Global ETD Search

31	Impacts of Artificial Reefs on Surrounding Ecosystems Manoukian, Sarine 01 January 2011 (has links) Artificial reefs are becoming a popular biological and management component in shallow water environments characterized by soft seabed, representing both important marine habitats and tools to manage coastal fisheries and resources. An artificial reef in the marine environment acts as an open system with exchange of material and energy, altering the physical and biological characteristics of the surrounding area. Reef stability will depend on the balance of scour, settlement, and burial resulting from ocean conditions over time. Because of the unstable nature of sediments, they require a detailed and systematic investigation. Acoustic systems like high-frequency multibeam sonar are efficient tools in monitoring the environmental evolution around artificial reefs, whereas water turbidity can limit visual dive and ROV inspections. A high-frequency multibeam echo sounder offers the potential of detecting fine-scale distribution of reef units, providing an unprecedented level of resolution, coverage, and spatial definition. How do artificial reefs change over time in relation to the coastal processes? How accurately does multibeam technology map different typologies of artificial modules of known size and shape? How do artificial reefs affect fish school behavior? What are the limitations of multibeam technology for investigating fish school distribution as well as spatial and temporal changes? This study addresses the above questions and presents results of a new approach for artificial reef seafloor mapping over time, based upon an integrated analysis of multibeam swath bathymetry data and geoscientific information (backscatter data analysis, SCUBA observations, physical oceanographic data, and previous findings on the geology and sedimentation processes, integrated with unpublished data) from Senigallia artificial reef, northwestern Adriatic Sea (Italy) and St. Petersburg Beach Reef, west-central Florida continental shelf. A new approach for observation of fish aggregations associated with Senigallia reef based on the analysis of multibeam backscatter data in the water column is also explored. The settlement of the reefs and any terrain change are investigated over time providing a useful description of the local hydrodynamics and geological processes. All the artificial structures (made up by water-based concrete for Senigallia reef and mainly steel for St. Petersburg Beach reef) are identified and those showing substantial horizontal and/or vertical movements are analyzed in detail. Most artificial modules of Senigallia reef are not intact and scour signatures are well depicted around them, indicating reversals of the local current. This is due to both the wind pattern and to the quite close arrangement of the reef units that tend to deflect the bottom flow. As regards to the St. Petersburg Beach reef, all the man-made steel units are still in their upright position. Only a large barge shows a gradual collapse of its south side, and presents well-developed scouring at its east-northeast side, indicating dominant bottom flow from west-southwest to east-northeast. While an overall seafloor depth shallowing of about 0.30 m from down-current deposits was observed for Senigallia reef, an overall deepening of about 0.08 m due to scour was observed at the St. Petersburg Beach reef. Based on the backscatter data interpretation, surficial sediments are coarser in the vicinities of both artificial reefs than corresponding surrounding sediments. Scouring reveals this coarser layer underneath the prevalent mud sediment at Senigallia reef, and the predominant silt sediment at St. Petersburg Beach reef. In the ten years of Senigalia reef study, large-scale variations between clay and silt appear to be directly linked to large flood events that have occurred just prior to the change. As regards the water column investigation, acoustic backscatter from fish aggregations gives detailed information on their morphology and spatial distribution. In addition, relative fish biomass estimates can be extrapolated. Results suggest that most of the fish aggregations are generally associated with the artificial modules showing a tendency for mid- and bottom-water depth distribution than for the surface waters. This study contributes to understanding the changes in artificial reefs over time in relation to coastal processes. Moreover, the preliminary results concerning the water column backscatter data represents progress in fisheries acoustics research as a result of three-dimensional acoustics. They demonstrate the benefits of multibeam sonar as a tool to investigate and quantify size distribution and geometry of fish aggregations associated with shallow marine habitats. Adriatic Sea fish aggregation Gulf of Mexico meltibeam scouring seafloor mapping American Studies Arts and Humanities Geology Geomorphology Geophysics and Seismology
32	Processing of shipborne magnetometer data and revision of the timing and geometry of the Mesozoic break-up of Gondwana = Auswertung schiffsfester Magnetometerdaten und die Neubestimmung des Zeitpunktes und der Geometrie des Mesozoischen Aufbruchs von Gondwana / König, Matthias. January 2006 (has links) Thesis (doctoral)--Universität Bremen, 2005. / Includes bibliographical references (p. 113-125).
33	Seafloor weathering and the Middle to Late Ordovician seawater <sup>87</sup>Sr/<sup>86</sup>Sr inflection point preserved in conodont apatite Avila, Teresa D. January 2019 (has links) No description available. Geochemistry Geology Geological Paleoclimate Science Earth geochemistry paleoclimatology conodont strontium strontium isotope stratigraphy Ordovician sedimentology seafloor spreading
34	Geology of the North Fiji Basin Triple Junction and an Investigation into Triple Junction Formation Besaw, Mary 30 November 2022 (has links) Triple junctions form at the intersection of three tectonic plates and are a necessary consequence of new microplate formation. The splitting of a plate into two smaller plates always results in the formation of two triple junctions. As a result, they are fundamental structural elements of ocean floor geodynamics. Their evolution is influenced by the complex interplay of near- and far-field plate dynamics, crustal types, and mantle processes, and they include a wide range of boundary types. The long-term stability and evolution of triple junctions are influenced by continuous plate reorganization, such as in the complex microplate mosaics of the Western Pacific margin. To better understand how triple junctions form and respond to near- and far-field stresses, this study presents a detailed examination of the North Fiji Basin Triple Junction (NFBTJ), which is located within one of the largest and most mature back-arc basins of the Pacific margin. A new geological map of the NFBTJ at a 1:500,000 scale is presented. The mapping provides insight into the factors controlling plate fragmentation and crustal growth during triple junction formation. The map is based on a compilation of more than 50 years of ship-based bathymetry, backscatter data, gravity and magnetics used to reconstruct the spreading history, magmatic productivity, tectonic fabric and origin of geological formations of the basin. These aspects also have important implications for understanding the origins and evolution of large-scale back-arc basin hydrothermal systems. Crustal growth in the NFB is recorded by the area-age relationships of different geological formations identified in the new geological map. The triple junction is the site of volume addition related to enhanced magmatic productivity, with a large Central Volcanic Complex (CVC) (shield volcano and inflated ridge) at its centre and a well-developed spreading ridge along the SW limb. Extensive lava flows emanating from the CVC covers early spreading-related fabric in the NE and NW limbs. The large shield volcano, which is 0.5 km high and occupies an area of at least 62.3 km², has a distinctive 2.5-km diameter summit caldera with extensive hydrothermal activity in the south. The CVC and surrounding lava flows are estimated to have grown in place at a rate of 3,000 m²/yr, thus dominating the recent history of the NFBTJ. By contrast, earlier crustal growth along the SW and NW spreading segments, prior to the emergence of CVC, is estimated to have been ~1,650 m²/yr and 200 m²/yr respectively. The quantitative analysis of rifting and the eruptive history highlight previously unrecognized near and far-field geodynamic influences on the triple junction formation. In particular, the pulse of crustal growth at the NFB beginning at 3 Ma was related to rift propagation from the south in response to rotation of the NFB that produced some of the fastest growing crust in the oceans. Comparisons with a global database of triple junctions show that the evolution of the NFBTJ shares many features with other microplate mosaics and that processes related to triple junction formation is associated with crustal growth wherever triple junctions occur. The high heat flow and voluminous mafic magmatism has been compared to rapid crustal growth in some ancient greenstone belts, such as the Archean Abitibi Greenstone Belt in the Superior Province of Canada. In particular, the NFBTJ is a possible modern analog of large central volcanic complexes that characterize ancient greenstone-belt development. Geology Metal Oceans Image Create Microplates Seafloor Geology Geological Mapping Economic Geology Tectonics Triple Junction VMS deposits
35	Sedimentology and Architecture of a Partially Contained Deposit, Cerro Solitario, Magallanes Basin, Chilean Patagonia Jancuska, Sarah Nicole 14 December 2016 (has links) The depositional styles of sediment gravity currents depend, in part, on the relationship of flow magnitude to the scale of topographically controlled containment and range from unconfined lobes to fully contained deposits. Determining the degree of containment is important for understanding depositional processes, land to ocean sediment transfer and subsurface reservoir characterization/prediction. Depositional models of the fully contained (commonly referred to as 'ponded') end member have been developed (e.g. fill-and-spill model). However, fully contained deposits represent only a portion of deepwater deposits and little work has been done identifying and examining the degree of containment of the more complex, partially contained deposits in outcrop. Here, I document the sedimentological facies and stratigraphic architecture of the Zorrillo Unit, a partially contained system exposed at Cerro Solitario within the Upper Cretaceous Tres Pasos Formation of the Magallanes Basin. The evolution of partial containment at this outcrop is expressed as: 1) bypass in the proximal zone and flow stripping in the distal zone, 2) backstepping and blanketing of the outcrop, followed by 3) renewed bypass. The partially contained system at Cerro Solitario deviates from the widely used fill-and-spill model due to subtle relief. This record of infilling provides insight into the overall evolution of the depositional system. Within the Magallanes Basin, the partially contained and linked depocenters along the Chingue Clinoform represent the dying breaths of the Cerro Toro axial conglomerate channel system as the canyon-fed point source collapsed and choked off the sediment routing system out to the distal basin. / Master of Science / Subaqueous sediment gravity flows are responsible for moving large quantities of sediment from off the continent to the oceanic abyssal plain and the resulting deposits serve as some of the largest hydrocarbon reservoirs in the world. These deposits vary in a number of ways depending on numerous variables, including containment. Containment is related to how the sediment gravity flows interact with the seafloor topography. Models have been created describing at one end of the spectrum sediment gravity flows that have been fully contained (i.e., the fill-and-spill model) where the flows are trapped and not able to escape the confining topography. The other end of the spectrum is where flows do not experience any containment (unconfined lobes). There is a lack of work done addressing the middle ground of partial containment of sediment gravity flows and their resulting deposits. The Zorrillo Unit crops out at Cerro Solitario within the Late Cretaceous Magallanes Basin in southern Chile and offers a perfect location to study partially contained deposits. The architecture (the structure of the rocks) and facies (the character of the rocks) were identified. By characterizing and understanding the processes that created the partially contained outcrop, this outcrop can now be used as an analog for other similar depositional systems. Oil and gas companies use these outcrop analogs to aid in reservoir prediction for comparable deposition systems in the subsurface. Regionally, the context of the Zorrillo Unit within the Magallanes Basin is ambiguous and by characterizing it, details are added to this part of the basin’s history. Partially contained deposits evolution of partial containment fill-and-spill seafloor topography growth faulting Magallanes Basin
36	Temporal Variations in the Compliance of Gas Hydrate Formations Roach, Lisa Aretha Nyala 20 March 2014 (has links) Seafloor compliance is a non-intrusive geophysical method sensitive to the shear modulus of the sediments below the seafloor. A compliance analysis requires the computation of the frequency dependent transfer function between the vertical stress, produced at the seafloor by the ultra low frequency passive source-infra-gravity waves, and the resulting displacement, related to velocity through the frequency. The displacement of the ocean floor is dependent on the elastic structure of the sediments and the compliance function is tuned to different depths, i.e., a change in the elastic parameters at a given depth is sensed by the compliance function at a particular frequency. In a gas hydrate system, the magnitude of the stiffness is a measure of the quantity of gas hydrates present. Gas hydrates contain immense stores of greenhouse gases making them relevant to climate change science, and represent an important potential alternative source of energy. Bullseye Vent is a gas hydrate system located in an area that has been intensively studied for over 2 decades and research results suggest that this system is evolving over time. A partnership with NEPTUNE Canada allowed for the investigation of this possible evolution. This thesis describes a compliance experiment configured for NEPTUNE Canada’s seafloor observatory and its failure. It also describes the use of 203 days of simultaneously logged pressure and velocity time-series data, measured by a Scripps differential pressure gauge, and a Güralp CMG-1T broadband seismometer on NEPTUNE Canada’s seismic station, respectively, to evaluate variations in sediment stiffness near Bullseye. The evaluation resulted in a (- 4.49 x10-3± 3.52 x 10-3) % change of the transfer function of 3rd October, 2010 and represents a 2.88% decrease in the stiffness of the sediments over the period. This thesis also outlines a new algorithm for calculating the static compliance of isotropic layered sediments. SEAFLOOR COMPLIANCE GAS HYDRATES BULLSEYE VENT TREND ANALYSIS SENSITIVITY ANALYSIS EIGENPARAMETER ANALYSIS HYDRATE MASS VARIATION LONG TERM TRENDS IN HYDRATE MASS MODIFIED YORK METHOD MARINE GEOPHYISCS MARINE SEDIMENT NEPTUNE CANADA SHEAR MODULUS GAS HYDRATE CONCENTRATIONS CASCADIA MARGIN MARINE GAS HYDRATES INFRA-GRAVITY WAVES SEISMOMETERS SCRIPPS DIFFERENTIAL PRESSURE GAUGE SCRIPPS DPG ODP SITE 889 BROADBAND SEISMOMETER gPhone DGP calibration Bottom Pressure Recorder Guralp CGM-1T Coherence transfer function bounds f-test bootstrapping wave propagation matrix static solution ocean bottom seismometer tsunami earthquakes Modified York least squares temporal variations linear trend in gas hydrates Power spectral densities 1D compliance solution 1D compliance algorithm seafloor compliance instrumentation Micro-g gravitimeter triple phase boundary equation ultra-low frequency seismics seafloor pressure spectrum seafloor gravity spectrum pacific ocean off-shore British Columbia seafloor observatory static compliance of layered structures geophysics gas hydrate characterization 0373
37	Temporal Variations in the Compliance of Gas Hydrate Formations Roach, Lisa Aretha Nyala 20 March 2014 (has links) Seafloor compliance is a non-intrusive geophysical method sensitive to the shear modulus of the sediments below the seafloor. A compliance analysis requires the computation of the frequency dependent transfer function between the vertical stress, produced at the seafloor by the ultra low frequency passive source-infra-gravity waves, and the resulting displacement, related to velocity through the frequency. The displacement of the ocean floor is dependent on the elastic structure of the sediments and the compliance function is tuned to different depths, i.e., a change in the elastic parameters at a given depth is sensed by the compliance function at a particular frequency. In a gas hydrate system, the magnitude of the stiffness is a measure of the quantity of gas hydrates present. Gas hydrates contain immense stores of greenhouse gases making them relevant to climate change science, and represent an important potential alternative source of energy. Bullseye Vent is a gas hydrate system located in an area that has been intensively studied for over 2 decades and research results suggest that this system is evolving over time. A partnership with NEPTUNE Canada allowed for the investigation of this possible evolution. This thesis describes a compliance experiment configured for NEPTUNE Canada’s seafloor observatory and its failure. It also describes the use of 203 days of simultaneously logged pressure and velocity time-series data, measured by a Scripps differential pressure gauge, and a Güralp CMG-1T broadband seismometer on NEPTUNE Canada’s seismic station, respectively, to evaluate variations in sediment stiffness near Bullseye. The evaluation resulted in a (- 4.49 x10-3± 3.52 x 10-3) % change of the transfer function of 3rd October, 2010 and represents a 2.88% decrease in the stiffness of the sediments over the period. This thesis also outlines a new algorithm for calculating the static compliance of isotropic layered sediments. SEAFLOOR COMPLIANCE GAS HYDRATES BULLSEYE VENT TREND ANALYSIS SENSITIVITY ANALYSIS EIGENPARAMETER ANALYSIS HYDRATE MASS VARIATION LONG TERM TRENDS IN HYDRATE MASS MODIFIED YORK METHOD MARINE GEOPHYISCS MARINE SEDIMENT NEPTUNE CANADA SHEAR MODULUS GAS HYDRATE CONCENTRATIONS CASCADIA MARGIN MARINE GAS HYDRATES INFRA-GRAVITY WAVES SEISMOMETERS SCRIPPS DIFFERENTIAL PRESSURE GAUGE SCRIPPS DPG ODP SITE 889 BROADBAND SEISMOMETER gPhone DGP calibration Bottom Pressure Recorder Guralp CGM-1T Coherence transfer function bounds f-test bootstrapping wave propagation matrix static solution ocean bottom seismometer tsunami earthquakes Modified York least squares temporal variations linear trend in gas hydrates Power spectral densities 1D compliance solution 1D compliance algorithm seafloor compliance instrumentation Micro-g gravitimeter triple phase boundary equation ultra-low frequency seismics seafloor pressure spectrum seafloor gravity spectrum pacific ocean off-shore British Columbia seafloor observatory static compliance of layered structures geophysics gas hydrate characterization 0373
38	Opto-alimentation et transmission de données par fibre optique pour les observatoires de fond de mer / Power and data over fiber for seafloor observatories Audo, Frédéric 03 December 2012 (has links) Ce mémoire de thèse est consacré à l’étude d’une liaison tout-optique longue de 10 km dédiée à l’extension d’un observatoire câblé de fond de mer existant afin d’atteindre de nouvelles zones d’exploration. Les travaux de recherche qui y sont rapportés démontrent la faisabilité de cette liaison tout-optique entre un instrument déporté et une station terrestre avec une seule fibre optique longue de 10 km, qui transmet simultanément la puissance, nécessaire à l’alimentation de l’instrument (quelques centaines de milliwatts), et des données bidirectionnelles en temps réel.Le contexte de cette thèse est présenté au travers d’un état de l’art sur les observatoires câblés et sur la puissance sur fibre. Le choix de la fibre unique et la présence de fortes puissances optiques complexifient la mise en oeuvre de cette extension tout-optique, et sont à l’origine de l’apparition d'interactions entre l’énergie optique dédiée à l'alimentation (@1480 nm) et les données échangées (@1550 nm). Tout au long de ce document, les choix technologiques retenus sont argumentés et les effets optiques non linéaires tels que les diffusions Raman, Brillouin, Rayleigh, l’Émission Spontanée Amplifiée (ASE) sont décrits, modélisés et analysés expérimentalement. L’extension tout-optique proposée a été caractérisée à la fois en régimes statique et dynamique par des mesures du bilan de liaison, du rapport signal à bruit (SNR) et du taux d’erreur binaire (BER). Les résultats obtenus montrent la possibilité de fournir 160 mW électrique à l’instrument déporté en utilisant une source optique continue de 33 dBm sans dégrader excessivement les données bidirectionnelles transmises simultanément (BER<10-7). / This thesis is devoted to the study of a 10 km long all-optical network dedicated to extend a current cabled seafloor observatory, in order to reach new exploration areas. The research work described in this thesis demonstrates the feasibility of this all-optical link between a remote instrument and a shore station with a single 10 km long optical fiber, which simultaneously transmits the energy required to supply the instrument (several hundred milliwatts) and bidirectional data in real time.The thesis context is presented trough an analysis of the cabled seafloor observatories and of the power-over-fiber. The choice of a single optical fiber and the presence of high optical power complicate the implementation of this all-optical extension, and they cause the appearance of interactions between the optical energy dedicated to the power supply (@1480 nm) and the exchanged data (@1550 nm). Throughout this document, the technological choices are explained and the optical nonlinear effects are described, simulated and analyzed experimentally, such as Raman, Brillouin, and Rayleigh scattering and Amplified Spontaneous Emission (ASE). The proposed all-optical extension has been characterized in static and dynamic regimes with measures of the optical link budget, the Signal-to-Noise Ratio (SNR), and the Bit Error Ratio (BER). The results show the possibility to power the remote instrument with 160 mW, when using a continuous high optical laser source of 33 dBm without huge degradation of the bidirectional data transmitted simultaneously (BER<10-7). Opto-alimentation Puissance sur fibre Réseau de télécommunications optiques Observatoire de fond de mer Diffusion Raman Optical power supply Power-over-fiber Optical communication network Seafloor observatory Raman scattering 621.382 75
39	The Northeastern Gulf of Mexico : volcanic or passive margin? : seismic implications of the Gulf of Mexico Basin opening project Duncan, Mark Hamilton 03 February 2014 (has links) The Gulf of Mexico Basin Opening project (GUMBO) is a study of the lithological composition and structural evolution of the Gulf of Mexico (GoM) that uses Ocean Bottom Seismometer (OBS) data from four transects in the Northern GoM. I examine 39 OBS shot records in the easternmost transect for shear wave arrivals and pick shear wave travel times from the 11 usable records. I then carry out a tomographic inversion of seismic refraction travel times. I use the resulting shear-wave velocity model in conjunction with a previously constructed P-wave model to examine the relationship between Vp and Vs. I compare velocities in the sediment and basement with empirical velocities from previous studies for the purpose of constraining lithological composition below the transect and make an interpretation of the structural evolution of the eastern GoM. The seismic velocities for crust landward of the Florida Escarpment are consistent with normal continental crust. Seaward of the Escarpment, velocities in the upper oceanic crust are anomalously high (Vp = 6.5 – 7 km/sec; Vs = 4.0 – 4.6 km/sec). A possible explanation for this observation is that GoM basalt formation consisted of basaltic sheet flows, forming oceanic crust that does not contain the vesicularity and lower seismic velocities found in typical pillow basalts. Increased magnesium and iron content could also account for these high velocities. Seismic refraction and reflection data provide a means of investigating the nature of the Moho in the northeastern GoM. I use a finite difference method to generate synthetic record sections for data from eight instruments that are part of the two easternmost GUMBO seismic lines (lines 3 & 4). I then vary the thickness of the Moho in these synthetic models and compare the results with the original receiver gather to examine the effects this variability has on amplitudes. The data from the instruments chosen for these two lines are representative of continental and transitional crust. The finite difference models indicate that the Moho beneath GUMBO 3 is ~1500 m thick based on the onset and amplitudes of PmP arrivals. All five instruments display consistent results. The instruments along GUMBO 4 suggest a Moho almost twice as thick as GUMBO 3 on the landward end of the transect that grades into a Moho of similar thickness (1750 m) in the deep water GoM. The three instruments used to model the Moho in this area show that the Moho ranges from ~1750 to 3500 m in thickness. The sharper boundary beneath continental crust in GUMBO Line 3 supports other evidence that suggests magmatic underplating and volcanism in the northern GoM during the mid-Jurassic. The thicker Moho seen on the landward end of GUMBO Line 4 that is overlain by continental crust was likely unaffected by GoM rifting. Therefore, the Moho beneath the Florida Platform might be as old as the Suwannee Terrane, and complex Moho structure is not uncommon for ancient continental crust. / text Gulf of Mexico opening project Shear-wave Seismic refraction Crustal structure Rifted margin OBS Seafloor spreading Synthetic seismogram Velocity model GUMBO Ocean Bottom Seismometer Moho Lithological composition Structural evolution
40	NEPTUNE-CANADA BASED GEOPHYSICAL IMAGING OF GAS HYDRATE IN THE BULLSEYE VENT Willoughby, E.C., Mir, R, Scholl, Carsten, Edwards, R.N. 07 1900 (has links) Using the NEPTUNE-Canada cable-linked ocean-floor observatory we plan continuous, real-time monitoring of the gas hydrate-associated, “Bullseye” cold vent offshore Vancouver Island. Our group inferred the presence of a massive gas hydrate deposit there, based on the significant resistivity anomaly in our controlled-source electromagnetic (CSEM) dataset, as well as anomalously heightened shear moduli, from seafloor compliance data. This interpretation was confirmed by drilling by IODP expedition 311 (site U1328), which indicated a 40 m thick gas hydrate layer near the surface. Sporadic venting and variations in blanking in yearly single-channel seismic surveys suggest the system is evolving in time. We are preparing two stationary semi-permanent imaging experiments: a CSEM and a seafloor compliance installation. These are designed not only to assess the extent of the gas hydrate deposit, but also for long-term monitoring of the gas hydrate/free gas system. The principle of the CSEM experiment is to input a particular electromagnetic signal at a transmitter (TX) dipole on the seafloor, and to record the phase and amplitude of the response at several seafloor receiver (RX) dipoles, at various TX-RX separations. The data are sensitive to the underlying resistivity, which is increased when conductive pore water is displaced by electrically-insulating gas hydrate. The experiment is controlled onshore, and can be expanded to include a downhole TX. Repeated soundings at this site, over several years, will allow measurement of minute changes in resistivity as a function of depth, and by inference, changes in gas hydrate or underlying free gas distribution. Similarly, the displacement of pore fluids by solid gas hydrate will affect elastic parameters. Thus, seafloor compliance data, the transfer function between pressure and seafloor displacement time series, most sensitive to shear modulus as a function of depth, will be gathered continuously to monitor the evolution of the gas hydrate distribution. marine gas hydrates NEPTUNE CSEM seafloor compliance ocean observatory Bullseye Vent cold vent methane seep electrical resistivity remote sensing shear modulus ICGH International Conference on Gas Hydrates

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