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In-situ subsurface density estimations using a seismic techniqueFourie, Christoffel Johannes Stephanus 16 January 2009 (has links)
A new geophysical method was developed to satisfy a need for in-situ density measurements. Various situations, such as a gravity dam wall requires that density measurements should be done without damage to the structure. The sample volume should also not be that large in order to be sensitive enough for variations. This method measures the in-situ density of the weathered layer and other man made structures, using seismic waves in three directions. The seismic waves utilized are P-waves and S-waves. It is however surface waves that are treated like body waves because they do not separate at this shallow depth. These waves are very sensitive to the attenuation factor, which is in turn sensitive to certain physical properties of the propagation medium. This factor is utilsed when the multi layer problem is encountered. The maximum depth of exploration is 2-5m and depends solely on the seismic skin depth. This method utilises a large base plate. The source is a large sledge hammer and shots are done at each side of the base plate. Different dominant frequencies are identified and used to calculate the densities of the layers associated with that specific frequency. The velocities of the subsurface are determined by small seismic refraction surveys. The method will find application mainly in the civil and engineering geology fields. The main application will be to determine subsurface densities and small movement elasticity modulli for engineers to aid in obtaining adequate design parameters. Case studies on three different geologic environments are presented. The results indicate that this method will be useful, although certain modifications are recommended to make this method even faster and more user friendly. / Thesis (PhD)--University of Pretoria, 2007. / Geology / unrestricted
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Mapping the Spatial Movements, Behaviors, and Interactions of Captive Orangutans using Terrestrial Laser Scanning and GISSmith, Zachary Joseph 22 April 2014 (has links)
Five captive Bornean orangutans (Pongo pygmaeus) were observed in order to better understand their spatial selection, behavior, and interaction with their environment and each other. A newly introduced adult male's interactions with a female group containing two adults, one adolescent, and one juvenile, was documented. Visual observations were performed to document individual behaviors, along with any interactions with silvery langur monkeys, public crowd levels, temperature, and enrichment props. Methods included 15 observation periods, 0.5-3 hours in length each, during which behaviors were verbally and visually confirmed using a HD video camera. Spatial locations of each individual were recorded every three minutes during each observation period. The orangutan enclosure was measured and mapped using terrestrial laser scanning (TLS), and observed behaviors and spatial locations were georeferenced to the resulting 3D model depicting the exhibit. Results were summarized as time-activity budgets and were geo-visualized using 3D plots and density maps. This research demonstrated how the application of spatiotemporal and behavioral analysis coupled with TLS and three-dimensional modelling can be used to better study captive primates. These types of studies are important as zoos increasingly become home to great ape species.
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Spatial Ecology of Inter- and Post-nesting Green Turtles (Chelonia mydas) on Bioko Island, Equatorial GuineaEmily K Mettler (6620087) 10 June 2019 (has links)
<p>Effective conservation
strategies for sea turtles require knowledge of animal movements and protection
of biologically important habitats and life history stages. For breeding adult
sea turtles, understanding both their inshore and pelagic spatial patterns is
imperative to the successful protection of the species and the accurate
identification of their vulnerabilities. This study provides insight into the inter-nesting,
post-nesting, and foraging movements of green sea turtles (<i>Chelonia mydas</i>) that nest on Bioko Island, Equatorial Guinea, by
using satellite telemetry to track green turtles (n=12) during two nesting
seasons (2017-18, 2018-19), and as they migrated to foraging grounds after the
nesting season. These tracks were fit with a switching state space model to
characterize movements, and then analyzed in relation to environmental and
anthropogenic factors. Dive depth data was also used to determine utilization
patterns within the water column. The 12 tagged turtles migrated for an average
of 1064 km to two distinct foraging grounds, with 10 migrating west for an
average of 1115 km to the coastal waters of Ghana, and 2 migrating south for an
average of 1563 km to the coastal waters of Angola. Migrating turtles used both
direct, pelagic migration strategies, and biphasal, coastal strategies, which
included intermittent foraging throughout migrations. Dive depths varied
depending on behavior, with an average of 19.3 m during inter-nesting, 12.6 m
during migration and 8.5 m during foraging. Knowledge of inter-nesting habitat
use, migration patterns, and foraging ground locations will be critical for the
development of marine conservation management plans in the Gulf of Guinea and
aide in sea turtle conservation efforts throughout the area. Additionally, spatial
and dive depth data can inform zonal fishing regulators and provide information
needed for modifications to fishing practices and gear that is most likely to
reduce sea turtle bycatch. These data will provide a more complete
understanding of marine areas critical to sea turtle conservation and aide in
sustainable economic development in the Gulf of Guinea.</p><br>
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