Processes, Patterns and Petrophysical Heterogeneity of Grainstone Shoals at Ocean Cay, Western Great Bahama Bank

Gomes da Cruz, Francisco Eduardo

14 December 2008

Holocene and Pleistocene grainstone deposits surrounding Ocean Cay located on the western margin of Great Bahama Bank provide key evidence for the comprehension of patterns, processes and petrophysical heterogeneity of carbonate grainstone shoals. New datasets consisting of high-resolution remote sensing data, acoustic Doppler current measurements, sub-bottom profiles, and sedimentological and petrophysical analyses offer an opportunity to elucidate the various factors in the deposition of a grainstone shoal complex and assess of how much of the sedimentary fabric and early diagenetic overprint influences the petrophysical characteristics of similar ancient deposits. The Holocene shoal complex investigated here includes the Cat Cay ooid shoal and the Ocean Cay tidal deltas, which collectively form a 1-3 km wide, 35 km long sand belt around Ocean Cay. These factors controlling the distribution, preservation and modification of these sediments are the antecedent Pleistocene topography, bathymetry, and hydrodynamics at this margin. High-resolution seismic data reveal that the laterally continuous and thick Cat Cay ooid shoal north of Ocean Cay is situated on top of a flat Pleistocene surface and located platformward of a Pleistocene rock ridge. This finding challenges the assumption of previous studies that an antecedent high is needed for ooid shoal initiation. In contrast, south of Ocean Cay, skeletal-rich tidal deltas occur east of rocky Pleistocene islands and formed over an irregular Pleistocene surface that is slightly shallower than the flat surface north of Ocean Cay. In addition to the antecedent topography, differences in shoal morphology and sediment attributes between the north and south areas around Ocean Cay are related to linkages among fluid flow patterns, shoal morphology and granulometry. The hydrodynamic data document the influence of tidal flows in modifying the shape of bars creating sinuous and parabolic forms during flood and ebb reversing flows. Spatial distribution of grain size and sorting is affected because high flow velocities (up to 100 cm sec-1) inside tidal channels and inlets can erode and remobilized sediments mixing skeletal grains, peloids and ooids. Dominance of flood tide across this Holocene shoal complex allowed tidal deltas to form bankward of inlets between rock islands. Tidal channels and inter-bar troughs can focus tidal flow during flood tide creating lobes platformward instead of previously assumptions on the effect of storm and formation of spillover lobes bankward. Cores from the subsurface at Ocean Cay show that the architecture of the Pleistocene grainstone facies is similar to the Holocene shoal configuration of bars, channels, and bioturbated stabilized areas. Cross-bedded oolitic/peloidal and bioturbated skeletal/peloidal facies exhibit facies-dependent petrophysical heterogeneity, and reveal depositional and early diagenetic controls on petrophysical properties. Porosity and permeability in the grainstones at Ocean Cay are high, up to 47% and up to 11500 mD, respectively. Early diagenesis modifies the pore geometry of the rock, thus reducing permeability. A comparison of petrographic and petrophysical properties of the Pleistocene shoal with those from the Pennsylvanian ooid shoals reveals that were strongly influenced by the original fabric and early near-surface diagenesis. The integration of data from both the modern and ancient carbonate systems provides a better understanding of the factors controlling shoal morphology, facies architecture, and rock properties. The results of this study can be used as a guide for interpreting heterogeneity and reservoir properties of analogous facies within ancient ooid shoals.

Responses of a shallow-water ecosystem to the early Paleogene greenhouse environmental conditions : evolution of Larger Foraminifera and coral communities from the Northern Tethys

Zamagni, Jessica

January 2009

Modern anthropogenic forcing of atmospheric chemistry poses the question of how the Earth System will respond as thousands of gigatons of greenhouse gas are rapidly added to the atmosphere. A similar, albeit nonanthropogenic, situation occurred during the early Paleogene, when catastrophic release of carbon to the atmosphere triggered abrupt increase in global temperatures. The best documented of these events is the Paleocene-Eocene Thermal Maximum (PETM, ~55 Ma) when the magnitude of carbon addition to the oceans and atmosphere was similar to those expected for the future. This event initiated global warming, changes in hydrological cycles, biotic extinction and migrations. A recently proposed hypothesis concerning changes in marine ecosystems suggests that this global warming strongly influenced the shallow-water biosphere, triggering extinctions and turnover in the Larger Foraminifera (LF) community and the demise of corals. The successions from the Adriatic Carbonate Platform (SW Slovenia) represent an ideal location to test the hypothesis of a possible causal link between the PETM and evolution of shallow-water organisms because they record continuous sedimentation from the Late Paleocene to the Early Eocene and are characterized by a rich biota, especially LF, fundamental for detailed biostratigraphic studies. In order to reconstruct paleoenvironmental conditions during deposition, I focused on sedimentological analysis and paleoecological study of benthic assemblages. During the Late Paleocene-earliest Eocene, sedimentation occurred on a shallow-water carbonate ramp system characterized by enhanced nutrient levels. LF represent the common constituent of the benthic assemblages that thrived in this setting throughout the Late Paleocene to the Early Eocene. With detailed biostratigraphic and chemostratigraphic analyses documenting the most complete record to date available for the PETM event in a shallow-water marine environment, I correlated chemostratigraphically for the first time the evolution of LF with the δ¹³C curves. This correlation demonstrated that no major turnover in the LF communities occurred synchronous with the PETM; thus the evolution of LF was mainly controlled by endogenous biotic forces. The study of Late Thanetian metric-sized microbialite-coral mounds which developed in the middle part of the ramp, documented the first Cenozoic occurrence of microbially-cemented mounds. The development of these mounds, with temporary dominance of microbial communities over corals, suggest environmentally-triggered “phase shifts” related to frequent fluctuations of nutrient/turbidity levels during recurrent wet phases which preceding the extreme greenhouse conditions of the PETM. The paleoecological study of the coral community in the microbialites-coral mounds, the study of corals from Early Eocene platform from SW France, and a critical, extensive literature research of Late Paleocene – Early Eocene coral occurrences from the Tethys, the Atlantic, the Caribbean realms suggested that these corals types, even if not forming extensive reefs, are common in the biofacies as small isolated colonies, piles of rubble or small patch-reefs. These corals might have developed ‘alternative’ life strategies to cope with harsh conditions (high/fluctuating nutrients/turbidity, extreme temperatures, perturbation of aragonite saturation state) during the greenhouse times of the early Paleogene, representing a good fossil analogue to modern corals thriving close to their thresholds for survival. These results demonstrate the complexity of the biological responses to extreme conditions, not only in terms of temperature but also nutrient supply, physical disturbance and their temporal variability and oscillating character. / Die anthropogene Beeinflussung der Chemie der Atmosphäre in der modernen Zeit wirft die Frage nach dem Schicksal des Systems Erde auf, wenn tausende von Tonnen an Treibhausgasen in kurzer Zeit in die Atmosphäre einströmen. Im Känozoikum trat bereits eine ähnliche Situation während des frühen Paläogens auf, als eine katastrophale Freisetzung von Kohlenstoff in die Atmosphäre einen plötzlichen Anstieg der globalen Temperatur hervorrief. Das am besten dokumentierte dieser Ereignisse stellt das Paläozän-Eozäne Temperatur Maximum (PETM, ~55 Ma) dar, bei welchem die Größenordnung der Kohlenstoffzufuhr in Ozeanen und Atmosphäre jener ähnelte, die in der Zukunft zu erwarten ist. Das damalige Ereignis initiierte eine globale Erwärmung, Veränderungen hydrologischer Kreisläufe, biotische Auslöschung und Abwanderungen. Eine kürzlich veröffentlichte Hypothese zu Veränderungen in marinen Ökosystemen postuliert, dass diese globale Erwärmung die Biosphäre der Flachwässer stark beeinflusste, indem sie Aussterben und Fluktuation innerhalb der Gemeinschaft der Großforaminiferen (GF) sowie den Niedergang einiger Korallen bewirkte. Die Abfolgen der Adriatischen Karbonatplattform (SW-Slovenien) stellen einen idealen Ort dar, um die Hypothese des kausalen Zusammenhangs zwischen dem PETM und der Evolution der Flachwasserorganismen zu überprüfen, da sie aufgrund ihrer kontinuierlichen Sedimentation vom Spätpaläozän bis zum Früheozän und ihres Reichtums an Biota, insbesondere an GF, fundamentale Voraussetzungen für eine detaillierte biostratigraphische Studie erfüllen. Um die Paläoumweltbedingungen während der Sedimentablagerung zu rekonstruieren, wurde der Schwerpunkt dieser Arbeit auf eine sedimentologische Analyse und eine paäoökologische Studie benthischer Vergesellschaftungen gesetzt. Während dem Spätpaläozan bis zum frühesten Eozän fand die Sedimentation auf einem Flachwasser-Rampensystem statt, welches durch ein erhöhtes Nährstoffangebot gekennzeichnet war. GF stellen jenen häufigen und verbreiteten Bestandteil der benthischen Vergesellschaftungen dar, welcher in dieser Umgebung durch das Spätpaläozän hindurch bis ins Früheozän gedeihen konnte. Mit den in dieser Arbeit vorgestellten detaillierten bio- und chemostratigraphischen Analysen, deren Dokumentation den zur Zeit vollständigsten Datensatz für das PETM-Ereignis in einem flachmarinen Milieu repräsentieren, wurde die Evolution der GF zum ersten Mal mit δ¹³C -Kurven chemostratigraphisch korreliert. Diese Korrelation zeigte, dass in den GF-Gemeinschaften keine großmaßstäbliche Fluktuation zeitgleich mit dem PETM auftrat, und dass daher die Evolution der GF hauptsächlich durch endogene biotische Einflüsse kontrolliert worden sein muss. Die Studie mikrobiell-überkrustete Korallenhügel im Größenbereich zwischen einigen Metern und einigen Zehnermetern, die sich im Spätthanetium im mittleren Teil der Rampe entwickelten, dokumentiert das erste Auftreten mikrobiell-zementierter Erhebungen während des Känozoikums. Die Entwicklung dieser Erhebungen, mit einer zeitweiligen Dominanz der mikrobiellen Gemeinschaften gegenüber den Korallen, spricht für ein Auftreten Umwelt-gesteuerter "Phasenverschiebungen" im Zusammenhang mit häufigen Wechseln von Nahrungsangebot und Trübung während wiederkehrender nasser Phasen, welche dem extremen Treibhaus der PETM vorausgingen. Die paläoökologische Studie der Korallen-Gemeinschaften in den mikrobiell-überkrusteten Korallenhügeln, die Studie der Korallen der früheozänen Plattform in SW-Frankreich sowie eine kritische, ausgedehnte Literaturrecherche zum Auftreten spätpaläozäner bis früheozäner Korallen in der Tethys, im Atlantik und in der Karibik sprechen dafür, dass diese Korallentypen – selbst wenn sie nicht ausgedehnte Riffe formen – in der Biofazies häufig als kleine isolierte Kolonien, Berge von Geröll oder kleine Kuppelriffe auftreten. Diese Korallen könnten 'alternative' Überlebensstrategien entwickelt haben, um mit den rauen Bedingungen (hohes/wechselndes Nahrungsangebot, schwache/starke Trübung, schwankende Temperaturen, häufige physikalische Störungen) fertig zu werden, die während den Zeiten des paläogenen Treibhauses vorherrschten, und stellen damit ein gutes fossiles Analog zu modernen Korallen dar, welche nahe an ihrer Überlebensgrenze gedeihen. Diese Ergebnisse zeigen die Komplexität der biologischen Reaktionen auf extreme Bedingungen, nicht nur im Hinblick auf Temperaturen, sondern auch hinsichtlich Nahrungsangebot, physikalische Beeinträchtigungen sowie deren zeitliche Schwankungen und deren oszillierenden Charakter.

Paläoökologie

Paläoklimatologie

Flachwassercarbonate

Foraminifera

Korallen

paleoecology

paleoclimatology

shallow-water carbonates

foraminifera

corals

Earth sciences

Impact of Diagenetic Alterations on Reservoir Quality and Heterogeneity of Paralic and Shallow Marine Sandstones : Links to Depositional Facies and Sequence Stratigraphy

Al-Ramadan, Khalid

January 2006

This thesis constrains the distribution of diagenetic alterations and their impact on reservoir-quality and heterogeneity evolution pathways in relation to depositional environments and sequence stratigraphy (systems tracts and key sequence stratigraphic surfaces) of four selected paralic and shallow marine siliciclastic successions. Typical eogenetic alterations encountered include the dissolution and kaolinitization of framework silicates, which are closely associated to shoreface facies of forced regressive systems tract (FRWST), lowstand systems tract (LST), upper part of the highstand systems tract (HST), and below the sequence boundary (SB). These alterations are attributed to incursion of meteoric water owing to rapid and considerable fall in the relative sea level. Extensive carbonate cementation is most evident below marine and maximum flooding surfaces (MFS), whereas dissolution of carbonate cement and detrital dolomite occur in LST, HST and below SB. Parameters controlling the patterns and texture (microcrystalline vs. poikilotopic) of calcite cement have been constrained within sequence stratigraphic framework of the sandstones. Coarse crystalline to poikilotopic calcite textures of meteoric water origin are thus closely linked to the FRWST, LST and upper part of the HST sandstones and occur mainly as stratabound concretions, whereas microcrystalline calcite, which was precipitated from marine porewaters, occurs as continuously cemented layers in the transgressive systems tract (TST) and lower part of the HST sandstones. Eogenetic alterations impose, in turn, profound control on the distribution pattern of mesogenetic alterations, and hence on reservoir quality evolution (destruction vs. preservation) pathways of sandstones. Eogenetic infiltrated clays, which occur in the tidal estuarine TST and HST sandstones, have helped preserving porosity in deeply buried sandstone reservoirs (≈ 5 km) through inhibition of extensive cementation by quartz overgrowths. Other essential findings of this thesis include deciphering the control on the formation of authigenic illite and chlorite by ultra-thin (≤ 1 µm thick), grain-coating clay mineral substrate.

Bedrock geology

Siliciclastic

Diagenesis

Sequence stratigraphy

Paralic and shallow marine

Heterogeneity

Reservoir quality

Berggrundsgeologi

Environmental sanitation situation and solute transport in variably saturated soil in peri-urban Kampala

Kulabako, Robinah

January 2010

The environmental sanitation situation in Kampala’s peri-urban areas was reviewed and investigated through field studies, structured interviews with personnel from key institutions and administration of questionnaires to households in a selected peri-urban settlement (Bwaise III Parish).  In this settlement, specific field and laboratory measurements were undertaken so as to create a better understanding of the environmental sanitation situation, anthropogenic pollution loads and their transport and impact (with a focus on Phosphorus) in Kampala’s Peri-urban areas in pursuit of interventions for improving the environmental sanitation and protecting the shallow groundwater resource there. The review revealed that the urban poor in Kampala, like elsewhere in developing countries, are faced with inadequate basic services caused by a combination of institutional, legal and socio-economic issues and that the communities’ coping strategies are in most cases detrimental to their health and well-being. Field surveys showed that excreta disposal systems, solid waste and greywater are major contributors to the widespread shallow groundwater contamination in the area. Field measurements revealed that the water table responds rapidly to short rains (48 h) due to the pervious (10-5-10-3 m/s) and shallow (<1 mbgl) vadose zone, which consists of foreign material (due to reclamation). This anthropogenically influenced vadose zone has a limited contaminant attenuation capacity resulting in water quality deterioration following rains. The only operational spring in the area is fed by regional baseflow meaning a wider protection zone. The spring discharge exhibited microbial quality deterioration after rains primarily as a result of poor maintenance of the protection structure. Subsurface phosphorus (P) transport mechanisms appeared to be a combination of adsorption, precipitation, leaching from the soil media and through macropore flow with the latter two playing an important role in the wet season. The Langmuir isotherm described the phosphorus sorption data well (R2³ 0.95) and the best prediction of Langmuir sorption maximum (Cmax) had organic carbon, Ca and available phosphorus and soil pH as significant predictors. Loosely bound P (NH4Cl-P) was the least fraction (<0.4% of total P) in all layers indicating a high binding capacity of P by the soils implying that the soils have a capacity to adsorb additional P loads. Simulation results from the preliminary numerical model built in this study based on field and laboratory measurements indicate that rainfall infiltration rates > 7x10-3 mm/s drive shallow groundwater contamination with higher intense rains of relatively longer duration (³ 70 mm within 48 h) reducing phosphorus transport. Sensitivity analysis of the model input with respect to how long it takes to pollute the subsurfacehad the phosphorus sorption coefficients as being more influential than the pore size and air entry values. There are however, key contrasts between the model simulations and field observations which are useful in guiding new efforts in data collection. The study reveals that intervention measures to improve the environmental sanitation and protect the shallow groundwater in the peri-urban settlements are of a multidisciplinary nature necessitating action research with community participation. / QC 20100917

Environmental Sanitation

Kampala

Modelling

Phosphorus transport

Shallow groundwater

Peri-urban

Vadose zone

Environmental engineering

Miljöteknik

Diagenesis and Sequence Stratigraphy : Predictive Models for Reservoir Quality Evolution of Fluvial and Glaciogenic and Non-glaciogenic, Paralic Deposits

Kalefa, Mohamed

January 2005

Development of a predictive model for the distribution of diagenetic alterations and related evolution of reservoir quality of sandstones was achieved by integrating the knowledge of diagenesis to sequence stratigraphy. This approach allows a better elucidation of the distribution of eogenetic alterations within sequence stratigraphy, because changes in the relative sea level induce changes to: (i) pore water chemistry, (ii) residence time of sediments under certain near-surface geochemical conditions, (iii) variations in the detrital composition, and (iv) amounts and type of organic matter. This thesis revealed that eogenetic alterations, which are linked to sequence stratigraphy and have an impact on reservoir quality evolution, include formation of: (i) pseudomatrix and mechanically infiltrated clays in fluvial sandstones of the lowstand and highstand systems tracts (LST and HST, respectively), (ii) kaolinite in tide-dominated deltaic and foreshore-shoreface sandstones of HST, Gilbert-type deltaic sandstones of LST and fluvial deltaic sandstones of LST, (iii) kaolinite and mechanically infiltrated clays in sandstones lying below sequence boundary, (iv) K-feldspar overgrowths in fluvial deltaic LST, (v) glaucony towards the top of fluvial deltaic LST immediately below and at transgressive surface (TS) and in foreshore and shoreface transgressive systems tracts (TST) below parasequence boundaries (PB) and maximum flooding surface (MFS), (vi) framboidal pyrite and extensive cementation by calcite and dolomite in foreshore and shoreface and tide-dominated deltaic TST, and shoreface and tidal flat HST bioclastic-rich arenites particularly in the vicinity of PB, TS and MFS, (vii) pervasive cementation by iron oxide in shoreface-offshore and shoreface sandstones of TST immediately below the MFS, (viii) zeolites and palygroskite in shoreface sandstones of TST and HST, particularly above PB, and (ix) cementation by siderite in Gilbert-type deltaic sandstones of LST, tide-dominated deltaic and foreshore-shoreface sandstones of HST and in tide-dominated deltaic sandstones of TST, particularly at MFS. Moreover, this thesis revealed that the distribution of eogenetic alterations strongly control, and thus provide information for constraining the distribution patterns of mesogenetic alterations, such as illitization of mechanically infiltrated clays and dickitization of kaolinite, and hence of related reservoir quality evolution of sandstones during progressive burial.

Earth sciences

Siliciclastic diagenesis

Sequence stratigraphy

Glacial and non-glacial

Fluvial

Paralic and shallow marine

Geovetenskap

Earth sciences

Geovetenskap

Application of Factor Analysis in the Identification of a Geochemical Signature of Buried Kimberlites in Near-surface Groundwaters in the Attawapiskat Area of the James Bay Lowlands of Northern Ontario, Canada

Drouin, Marc

24 May 2012

In the James Bay Lowlands of northern Ontario, kimberlite pipes are concealed by peat, thick layers of till, and Tyrell sea sediments. Studies have shown that buried ore bodies produce geochemical signatures in surface media. This thesis explores the geochemistry of near-surface groundwater above concealed kimberlite pipes using factor analysis to determine whether (1) a factor analysis can reveal an underlying structure (factors) in a multivariate groundwater geochemical dataset, and whether (2) those factors are related to the presence of concealed kimberlite. Factor analysis was performed on two datasets of nearsurface groundwater, collected at 0.2 m and 1.1 m below ground surface in peat. Results revealed that (1) there is a significant difference in the behaviour of elements in groundwater near the surface compared to those in deeper groundwater, which is sheltered from the effects of the atmosphere; (2) for both datasets, the first factor is dominated by elements known to be enriched in kimberlite, notably rare earth elements (REE), U, Th, Ti – the composition of factor one is consistent with their derivation from kimberlite in a limestone background where such elements are in very low concentration; (3) high-valence and lowvalence kimberlite indicator elements (KIE) are found separated into distinct factors suggesting that once released from the kimberlite after weathering, KIE are subjected to various geochemical processes to be differentiated as they migrate upward to the surface; and (4) Fe and Mn load on a factor distinct from other metals, suggesting that in this environment Fe-Mn-O-OH is not a significant controller of metal mobility in groundwater. Overall, this research has further highlighted the multivariate nature of geochemical processes in groundwater. Compared with previous work in geochemical exploration where often only univariate or bivariate statistics or single element profiles over concealed ore bodies were used, this thesis has shown that factor analysis, as a multivariate data analysis technique, is a robust exploration tool, able to shed light on relevant geochemical processes hidden within geochemical datasets. This thesis shows that high-valence KIE, notably U,V, Th, Ti and the REE, as a group, are better indicators of the presence of kimberlites than other well-known KIE. Single element concentration profiles such as Ni or Cr (known KIE) show similar anomalies over a concealed kimberlite as a factor score profile for factor one (U, V, Th, Ti, REE, Ni) would; however, it is the peculiar assemblage of elements in factor one that makes it unique to kimberlites, a feature that can be used in future exploration work for concealed kimberlites in similar surficial environments, such as the Siberian wetlands. The results suggest that future geochemical exploration work involving groundwater should focus on the more stable groundwater located below the zone of oxidation, sheltered from the effects of the atmosphere.

Factor Analysis

Kimberlites

Shallow groundwater

Northern Ontario

Geochemical signature

Diamond exploration

High-Resolution Numerical Simulations of Wind-Driven Gyres

Ko, William

January 2011

The dynamics of the world's oceans occur at a vast range of length scales. Although there are theories that aid in understanding the dynamics at planetary scales and microscales, the motions in between are still not yet well understood. This work discusses a numerical model to study barotropic wind-driven gyre flow that is capable of resolving dynamics at the synoptic, O(1000 km), mesoscale, O(100 km) and submesoscales O(10 km). The Quasi-Geostrophic (QG) model has been used predominantly to study ocean circulations but it is limited as it can only describe motions at synoptic scales and mesoscales. The Rotating Shallow Water (SW) model that can describe dynamics at a wider range of horizontal length scales and can better describe motions at the submesoscales. Numerical methods that are capable of high-resolution simulations are discussed for both QG and SW models and the numerical results are compared. To achieve high accuracy and resolve an optimal range of length scales, spectral methods are applied to solve the governing equations and a third-order Adams-Bashforth method is used for the temporal discretization. Several simulations of both models are computed by varying the strength of dissipation. The simulations either tend to a laminar steady state, or a turbulent flow with dynamics occurring at a wide range of length and time scales. The laminar results show similar behaviours in both models, thus QG and SW tend to agree when describing slow, large-scale flows. The turbulent simulations begin to differ as QG breaks down when faster and smaller scale motions occur. Essential differences in the underlying assumptions between the QG and SW models are highlighted using the results from the numerical simulations.

Numerical Methods

Geophysical Fluid Dynamics

Quasi-Geostrophic Model

Shallow Water Model

Applied Mathematics

A Feasibility Test of Acoustic Tomography on Current Estimate in a Shallow Water Environment

Kuo, Nai-Tsung

03 August 2012

Underwater communication is an important research of applied underwater acoustic since sound wave is the only effective way of transmitting messages under water. Underwater communication has always been a complicated problem especially in the shallow water environment due to the influence of multipath propagation. In the past, research on underwater communication had been done mostly by numerical simulation or laboratory experiments instead of doing in real oceanic areas. As a result, several research teams such as the Institute of Oceanography in Taiwan University, the Naval Research Laboratory and the acoustic laboratory of National Sun Yat-sen University Institute of Applied Marine Physics and Undersea Technology had executed a one-week real oceanic area experiment of underwater networking, communication, and acoustical tomography in Sizih Bay Marine Test Field. The experiment adopted 9 sets of underwater modem distributed within the range of 30 square kilometer to transmit, receive signals and collect CTD data. This research adopted part of the data gained from the experiment mentioned above to progress the feasibility test of acoustic tomography on current estimate to shallow water environment. By transmitting and receiving signals between stations, This research study the travel time difference between transmitting signals forward and backward caused by the flow field when using high frequency source in shallow water environment. This research estimated the average current speed and compared it to the weather buoy data from the Harbor and Marine Technology Center. This research discovered that most of the estimated results correspond to the weather buoy's ADCP data. Finally, this research adopted the method which does not require complex mathematics operation to estimate the two-dimensional flow field, and probe into what influence the angle between stations would bring to the deviation of estimating flow speed by using the Monte Carlo method.

Si-Tzi Marine Test Field

shallow water environment

pulse compression

current estimate

acoustic tomography

Cataloging And Statistical Evaluation Of Common Mistakes In Geotechnical Investigation Reports For Buildings On Shallow Foundations

Ozyurt, Gokhan

01 October 2012

Information presented in site investigation reports has a strong influence in design, project costs and safety. For this reason, both the quality and the reliability of site investigation reports are important. However in our country, geotechnical engineering is relegated to second place and site investigation studies, especially parcel-basis ground investigation works / do not receive the attention they deserve. In this study, site investigation reports, that are required for the license of design projects, are examined and the missing/incorrect site investigations, laboratory tests, geotechnical evaluations and geotechnical suggestions that occur in the reports are catalogued. Also, frequency of each mistake is statistically examined / for geotechnical engineers, recommendations and solutions are presented to help them avoid frequent problems.

Q Research 179.9-180

Sequence stratigraphy of the late Pleistocene - Holocene deposits on the northwestern margin of the South Caspian Basin

Rahmanov, Ogtay Rasim

15 November 2004

Interpretation of 900 km of a closely spaced grid of high-resolution seismic profiles over the northwestern margin of South Caspian Basin (SCB) allows recognition and study of six late Pleistocene - Holocene depositional sequences. Sequence stratigraphy analysis of sedimentary strata from 117,000 years B.P. to present led to the identification of a highstand systems tract, two transgressive systems tracts and six lowstand systems tracts. Each systems tract is characterized by specific seismic facies. Diverse depositional processes on the northwestern margin of the SCB are suggested by the thirteen seismic facies patterns recognized in the study area. Two distinct progradational complexes were interpreted within Sequence III and Sequences IV and V in the northeastern and northwestern parts of the study area, respectively. Stratigraphic interpretation of the sequences provided important information on parameters that control depositional architectures, such as lake level fluctuations, tectonic dynamics, and sediment supply. High sedimentation rates combined with a series of high-frequency and high-amplitude lake-level fluctuations, abrupt changes at the shelf edge, abnormally high formation pressure, and high tectonic activity during Quaternary time resulted in the development of a variety of complex geologic drilling hazards. I distinguished three types of hazards as a result of this study: mud volcanoes, sediment instability, and shallow gas. The 2D high-resolution seismic dataset from the northwestern margin of the SCB allowed more detailed seismic sequence stratigraphic analysis in the study area than has previously been attempted. In particular, it has a clear application in deciphering sediment supply and relative lake level changes as well as tectonic relationship of the northwestern shelf margin of the SCB. Results of this work led us towards better understanding of recent depositional history, improved our knowledge of the nature of the basin tectonics, climate history and styles of and controls on sedimentation processes within a sequence stratigraphic framework during the late Pleistocene-Holocene time.

South Caspian Basin

mud volcano

sediment instability

shallow gas

seismic facies

sequence stratigraphy