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Oscillatory wave induced boundary layer flow over a rippled bedOurmières, Yann January 2003 (has links)
No description available.
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A design study of a marine diamond mining machineDykes, Keith Aubrey January 2001 (has links)
No description available.
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Palaeoecology, palaeoenvironmental analysis and their application to sequence stratigraphy : Lower Cretaceous, Lusitanian Basin, PortugalAillud, Gary Stefan January 2001 (has links)
Palaeoecological data can provide key information on depositional environments. This may be critical to the interpretation of marine sedimentary cycles and the recognition of ancient cycles and sequences. Although many recent studies have attempted to combine palaeoecology and sequence stratigraphy, the sequence stratigraphic model is commonly used to provide a temporally constrained framework for the evaluation of ecological and evolutionary events. This study shows how palaeoecology can be used as a powerful tool in the development of sequence stratigraphic models. A palaeoecological study of three Lower Cretaceous successions (at Ericeira, Cascais, Cabo Espichel) from the southern part of the Lusitanian Basin, Portugal, provides a basis for this study. This palaeoecological analysis allowed the construction of a detailed picture of the effects of relative sea-level, and other environmental factors, on sedimentary succession evolution. The results of this palaeoecological analysis have been represented on a series of depositional facies trend diagrams. The depositional facies diagrams have then been used to develop the sequence stratigraphy of the southern part of the Lusitanian Basin. The study successions record the temporal changes, and along-strike variation, in the evolution of three mixed carbonate-siliciclastic systems. The base of all the successions represents the development of narrow shelf with minor wave reworking. Siliciclastics were introduced by sand and gravel-load river dominated deltas with little reworking of the sediment at the channel mouths. This was characterised by the development of a clastic beach-barrier at Ericeira and a 'cool-water' carbonate ramp at Cascais. At Cabo Espichel a coral biostrome developed where coral ecology was controlled by terrigenous sedimentation and turbidity. The upper part of the successions represent a change in the morphology of the basin. A broad, shallow, low energy carbonate shelf developed that dissipated wave energy. In the nearshore environment siliciclastics were prevalent. The shelf carbonates are characteristic of the 'cool-water' type carbonates of the Cretaceous Tethyan realm. The more proximal Ericeira and Cabo Espichel successions record the alternation between marginal marine siliciclastic and shallow-water marine carbonate environments. The Cascais succession is characterised by carbonate platforms with abundant coral and rudist bivalve faunas. Palaeoecological analysis and development of the depositional facies trend diagrams have allowed the identification of one mega-sequence (2nd order), six sequences (3rd order) and higher resolution sequences and parasequences (4th order). 2nd and 3rd order sequences are correlatable across the southern part of the Lusitanian Basin. They also correlate with previously published sequence chronostratigraphy for the Tethyan realm. The palaeoecological analysis indicates that 2nd and 3rd order sequences are controlled by allocyclic processes and that 4th order cycles (sequences and parasequences) were dominated by autocyclic processes. As a result 4th order cycles cannot be correlated across the basin. This study has shown that detailed palaeoecological analysis can reveal a detailed, and more accurate, picture of the controls on the development of a basin fill than sedimentology alone. Along with the depositional trend diagrams, these data can provide a powerful method for the development of a sequence stratigraphic model and aid to interpretation of a basin fill.
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The application of Biot's theory to sea-bed sedimentsHurley, M. T. January 1989 (has links)
Biot's theory - which explains how sediments respond to stresses - has been applied to different sea-bed sediments. To successfully use Biot's theory as a predictive tool, sensitivity studies showed the following experimental measurements are required: the frame bulk modulus. the shear modulus, the tortuosity, the permeability and the porosity. These properties were determined for turbidite sediments from the North Atlantic Ocean (Site 1). and carbonates from the Western Indian Ocean -. (Site 2). The following experimental observations " were made: the permeability varies over 7 orders of magnitude for turbidites from Site 1 due to technique dependent and intrinsic reasons; in-situ shear moduli are 4 times greater than values determined from samples in the laboratory; shear modulus results from resonant column and bender element transducer techniques agree well: experiments designed for obtaining the frame bulk modulus are problematic, and it is difficult to determine pore size / geometry parameters apart from the tortuosity. Biot's theory was used to predict the response of sea-bed sediments to hydrodynamic and ultrasonic stresses. A new low frequency hydrodynamic boundary-value solution was developed from Biot's theory, allowing predictions of tidally-induced pore-pressures. Comparisons between predictions and in-situ measurements at Site 1 were favourable, verifying Biot's theory at low frequencies. At ultrasonic frequencies, Biot predictions of the velocity and attenuation of fast and slow compressional waves were compared to experimental measurements. The slow wave was argued to be induced at free-flow boundaries. and was found to be very difficult to detect in soft water-saturated sediments. A qualitative agreement was shown between Biot fast wave attenuation predictions and new experimental attenuation measurements on a bar of sandstone. For Sites 1 and 2, Biot predictions for the increases in the fast wave velocity for high porosity - permeability sediments agreed with experimental measurements. Elsewhere in the literature, this behaviour has been linked to an increase of the frame bulk modulus with increases in porosity. Alternatively, it was argued such increases in fast wave velocity can be attributed to Biot's dispersion mechanism. and hence are a verification of his theory at high frequencies.
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Stress-strain and strength characteristics of a low plasticity clayGens, Antonio January 1982 (has links)
No description available.
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An experimental study of near-bed hydrodynamics under a combination of waves and steady current, and the effect of this on sediment transportSavell, I. A. January 1986 (has links)
No description available.
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A geophysical study of the northern Red SeaSouthren, T. C. January 1986 (has links)
No description available.
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The origin of fine grained magnetite in sedimentsGibbs, Zoe Elizabeth January 2000 (has links)
No description available.
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Studies of aspects of predation on the Manx scallop, Pecten maximus (L.) populationsPennington, David January 1999 (has links)
No description available.
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Some legal aspects of the International Sea-Bed AuthorityAl-Metairi, Metlaq January 1989 (has links)
No description available.
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