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College of Natural Science and Mathematics
Courses: Geology (GEOL)
6130:6230: Graduate Seminar
Cr. 1-2 per semester. (0-2;1-2).
6198:6298:6398:6598:6698:6798:6998:
Special Problems
Cr. 1, 2, 3, 5, 6, 7, or 9 per semester. Prerequisite: consent of instructor
or approval of chair.
6199:6299:6399:6499:6599:6699:6999:
Master's Thesis
Cr. 1-9 per semester.
6331: Seismic Data Processing
Cr. 3. (3-0). Prerequisite: Consent of instructor. Detailed use of seismic
exploration tools and routines in a variety of real scenarios, both two-
and three-dimensional, involving land and shallow- and deep-water marine
data.
6339: Igneous Petrology
Cr. 3. (2-3). Prerequisites:
GEOL
3371 and
GEOL
3335 or consent of instructor. Integration of geochemical, geological,
and petrographic data in the interpretation of the origin of igneous rocks.
6341: Geochemistry
Cr. 3. (3-0). Prerequisites:
GEOL
3371 and
GEOL
3335 or consent of instructor. Principles of geochemistry, mineral-water
stability relationships, isotope geochemistry, phase equilibria, and trace
elements in igneous rocks.
6343: Geochemistry of Natural Waters
Cr. 3. (1-6). Prerequisites: graduate standing in NSM or Engineering,
and consent of instructor; recommended: GEOL 6341.
Field trips required; cost to be defrayed by student. A laboratory- and
field-oriented course designed to teach chemical and isotopic analytical
techniques.
6344: Stable Isotope Geochemistry
Cr. 3. (3-0). Prerequisites: graduate standing in NSM or Engineering,
consent of instructor, and GEOL 6341 (or consent
of instructor). The application of stable isotope techniques to earth,
ocean, and atmospheric sciences. Fundamental concepts of isotope equilibrium,
mass balance, and kinetics are emphasized.
6345: Hydrochemistry
Cr. 3. (3-0). Prerequisites:
GEOL
1330 and GEOL 6341 or
CHEM
4370 or
CHEM
4373, and graduate standing in Natural Sciences and Mathematics or
Engineering, or consent of instructor. Application of thermodynamic principles
to predict reactions in fluid-rock systems under low- and high-temperature
and pressure conditions.
6347: Sandstone Petrography
Cr. 3. (2-3). Prerequisites:
GEOL
3371 and
GEOL
3335. Interpretation of provenance, depositional environment, and
diagenesis of sandstones by petrographic analysis.
6348: Carbonate Petrography
Cr. 3. (2-3). Prerequisites:
GEOL
3371 and
GEOL
3335. Discussion and petrographic and hand-specimen analyses of the
origin and diagenesis of carbonate strata and their depositional environments.
6350: Advanced Structural Geology
Cr. 3. (3-0). For geology majors. Prerequisites:
GEOL
3145,
GEOL
3345, and
MATH
2433. Analysis of geologic structures using surface and subsurface
data.
6356: Paleoecology
Cr. 3. (3-0). Prerequisite: consent of instructor. Weekend field trips
required; cost to be defrayed by student. Principles of paleoecology and
analysis of modern and ancient invertebrate populations.
6357: Terrigenous Sedimentology
Cr. 3. (3-0). Prerequisite:
GEOL
3350. Weekend field trips required; cost to be defrayed by student.
Concepts and techniques concerning the processes and products related
to the transportation and deposition of terrigenous sedimentary rocks.
6358: Depositional Models
Cr. 3. (3-0). Prerequisite: graduate standing in Geosciences, or consent
of instructor. Recent sedimentary deposits as a basis for interpreting
the depositional environment of sedimentary rocks. Field trip(s) may be
required, cost to be defrayed by the student.
6359: Geological Analysis
Cr. 3. (3-0). Prerequisites:
GEOL
3145,
GEOL
3345,
GEOL
3150,
GEOL
3350, and
MATH
2433; or consent of instructor. Statistical techniques for analysis
of geologic data and selection of statistical models appropriate to geological
problems.
6363: Carbonate Sedimentology
Cr. 3. (3-0). Prerequisite: Consent of instructor. Field trip(s) required;
cost to be defrayed by student. Discussion of the origins and criteria
of recognition of carbonate accumulations from different depositional
environments.
6366: Hydrogeology
Cr. 3. (3-0). Prerequisites:
CHEM
1332,
MATH
1432,
GEOL
1330, and PHYS 1312, graduate standing in Natural Sciences and Mathematics
or Engineering, or consent of instructor. Field trips may be required;
cost to be defrayed by student. Interdisciplinary study of groundwater,
emphasizing the geologic aspects of groundwater flow and chemistry.
6367: Advanced Hydrogeology
Cr. 3. (3-0). Prerequisites: GEOL 6366 and MATH
2433, and graduate standing in Natural Sciences and Mathematics or
Engineering, or consent of instructor. Advanced topics in hydrologic field
methods and groundwater principles for saturated and unsaturated media,
contaminant transport and numerical simulation of fluid flows.
6368: Fluvial Hydrology
Cr. 3. (3-0). Prerequisite: graduate standing in Geosciences or Engineering,
or consent of instructor. The flow of water and sediment in both overland
and channelized flow conditions, including the hydrologic effects of changing
land use.
6369: Isotope Geochronology
Cr. 3. (3-0). Prerequisites:
GEOL
3335 and
GEOL
3370, or consent of instructor. Commonly used radiogenic isotopic
systems and their applications in geochronology, petrology, and tectonics.
6371: Isotope Geochemistry
Cr. 3. (3-0). Prerequisite: consent of instructor. The fundamentals of
the isotope systems used in the geosciences. The basics of both stable,
radioactive, and radiogenic isotopes will be discussed. Fundamental concepts
of geochronology and stable isotope fractionation and their relevance
to tectonics, stratigraphy, climate, and meteorology will be discussed.
6375: Advanced Tectonics and Sedimentation
Cr. 3. (3-0). Prerequisite:
GEOL
3345. Geologic history of specific regions within a plate tectonic
framework. Origin and evolution of sedimentary basins, development and
evolution of rifts, plate boundaries and orogenic belts. Geologic regions
selected will vary.
6376: Advanced Tectonics and Sedimentation
Cr. 3. (3-0). Prerequisite: consent of instructor. Field trip may be required; cost to be defrayed by student. Examination of sedimentary rocks and sedimentary basins that form near plate boundaries.
6377: Space Geology
Cr. 3. (3-0). Prerequisite: consent of instructor. Planetary bodies and
satellites in the solar system, meteorites, asteroids, comets, impact
cratering, and shock metamorphism.
6380: Sequence Stratigraphy
Cr. 3. (3-0). Prerequisite:
GEOL
3350 or consent of instructor. Subdivision of basin fills into genetic
packages, lithostratigraphic, chronostratigraphic, biostratigraphic, seismostratigraphic
and sedimentological bases for correlation, mapping of facies and stratigraphic
prediction.
6382: Plate Tectonics
Cr. 3. (3-0). Prerequisites:
GEOL
3345 and
GEOL
3350. The historical development of the plate tectonic theory and
its seismological basis; kinematics of plate motion, geometry, and evolution
of plate mosaics; geologic analysis of the structure and history of plate
boundaries and ancient orogenic belts.
6385: Introduction to ArcInfo GIS
Cr. 3. (3-0). Prerequisite: consent of instructor. Utilization of ArcInfo
Geographic Information Systems to capture, store, update, manipulate,
analyze, integrate and display all forms of geographically referenced
information.
6386: Igneous Petrogenesis and Plate Tectonics
Cr. 3. (3-0). Prerequisites:
GEOL
3371 and
GEOL
3335. Major element, trace element and radiogenic characteristics
of magmas generated in different tectonic settings, processes responsible
for chemical diversity of magmas, and petrogenetic models for magmatism
in terms of global tectonic processes.
6387: Reservoir Geophysics
Cr. 3. (3-0). Prerequisite: consent of instructor. Reservoir characterization
using geophysical methods, including time-lapse seismic and permanently-instrumented
reservoirs.
6388: Introduction to Geographic Information
Systems
Cr. 3. (3-0). Prerequisite: Graduate standing or consent of instructor.
Introduction to Geographic Information Systems used in management, analyses
and graphical presentation of spatial data set.
6389: Geographic Information Systems for Geologists
Cr. 3. (3-0). Prerequisite: GEOL 6388 or consent
of instructor. Use of Geographic Information Systems (GIS, ArcInfo, Spatial
Analyst, 3-D Spatial Analyst) in geology, geophysics, geohazards, hydrology,
environmental geosciences, petroleum geology and geophysics.
6390: Three-dimensional Seismic Exploration
1
Cr. 3. (3-0). Prerequisite:
GEOL
4330 or equivalent. Interpretation of the spatial component of three-dimensional
seismic data in geologic structure and stratigraphy with emphasis on hydrocarbon
exploration.
6391: Seismic Modeling (also ECE 6391)
Cr. 3. (3-0). Prerequisite: graduate standing in NSM or Engineering, or
consent of instructor. Use of ray theory, finite difference, finite element,
and pseudo-spectral analysis techniques as well as scaled physical modeling
in simulating seismic wave propagation. Emphasis on understanding wave
phenomena for hydrocarbon exploration.
6392: Migration of Seismic Data (also ECE
6392)
Cr. 3. (3-0). Prerequisite: graduate standing in NSM or Engineering, or
consent of instructor. Covers methods for processing seismic data to obtain
a picture of the subsurface in both two and three dimensions.
6393: Three-dimensional Seismic Exploration
2
Cr. 3. (3-0). Prerequisite:
GEOL
4330 or equivalent. Interpretation of the amplitude component of three-dimensional
seismic data in predicting lithology and hydrocarbons. Correlation with
logs, AVO, impedance inversion and reservoir characterization.
6397: Selected Topics in Geology
Cr. 3 per semester or more by concurrent enrollment. (3-0). Prerequisite:
consent of instructor. May be repeated for credit when topics vary. Current
topics in geology and geophysics.
6399:6699:6999:7399:7699:7999:
Master's Thesis
Cr. 3, 6 or 9 per semester.
7320: Seismic Velocity
Cr. 3. (3-0). Prerequisite: GEOL
7333. Factors governing seismic velocities in earth materials, methods
of measuring velocity, and velocity inversion techniques needed to determine
earth parameters; applications of velocity data to exploration geophysics.
7321: Multicomponent Seismic Processing
Cr. 3. (3-0). Prerequisites: GEOL 7333 and GEOL
7341, or consent of instructor. Multicomponent seismic acquisition
techniques, multicomponent and converted-wave processing, vector prestack
depth migration.
7322: Seismic Inversion: Current Concepts
Cr. 3. (3-0). Prerequisite: GEOL 7332 or GEOL 7333, or consent of instructor. Applied mathematical concepts and geophysical applications of two and three dimensional inversion of seismic data, emphasizing its applications in hydrocarbon.
7323: Borehole Geophysics
Cr. 3. (3-0). Prerequisite: Consent of instructor. Links borehole data
to surface geophysical data. Rock physics, petrophysics, borehole seismics
including VSP, borehole gravity and electromagnetics, well-logging methods.
7330: Potential Field Methods of Geophysical
Exploration
Cr. 3. (3-0). Prerequisite:
MATH
3363 or consent of instructor. Theory of gravitational and magnetic
fields; gravity and magnetic instruments and field procedures; reduction
and quantitative interpretation of gravity and magnetic data.
7333: Seismic Wave and Ray Theory
Cr. 3. (3-0). Prerequisite:
MATH 3321 or consent of instructor. Fundamental
concepts and foundations of wave and ray theory with implications for
the processing of seismic data.
7334: Survey of Field Procedures in Noise Reduction
Cr. 3. (3-0). Prerequisites:
MATH
3364 and GEOL 7333, or consent of instructor.
Field procedures for noise reduction; digital and analog filtering of
seismic data; Fourier transforms, convolution, auto-correlation, cross-correlation,
and deconvolution; application to exploration problems.
7337: Wave-theoretical Seismic Processing
1
Cr. 3. (3-0). Prerequisite: consent of instructor. Objectives, strategies,
strengths and limitations of current seismic reflection data processing.
7338: Wave-theoretical Seismic Processing
2
Cr. 3. (3-0). Prerequisite: consent of instructor. Wave theoretical principles,
wavelet estimation, multiple-attenuation, migration and migration-inversion.
7341: Geophysical Data Processing
Cr. 3. (3-0). Prerequisite:
MATH
3363 or consent of instructor. Principles and methods in processing
of geophysical data, particularly those in discrete form, with emphasis
on sampling theory, Fourier analysis, model fitting, and image processing.
7366: Geophysics of Plate Margins
Cr. 3. (3-0). Prerequisite:
GEOL
4330. A study of the use of geophysical measurements (e.g., gravity,
heat flow, seismic refraction, etc.) in interpreting the evolution of
past and present plate margins.
8198:8398:8498:8698:8798:8898:8998: Doctoral Research
Cr. 1, 3, 4, 6, 7, 8, or 9 per semester. Prerequisites: consent of instructor and approval of chair.
8199:8299:8399:8499:8599:8699:8999: Doctoral Dissertation
Cr. 1-9 per semester. Prerequisite: admission to candidacy as a doctoral student. Doctoral dissertation work in progress.
