Global ETD Search

281	Soil properties of soil materials in copper mine tailing disposal berms Ludeke, Kenneth L. January 1972 (has links) No description available. Pima Mining Co. (Tucson, Ariz.) Tailings (Metallurgy) Reclamation of land.
282	Structural geology along the southeastern margin of the Tucson basin, Pima County, Arizona Arnold, Leavitt Clark January 1971 (has links) The Cienega Gap area, located about 27 miles southeast of Tucson, Arizona, has long been noted for its structural complexity. Discordances between sedimentary rocks of Paleozoic, Mesozoic, and Cenozoic age and between these rocks and their granitic basement have led previous workers to propose large -scale northward thrusting in an effort to explain the complex structures observed. An alternative hypothesis invoking southward gliding has been considered by several authors but has been assigned a subordinate role in explaining the deformation. The present study was undertaken in an effort to evaluate the relative suitability of dominantly northward versus dominantly southward movement. In the course of this study nine separate localities were examined and mapped in detail in an effort to evaluate movement direction. Evidence of displacement on low -angle faults or glide surfaces was found in each of the areas examined, and definite evidence of movement direction was recognized in five of these. Large-scale recumbent folding, previously unrecognized in the Colossal Cave and Agua Verde Wash areas, was found to be closely related to local uplift. The asymmetry of the folds, plus a very few observed offsets marginal to the uplifts, were the only criteria found for determining the direction of movement. Evidence of northward, southward, and nearly westward movement was found in the course of the study. Areas in the northern Empire Mountains south of Cienega Gap gave evidence of west – northwestward and northward movement. Areas in the southern Rincon Mountains north of Cienega Gap were found to have undergone dominantly southward movement. Involvement of the Pantano Formation in several of the localities suggests that deformation occurred at least as late as early Oligocene time and probably after middle Miocene time. Cienega Gap was therefore the focus of movement for material which was moving laterally away from areas undergoing uplift in Tertiary time. Arizona basins decollement folds mechanics Pima County Arizona structural geology Tucson Basin United States
283	Comparing the Efficiency and Accuracy of Health Information Exchange (HIE) to the Traditional Process of Medical History Gathering During Admission at the Pima County Adult Detention Complex (PCADC) Chao, Hout, Hernandez, George, McCracken, William, Warholak, Terri January 2014 (has links) Class of 2014 Abstract / Specific Aims: Assess the change in efficiency and accuracy of healthcare in provider access to HIE for medication profiles at the PCADC. Methods: Adults detainees admitted from October 22, 2012 to July 31, 2013 were enrolled in this study. A completed Intake Medical Screening form with self-reported/correction facility staff verified medication list will (the old method) be compared to the medication list obtained by querying the medication HIE (the new method). Descriptive statistics will describe the patients. Statistical significance will be calculated using the McNemar chi-square test for comparing the proportions of omissions (medications and strengths) on the 765PI to the HIE with an a priori alpha of 0.05. Main Results: In progress. Conclusion: HIE has the potential to be a valuable tool for healthcare providers operating at an adult detention facility. Health Information Exchange (HIE) Gathering Process
284	Implementation of Health Information Exchange (HIE) at the Pima County Adult Detention Complex (PCADC): Lessons Learned Backus, James, Hinchman, Alyssa, Hodges, Sara, Warholak, Terri January 2016 (has links) Class of 2016 Abstract and Report / Objectives: To evaluate the successes and failures of the recent implementation of the Arizona Health-e Connection (AzHeC) health information exchange (HIE) at the Pima County Adult Detention Center (PCADC); to identify a generalized infrastructure and draft recommendations for implementing HIE at other correctional facilities. Methods: Participants pertinent to the implementation by current staff at the PCADC were identified through snowball sampling. Interviews were conducted in-person or by telephone using a semi-structured interview guide. Demographics regarding roles and responsibilities during implementation were collected during each interview. Participants were asked for input regarding key aspects and lessons learned from the implementation. Interviews were audio-recorded, transcribed verbatim, and then analyzed with Atlas.ti software for common themes. Results: A total of 12 individuals were interviewed, providing a comprehensive set of perspectives. Six common themes were identified: impact of being a novel implementer; challenges surrounding implementation; problems during implementation; what was done well; benefits of the system; and communication during implementation. Potential barriers that were successfully anticipated were establishing the value of the HIE through pilot studies to obtain early stakeholder buy-in, and addressing legal/privacy issues for the at-risk population in the corrections system. Problems that arose during implementation often involved information technology issues. Conclusions: Despite challenges faced throughout the HIE implementation, improvements in patient care, workflow, and time-savings made a tremendous impact for those involved. The lessons learned and advice given by the participants of this study can provide guidance for other correctional health systems wishing to implement a HIE at their facility. Health Information Exchange (HIE) Arizona Health-e Connection (AzHeC) Implementation
285	The geology of the Contention Mine area, Twin Buttes, Arizona Houser, F. N. (Frederick Northrop), 1924-, Houser, F. N. (Frederick Northrop), 1924- January 1949 (has links) No description available. Contention Mine Region (Ariz.) maps
286	Epithermal veins in the Silver Bell District, Pima County, Arizona Joseph, Nancy Lee, Joseph, Nancy Lee January 1982 (has links) No description available. Geology, Structural. Geology -- Arizona -- Pima County. maps
287	Kinematic analysis of deformation at the margin of a regional shear zone, Buehman Canyon area, Santa Catalina Mountains, Arizona Bykerk-Kauffman, Ann, Bykerk-Kauffman, Ann January 1983 (has links) No description available. Geology -- Arizona -- Pima County. Maps
288	APPLICATION OF STABLE ISOTOPES OF OXYGEN, HYDROGEN, AND CARBON TO HYDROGEOCHEMICAL STUDIES, WITH SPECIAL REFERENCE TO CANADA DEL ORO VALLEY AND THE TUCSON BASIN (GEOCHEMISTRY, ISOTOPE, CARBON-14). CHENG, SONG-LIN. January 1984 (has links) Hydrogeochemical studies are generally qualitative in nature. The goal of this study is to investigate the possibility of quantitative interpretation of hydrogeochemistry by considering the chemical characteristics and the isotopic compositions of oxygen, hydrogen, and carbon of the water. This study examines ephemeral stream and well waters from Canada del Oro valley, southern Arizona. By chemical and isotopic considerations, this study finds that the change of chemical composition of the wash water was mainly due to water-rock interaction. The concentrations of dissolved constituents increase between 10 to 50% from upstream to downstream samples, while the evaporation loss of water is less than 3%. By chemical and isotopic considerations of the well waters, this study identifies three recharge waters in the CDO ground-water system. The chemical and water isotopic compositions of the well waters are results of mixing between these three recharge waters and subsequent dissolution of the aquifer. By thermodynamic consideration, albite, kaolinite, montmorillonite, and calcite are the main phases that influence the chemical characteristics of this ground-water system. Simulations with the computer program PHREEQE verifies the above conclusions. The mechanisms that influence the chemical and carbon isotopic compositions of the water are quite different in a system open to a CO2 gas reservoir than in a closed system. Deines, Langmuir, and Harmon (1974) derived a set of chemical-isotopic equations to calculate the carbon isotopic composition of water under open system condition. Wigley, Plummer, and Pearson (1978) formulated a mass transfer equation to calculate the change of carbon isotopic composition of natural water in closed system environment. This study implements these two type of equations as a subroutine--CSOTOP to the computer program PHREEQE. With this PHREEQE-CSOTOP package, the evolution of carbon chemical and isotopic composition of natural water can be conveniently modeled from open to closed system conditions. This study also uses this package to date water samples from the Tucson basin, and finds that choice of reaction path may cause a difference in carbon-14 age of up to a few thousand years. This study concludes that it is possible to rigorously interpret hydrogeochemistry in a quantitative way. With sufficient measurements to define the reaction path, followed by thermodynamic consideration, chemical-isotopic evaluation, and computer modeling, one should be able to achieve this goal. Geochemistry -- Data processing. Hydrogeology -- Data processing. Isotope geology -- Data processing.
289	A geologic investigation of contact metamorphic deposits in the Coyote Mountains, Pima County, Arizona Carrigan, Francis John, 1941- January 1971 (has links) No description available. Geology -- Arizona -- Pima County. Geology -- Arizona -- Coyote Mountains. Geology, Stratigraphic -- Paleozoic. Mines and mineral resources -- Arizona. Coyote Mountains (Ariz.) maps
290	STRUCTURAL GEOLOGY AND TECTONIC EVOLUTION OF THE NORTHEASTERN RINCON MOUNTAINS, COCHISE AND PIMA COUNTIES, ARIZONA Lingrey, Steven Howard January 1982 (has links) The northeastern Rincon Mountains record a superposed history of low-angle normal-slip shear strain. Moderate- to low-angle faults, mapped previously as Laramide thrust faults, are recognized as normal faults of Tertiary age. Two faults are predominant: a younger-overolder ductile fault forms the base of a metasedimentary carapace, a ductile shear zone (decollement zone) of southwest vergent slip, and an older-over-younger (locally younger-over-older) fault named herein as the San Pedro basal detachment fault forms a brittle shear surface of west-southwest slip. The decollement zone is characterized by passive-slip folding, flexural-flow folding, boudinage, stretched pebbles, and low-angle ductile normal faults. Structural analysis reveals southwest- ergent simple shear strain with a component of superimposed pure shear strain (vertical flattening). The San Pedro basal etachment fault underlies a faulted, distended allochthon. The internal structure of the allochthon is characterized by an imbricate shingling of tilted fault blocks against west-dipping normal faults, suggesting emplacement from the east by an extensional and/or gravitional mechanism. Detachment faulting involved Late Oligocene sedimentary rocks yet cuts ∼26 m.y. old dikes. Mid-Miocene (?) faults form north-trending fault blocks which have rotated rocks of the metamorphic basement and the allochthon eastward. High-angle normal faults of the Basin and Range disturbance form an eastern fault margin across which the northeastern Rincon Mountains have been uplifted. The deformation recorded in the northeastern Rincon Mountains is interpreted to reflect mid-Tertiary crustal extension. Early structural elements define a ductile shear zone which is either truncated or overprinted by a subsequently thinner zone of brittle shear. The shear zone descends stratigraphically westward across the Rincon Mountains. Reconstructions of its mid-Tertiary configuration show the shear zone to be a surface of normal-slip. Displacement near the surface is by brittle shear, but is progressively replaced by ductile shear down-dip. Evolution of the surface superimposes the region of brittle shear against the region of ductile shear. Late Cenozoic block faulting has segmented, tilted, and exhumed the surface. Geology -- Arizona -- Rincon Mountains. Geology, Structural. Geology -- Arizona -- Pima County. Geology -- Arizona -- Cochise County.

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