elevações e depressões submersas na antepraia e plataforma interna do setor sul indica, provavelmente as áreas-fonte de onde os fósseis são erodidos. Em ambos os setores foram identificados duas populações de bioclastos: fósseis nãoidentificados (85%) e fósseis identificados (15%), indicando maior e menor retrabalhamento pelas ondas, respectivamente. As mesmas ordens e restos esqueletais foram identificados em ambos os setores, com exceção de alguns que foram encontrados somente no setor sul. Na fauna marinha, a ordem mais comum foi a Perciformes representada principalmente por tumores ósseos da espécie Pogonias cromis. Dentes de tubarões (Lamniformes e Carcharhiniformes) e raias (Myliobatiformes) foram encontrados apenas no setor sul, devido à presença da espessa konzentrat-lagerstätte de conchas marinhas fósseis, chamada de "Concheiros". Na fauna terrestre, a ordem mais comum foi a Cingulata (principalmente gliptodontídeos do gênero Glyptodon). Os elementos acessórios representados por osteoderms de cingulados foram os restos esqueletais mais abundantes, devido ao grande número de osteodermos que cobre o esqueleto de cingulates e ao pequeno tamanho e forma compacta das osteodermos que favorecem o transporte. Elementos de tamanho pequeno (32-64 mm) e de forma compacta, como osteoderms, dentes e vértebras, são encontrados em maior quantidade e são facilmente transportados. Elementos de tamanho grande (maior que 128 mm) e de forma de lâmina/disco, como ossos longos e elementos cranianos, são encontrados em menor quantidade e são dificilmente transportados. / The presence of fossiliferous deposits in the shoreface and inner continental shelf was attributed to the sea-level oscillations during the Quaternary. Nowadays, these deposits are being eroded by waves and currents and transported onto the beach. The present work aimed to compare the central and southern sectors of the Coastal Plain of Rio Grande do Sul, quantifying and qualifying as its taphonomy, taxonomy and skeletal remains representativeness. A total of 2.820 fossils was collected, among which 95% were collected in the southern sector and only 5% were collected in the central sector. The hypothesis for this difference is the availability of fossils in the shoreface and inner continental shelf. The presence of several sedimentary submerged rocks and submerged elevations and depressions in the shoreface and inner continental shelf of the southern sector indicates probably the source-areas where the fossils are eroded from. In both sectors were identified two populations of bioclasts: non-identified fossils (85%) and identified fossils (15%), indicating greater and less waves reworking, respectively. The same orders and skeletal remains were identified in both sectors, except for some that were only found in the southern sector. In the marine fauna, the most common order was the Perciformes represented mainly by bone tumors of the species Pogonias cromis. Teeth of sharks (Lamniformes and Carcharhiniformes) and rays (Myliobatiformes) were only found in the southern sector due to the presence of the thick konzentrat-lagerstätte of fossil marine shells, called “Concheiros”. In the terrestrial fauna, the most common order was the Cingulata (mostly glyptodontids especially the genre Glyptodon). The accessory elements represented by osteoderms of cingulates were the most abundant skeletal remains, due to the large number of osteoderms that covers the skeleton of cingulates and the small size and compact shape of the osteoderms which favour the transport. Small-size (32-64 mm) and compact-shape elements such as osteoderms, teeth and vertebrae are found in greater quantity and are easily transported. Bigger-sizes (exceeding 128 mm) and blade/disc-shape elements such as long bones and cranial elements are found in less quantity and are hardly transported.
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Fósseis de vertebrados pleistocênicos dos setores central e Sul da planície costeira do Rio Grande do Sul, Brasil: descrição e controles na distribuiçãoCruz, Erick Antal January 2016 (has links)
A presença de depósitos fossilíferos na antepraia e plataforma continental interna foi atribuída às oscilações do nível do mar durante o Quaternário. Hoje em dia, esses depósitos estão sendo erodidos por ondas e correntes e transportados para a praia. O presente trabalho teve como objetivo comparar o setor central e sul da Planície Costeira do Rio Grande do Sul, quantificando e qualificando quanto sua tafonomia, taxonomia e representatividade dos restos esqueletais. Foi coletado um total de 2.820 fósseis, dentre os quais 95% foram coletados no setor sul e apenas 5% foram coletados no setor central. A principal hipótese para essa diferença é a disponibilidade de fósseis na antepraia e plataforma interna. A presença de vários parceis e elevações e depressões submersas na antepraia e plataforma interna do setor sul indica, provavelmente as áreas-fonte de onde os fósseis são erodidos. Em ambos os setores foram identificados duas populações de bioclastos: fósseis nãoidentificados (85%) e fósseis identificados (15%), indicando maior e menor retrabalhamento pelas ondas, respectivamente. As mesmas ordens e restos esqueletais foram identificados em ambos os setores, com exceção de alguns que foram encontrados somente no setor sul. Na fauna marinha, a ordem mais comum foi a Perciformes representada principalmente por tumores ósseos da espécie Pogonias cromis. Dentes de tubarões (Lamniformes e Carcharhiniformes) e raias (Myliobatiformes) foram encontrados apenas no setor sul, devido à presença da espessa konzentrat-lagerstätte de conchas marinhas fósseis, chamada de "Concheiros". Na fauna terrestre, a ordem mais comum foi a Cingulata (principalmente gliptodontídeos do gênero Glyptodon). Os elementos acessórios representados por osteoderms de cingulados foram os restos esqueletais mais abundantes, devido ao grande número de osteodermos que cobre o esqueleto de cingulates e ao pequeno tamanho e forma compacta das osteodermos que favorecem o transporte. Elementos de tamanho pequeno (32-64 mm) e de forma compacta, como osteoderms, dentes e vértebras, são encontrados em maior quantidade e são facilmente transportados. Elementos de tamanho grande (maior que 128 mm) e de forma de lâmina/disco, como ossos longos e elementos cranianos, são encontrados em menor quantidade e são dificilmente transportados. / The presence of fossiliferous deposits in the shoreface and inner continental shelf was attributed to the sea-level oscillations during the Quaternary. Nowadays, these deposits are being eroded by waves and currents and transported onto the beach. The present work aimed to compare the central and southern sectors of the Coastal Plain of Rio Grande do Sul, quantifying and qualifying as its taphonomy, taxonomy and skeletal remains representativeness. A total of 2.820 fossils was collected, among which 95% were collected in the southern sector and only 5% were collected in the central sector. The hypothesis for this difference is the availability of fossils in the shoreface and inner continental shelf. The presence of several sedimentary submerged rocks and submerged elevations and depressions in the shoreface and inner continental shelf of the southern sector indicates probably the source-areas where the fossils are eroded from. In both sectors were identified two populations of bioclasts: non-identified fossils (85%) and identified fossils (15%), indicating greater and less waves reworking, respectively. The same orders and skeletal remains were identified in both sectors, except for some that were only found in the southern sector. In the marine fauna, the most common order was the Perciformes represented mainly by bone tumors of the species Pogonias cromis. Teeth of sharks (Lamniformes and Carcharhiniformes) and rays (Myliobatiformes) were only found in the southern sector due to the presence of the thick konzentrat-lagerstätte of fossil marine shells, called “Concheiros”. In the terrestrial fauna, the most common order was the Cingulata (mostly glyptodontids especially the genre Glyptodon). The accessory elements represented by osteoderms of cingulates were the most abundant skeletal remains, due to the large number of osteoderms that covers the skeleton of cingulates and the small size and compact shape of the osteoderms which favour the transport. Small-size (32-64 mm) and compact-shape elements such as osteoderms, teeth and vertebrae are found in greater quantity and are easily transported. Bigger-sizes (exceeding 128 mm) and blade/disc-shape elements such as long bones and cranial elements are found in less quantity and are hardly transported.
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Fósseis de vertebrados pleistocênicos dos setores central e Sul da planície costeira do Rio Grande do Sul, Brasil: descrição e controles na distribuiçãoCruz, Erick Antal January 2016 (has links)
A presença de depósitos fossilíferos na antepraia e plataforma continental interna foi atribuída às oscilações do nível do mar durante o Quaternário. Hoje em dia, esses depósitos estão sendo erodidos por ondas e correntes e transportados para a praia. O presente trabalho teve como objetivo comparar o setor central e sul da Planície Costeira do Rio Grande do Sul, quantificando e qualificando quanto sua tafonomia, taxonomia e representatividade dos restos esqueletais. Foi coletado um total de 2.820 fósseis, dentre os quais 95% foram coletados no setor sul e apenas 5% foram coletados no setor central. A principal hipótese para essa diferença é a disponibilidade de fósseis na antepraia e plataforma interna. A presença de vários parceis e elevações e depressões submersas na antepraia e plataforma interna do setor sul indica, provavelmente as áreas-fonte de onde os fósseis são erodidos. Em ambos os setores foram identificados duas populações de bioclastos: fósseis nãoidentificados (85%) e fósseis identificados (15%), indicando maior e menor retrabalhamento pelas ondas, respectivamente. As mesmas ordens e restos esqueletais foram identificados em ambos os setores, com exceção de alguns que foram encontrados somente no setor sul. Na fauna marinha, a ordem mais comum foi a Perciformes representada principalmente por tumores ósseos da espécie Pogonias cromis. Dentes de tubarões (Lamniformes e Carcharhiniformes) e raias (Myliobatiformes) foram encontrados apenas no setor sul, devido à presença da espessa konzentrat-lagerstätte de conchas marinhas fósseis, chamada de "Concheiros". Na fauna terrestre, a ordem mais comum foi a Cingulata (principalmente gliptodontídeos do gênero Glyptodon). Os elementos acessórios representados por osteoderms de cingulados foram os restos esqueletais mais abundantes, devido ao grande número de osteodermos que cobre o esqueleto de cingulates e ao pequeno tamanho e forma compacta das osteodermos que favorecem o transporte. Elementos de tamanho pequeno (32-64 mm) e de forma compacta, como osteoderms, dentes e vértebras, são encontrados em maior quantidade e são facilmente transportados. Elementos de tamanho grande (maior que 128 mm) e de forma de lâmina/disco, como ossos longos e elementos cranianos, são encontrados em menor quantidade e são dificilmente transportados. / The presence of fossiliferous deposits in the shoreface and inner continental shelf was attributed to the sea-level oscillations during the Quaternary. Nowadays, these deposits are being eroded by waves and currents and transported onto the beach. The present work aimed to compare the central and southern sectors of the Coastal Plain of Rio Grande do Sul, quantifying and qualifying as its taphonomy, taxonomy and skeletal remains representativeness. A total of 2.820 fossils was collected, among which 95% were collected in the southern sector and only 5% were collected in the central sector. The hypothesis for this difference is the availability of fossils in the shoreface and inner continental shelf. The presence of several sedimentary submerged rocks and submerged elevations and depressions in the shoreface and inner continental shelf of the southern sector indicates probably the source-areas where the fossils are eroded from. In both sectors were identified two populations of bioclasts: non-identified fossils (85%) and identified fossils (15%), indicating greater and less waves reworking, respectively. The same orders and skeletal remains were identified in both sectors, except for some that were only found in the southern sector. In the marine fauna, the most common order was the Perciformes represented mainly by bone tumors of the species Pogonias cromis. Teeth of sharks (Lamniformes and Carcharhiniformes) and rays (Myliobatiformes) were only found in the southern sector due to the presence of the thick konzentrat-lagerstätte of fossil marine shells, called “Concheiros”. In the terrestrial fauna, the most common order was the Cingulata (mostly glyptodontids especially the genre Glyptodon). The accessory elements represented by osteoderms of cingulates were the most abundant skeletal remains, due to the large number of osteoderms that covers the skeleton of cingulates and the small size and compact shape of the osteoderms which favour the transport. Small-size (32-64 mm) and compact-shape elements such as osteoderms, teeth and vertebrae are found in greater quantity and are easily transported. Bigger-sizes (exceeding 128 mm) and blade/disc-shape elements such as long bones and cranial elements are found in less quantity and are hardly transported.
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Quantifying the role of parrotfish in the production and cycling of carbonate in coral reef ecosystemsYarlett, Robert Thomas January 2018 (has links)
Parrotfish are a diverse and ubiquitous group found on coral reefs worldwide. They are categorised into three main feeding modes; the browsers, scrapers and excavators, which together perform a number of important functional roles on coral reefs. Scraper and excavator parrotfish are common on most Indo-Pacific coral reefs where their roles in bioerosion, sediment production, grazing pressure and sediment reworking have been shown to influence benthic community composition, reef growth potential and sediment supply to reef habitats and reef associated sedimentary landforms. However, despite the widely known importance of parrotfish on coral reefs, our understanding of how their roles in carbonate cycling vary among species and among whole parrotfish communities in different reef habitats remains limited. This thesis produces original contributions to knowledge in the areas of species specific bioerosion estimates for the central Indian Ocean, bottom-up controls of habitat type on parrotfish assemblages and how variations in parrotfish assemblages translate to contributions to carbonate cycling processes among different reef habitats. The study was carried out across eight habitats on an atoll-edge reef platform in the central Maldives, where it was found that parrotfish community composition was driven by reef structural complexity and substrate type. Parrotfish occurred in six of the eight habitats, comprising ~44% of the platform area. Among these habitats, overall grazing pressure, bioerosion rates, sediment reworking and sediment production varied markedly. These processes were also found to have different spatial patterns over the reef platform, showing that they are not necessarily tightly coupled. In addition, reef habitats can vary in their importance for both sediment supply, and the relative importance of reworked sediment. Parrotfish produced a wide range of sediment size fractions, from < 32 to 2000 μm and produced predominantly coral sands (>80%) between 125 and 1000 μm in diameter. This is comparable to the grain types found on local reef islands, and it is likely that the most significant supply of this material is from habitats on the atoll-edge side of the platform (which make up ~20% of the total platform area). Quantifying parrotfish functional roles and understanding the drivers behind these processes is important for informing future empirical and modelling studies, particularly as coral reefs undergo a time of dramatic environmental change.
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Framework and Evolution of a Transgressed Delta Lobe: The St. Bernard Shoals, Gulf of MexicoRogers, Bryan E. 15 May 2009 (has links)
Four modern shoals on the Louisiana continental shelf are proposed to have formed through transgression, marine reworking, and submergence of Mississippi River deltaic lobes. However, one of these shoals, the St. Bernard Shoals, is dissimilar to the other shoals in morphology and stratigraphy. Understanding the processes that lead to these differences resulted in the development of a wholly new model for subaqueous shoal evolution. The results of this study suggest that the St. Bernard Shoals are transgressive remnants of a near shelf-edge delta lobe that was transgressed and truncated by marine processes after fluvial abandonment. Subsequent to truncation, the shoals formed through subaqueous excavation and reworking of coarse grained sediment contained within underlying distributary channels by hurricane related marine currents. As a result the shoals are bound at their base by a ravinement surface and lie directly upon progradational facies associated with previously unrecognized southern progradation of the La Loutre distributary network.
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Minéralisations uranifères de la ceinture orogénique Pan-africaine du Damara (Namibie) : implication de la fusion partielle, de la migration et de la mise en place des magmas sur le remaniement de la croûte continentale / Uranium mineralizations in the Pan-African Damara orogenic belt (Namibia) : implications of partial melting, migration and setting up of magmas on the reworking of the continental crustToé, Wilfried Antoine Bassou 11 December 2012 (has links)
La chronologie de la formation de la croûte continentale est débattue mais la plupart des modèles convergent sur le fait qu'une bonne partie de la croûte continentale présente à la surface de la Terre aujourd'hui est présente depuis le Protérozoïque (2,5 - 0, 54 Ga) et qu'elle a essentiellement subit un remaniement au cours d'orogénèses. L'uranium, qui est un élément incompatible, est un traceur de cette évolution depuis son fractionnement initial par fusion partielle du manteau jusqu'à son remaniement dans les niveaux crustaux supérieurs. La ceinture orogénique Néoprotérozoïque Pan-africaine (0,5 ± 0,1 Ga) du Damara en Namibie constitue une cible géologique pour tester les relations entre croissance / évolution crustale et métallogénie de l'uranium. Elle s'est formée suite à la collision des cratons archéens du Congo et du Kalahari (plaque subductante). Ce travail de thèse montre que l'évolution de la croute continentale de la ceinture du Damara durant l'orogènese Pan-africaine au Néoprotérozoïque se fait par remaniement de roches ayant été extraites du manteau depuis l'Archéen et que leur fusion partielle est le mécanisme prépondérant pour la minéralisation uranifère primaire associée à la cristallisation de granites intrusifs. Les granites in-situ issus de la fusion partielle des sédiments dans les niveaux crustaux supérieurs sont peu ou pas propices à de fortes concentrations d'uranium du fait 1) de la faible préconcentration de leur protolithes et 2) de leur migration relativement limitée. Les granites intrusifs minéralisés correspondent à des injections tardi- à post-collision (ca. 520 - 480 Ma dans la zone centrale) et sont liés aux phases de relaxation thermique et d'effondrement gravitaire subséquentes à l'épaississement crustal de l'orogène dans un contexte de convergence de plaques / The chronology of continental crust formation is debated but most models converge on the fact that much of the continental crust on the surface of the Earth is present since the Proterozoic (2.5 - 0, 54 Ga) and has essentially undergoes reworking during orogenesises. Uranium which is an incompatible element is a tracer of this crustal evolution, since its initial fractionation by partial melting of the mantle to its reworking in higher crustal levels. Neoproterozoic Pan-African (0.5 ± 0.1 Ga) orogenic belt of the Damara in Namibia is a good geological target to test the relationship between crustal growth and evolution and metallogeny of uranium. It was formed after the collision of the Archean cratons of Congo and Kalahari (subducting plate). This thesis shows that the evolution of the continental crust during the Neoproterozoic Damara Orogen is by reworking of Archaean to Neoproterozoic crustal domains and partial melting of rocks is the predominant mechanism for primary uranium mineralization associated with crystallization of intrusive granites derived from anatexis of paleo- to mesoproterozoic basement fragments. The intrusive granites issued from partial melting of sediments in the upper crustal levels are low or not favorable to high concentrations of uranium because of 1) the low preconcentration of their protoliths and 2) their relatively limited migration. The mineralized intrusive granites correspond to late- to post-collision injections (ca. 520-480 Ma in the central area) and are related to thermal relaxation phases and gravitational collapse subsequent to thickening in crustal orogen in a context of plates convergence
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Crustal evolution of the Arabian–Nubian Shield : Insights from zircon geochronology and Nd–Hf–O isotopesYeshanew, Fitsum Girum January 2017 (has links)
The Arabian–Nubian Shield (ANS) represents a major site of juvenile Neoproterozoic crustal addition on Earth and documents Neoproterozoic tectonics bracketed by two supercontinent cycles, namely the fragmentation of Rodinia and the amalgamation of Gondwana. There is general consensus that the ANS formed by juvenile magmatic arc accretion and subsequent shield–wide post–tectonic magmatism. However, detailed understanding about the timing of events and the nature of magma sources in parts of the shield are lacking. To date, there are no isotopic data from the Paleozoic sedimentary sequences of the ANS, except those from the northern part. New zircon U–Pb, δ18O and whole–rock Nd isotopes are presented for plutonic rocks from the eastern Ethiopia, Yemen and southernmost Arabian Shield in Saudi Arabia. This thesis also presents the first combined in situ zircon U–Pb–O–Hf isotope data on the Cambrian–Ordovician sandstones of the Arabian Shield. The results are used to elucidate the crustal evolution of these parts of the ANS and to evaluate terrane correlations. Specifically, the nature of crustal growth, i.e., relative proportions of juvenile magmatic additions vs. crustal reworking, nature of the magma source and mechanism of crust formation (plume material vs. subduction zone enrichment) and understanding the provenance of the Cambrian–Ordovician sandstone sequences were important research questions addressed. The results from Paper I suggest that the eastern Ethiopian Precambrian basement is dominated by reworking of pre-Neoproterozoic supracrustal material unlike contemporaneous rocks in the remaining parts of Ethiopia— indicating the presence of two distinct lithospheric blocks of contrasting isotopic compositions in Ethiopia. Metamorphic age distributions suggest that the eastern Ethiopian block was amalgamated with the juvenile Western Ethiopian Shield during ca. 580–550 Ma. Importantly, the suture between them may represent the northern continuation of a major suture identified further south in Africa along which Gondwana amalgamated. Similarly, the Abas terrane in Yemen (Paper II) is dominated by reworking of pre–Neoproterozoic crust and shows age and isotopic compositions that are inconsistent with the Afif terrane of Saudi Arabia, precluding correlation between the two regions. The trace element systematics of plutonic rocks from the southernmost Arabian Shield (paper III) point to enrichment due to subduction component, bear no evidence of a plume component, and are consistent with the adakite-like chemistry of some of the subduction–related plutonic samples. This reinforces the notion that the shield grew through juvenile magmatic arc additions. The combined zircon U–Pb–O–Hf data of the Cambrian–Ordovician sandstones (Paper IV) indicate their derivation from both the adjacent juvenile ANS and the more southerly crustal blocks that are dominated by reworking of pre–Neoproterozoic crust. The remarkable similarity in age spectra and homogeneity of Cambrian sandstones deposited across the northern margin of Gondwana point to continental–scale sediment mixing and dispersal regulated by the supercontinent cycle. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>
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