Academic Calendar

Keys and Symbols Reference

A fascinating tour of our active planet. Explore earth materials (rocks and minerals), the continents’ motions and related origins of earthquakes, volcanoes, mountain building, oceans, landscapes, natural energy and economic resources, global warming and other topics. Students are encouraged but not required to enroll concurrently in 105L.

Meets New Mexico Lower-Division General Education Common Core Curriculum Area III: Science (NMCCN 1114).

Minerals, rocks and topographic and geologic maps; field trips.

Meets New Mexico Lower-Division General Education Common Core Curriculum Area III: Science (NMCCN 1114).

Pre- or corequisite: 101.

{Fall, Spring}

Eight- to 16-week courses on selected topics relating directly to the human experience, e.g., Volcanoes, Extinctions, Weather, Earthquakes, New Mexico’s Water, Soils, Nuclear Hazards, Geomagnetism, Albuquerque Field Geology and the Geology of Everyday Life.

{Fall, Spring}

Causes and effects of disastrous geological events, including earthquakes, volcanic eruptions, tsunamis, landslides and floods.

Elrick, Smith.

Origin and history of the Earth including age of the planet and dating of rocks, changing configurations of oceans and continents as a result of plate tectonics, records of climate change, history of formation and erosion of mountain chains, origin and evolution of life and causes of extinction. Required field trip and lab exercises permit understanding of how Earth history is interpreted from the geologic rock record.

Meets New Mexico Lower-Division General Education Common Core Curriculum Area III: Science (NMCCN 1114).

Prerequisite: 101 or ENVS 101.

Pre- or corequisite: 105L or ENVS 102L.

{Fall, Spring}

Kues.

Survey of geologic features of New Mexico including structures, land forms, stratigraphy, fossils, geologic history and mineral resources. A course in elementary geology recommended.

Gutzler.

(Also offered as GEOG 251)

Description of weather phenomena, principles of atmospheric motion, weather map analysis and weather prediction.

Fischer.

Types of volcanoes and eruption products, role of volcanism in planetary evolution, volcanoes as sources of geothermal energy and mineral deposits, volcanic hazards and disasters, environmental effects of volcanic eruptions.

Prerequisite: 101 or ENVS 101.

Summary of specific areas of geology, designed especially for earth science teachers and other nontraditional students. Subjects may vary from year to year; lectures normally supplemented by laboratory exercises.

Introduction to crystallography, crystal chemistry and their relation to physical and chemical properties of materials. Overview of major structure types and crystal chemistry/occurrence of common rock-forming minerals.

EPS majors must enroll in 301 and 302L in the same semester.

Prerequisite: CHEM 121 and CHEM 123L.

{Fall}

Laboratory exercises in crystallography and crystal chemistry. Hand specimen identification of the common rock-forming minerals.

{Fall}

Introduction to processes leading to formation of igneous and metamorphic rocks. Emphasis on plate tectonic settings and interactions between physical and chemical processes.

Prerequisite: **301 and **302L.

{Spring}

Elrick.

Introduction to origin, petrology and stratigraphic occurrence of sedimentary rocks.

Prerequisite: 201L and **301 and **302L.

Karlstrom.

Nature and origin of rock structures and deformation; map and stereographic projection problems; stress and strain.

Prerequisite: **304L and (PHYC 151 or PHYC 160).

Pre- or corequisite: **303L.

{Spring}

Scientific method based on field observation, analysis of geologic phenomena and geologic history of New Mexico. Written report for each 4-hour field trip to outcrops in the Albuquerque area.

Prerequisite: (101 or ENVS 101) and (105L or ENVS 102L).

Principles and techniques of basic field mapping, layout, preparation, and presentation of maps and cross-sections; construction of geologic reports. Offered as a 3-week summer course (20 consecutive days).

Prerequisite: **304L and **307L.

Smith.

Earth processes and anthropogenic environmental factors and their cycles. Physical and chemical aspects of environmental change will be considered.

Prerequisite: (101 or ENVS 101) and MATH 121 or 123 or 150 or 153 or 162).

(Also offered as GEOG 352)

Gutzler.

Comparison of natural and anthropogenic causes of large-scale climate change. Factors influencing development of mitigation of adaptation policies.

Prerequisite: MATH 121 or MATH 123 or MATH 150 or MATH 153 or MATH 162.

Agee.

Survey of space exploration past, present, and future. Detailed overview of solar system formation, the Sun, the planets and their moons, asteroids, comets, meteorites and astrobiology.

Current topics in geology. For graduate students, may be repeated once for credit towards degree. See description for *490.

Offered on a CR/NC basis only.

Restriction: junior or senior standing.

Sharp.

Examinations of principles governing the distribution of stable isotopes in geological materials and their applications in understanding geochemical processes.

Prerequisite: CHEM 121 and CHEM 123L and MATH 163.

Asmeron.

Geochemistry of igneous, metamorphic and sedimentary rocks. Geochemical methodology.

Prerequisite: CHEM 121 and CHEM 122 and MATH 150.

Kues.

General principles and familiarization with diagnostic features of fossils. Introduction to environmental implications. 8 hours of EPS or BIOL recommended.

Prerequisite: 201L or (BIOL 203 and BIOL 203L).

Crossey.

Principles of aqueous chemistry and processes controlling the composition of natural waters: streams, lakes, groundwater and the oceans.

Prerequisite: **304L or (CHEM 122 and CHEM 124L).

Karlstrom.

Advanced geological field techniques; special field problems concentrating on the tectonic evolution of the Rocky Mountain region. Offered as a 3-week course (20 consecutive days).

Prerequisite: **319L.

{Summer}

(Also offered as PHYC **327)

Applications of gravity, magnetics, seismology, heat flow to the structure, constitution and deformation of earth. Related aspects of plate tectonics and resource exploration.

Prerequisite: MATH 163 and PHYC 161.

Introduction to linear algebra, differential equations, and vector calculus with applications to hydrology, geophysics, and atmospheric sciences.

Prerequisite: MATH 163.

Selected mathematical methods of geological data analysis, including elementary statistics, matrix algebra, multivariate data analysis and Fourier analysis.

Prerequisite: MATH 163.

Gutzler.

A quantitative introduction to the Earth’s climate system, emphasizing processes responsible for maintaining the current climate and governing climate change on global and regional scales, including interactions between the atmosphere, ocean and biosphere.

Prerequisite: MATH 162 and PHYC 160.

Fawcett.

History of the Earth’s climate. Examination of methods in climactic reconstruction and mechanisms of climactic change. Emphasis on Pleistocene and Holocene climactic records.

Prerequisite: 101 or ENVS 101.

Variable course content depending on student interest. Topics may include physical sedimentology, sequence stratigraphy, basin analysis, cycle stratigraphy and chemostratigraphy.

Fischer.

Characteristics and mechanism of volcanic systems, volcanism in various continental and marine tectonic settings. Laboratory to include field and laboratory examination of volcanic rocks and structures and models of volcanic processes.

Prerequisite: **303L.

Scuderi.

Techniques in acquisition, processing, analysis and display of digital, aerial photo and remote-sensing data; regional quantitative morphometry; use of topography and geology with GIS in landscape evolution and analysis.

Prerequisite: (101 or ENVS 101) and 433 and 481L.

(Also offered as CE 441 / 541)

Weissmann.

Hydrologic and geologic factors controlling groundwater flow, including flow to wells. The hydrologic cycle; interactions between surface and subsurface hydrologic systems; regional flow systems. Groundwater geochemistry and contaminant transport.

Prerequisite: CHEM 121 and CHEM 123L and MATH 163 and PHYC 160.

Restriction: senior standing.

(Also offered as WR 576)

Quantitative treatment of the hydrologic cycle–precipitation, evapotranspiration, runoff and subsurface flow; global change and hydrology; catchment and hillslope hydrology; hydrologic system–ecosystem interactions; hydrology and water resources management.

Prerequisite: MATH 163 and PHYC 160.

Restriction: junior or senior standing.

{Fall}

Meyer.

Origin and development of landforms with emphasis on weathering, soils, hillslope processes, fluvial systems and surficial geology; occasional field trips.

Prerequisite: (101 and 105L) or (ENVS 101 and 102L).

(Also offered as ANTH 482L / 582L)

Smith.

Application of geological concepts to archaeological site formation with emphasis on pre-ceramic prehistory of the southwestern United States. Quaternary dating methods, paleoenvironment, landscape evolution, depositional environments. Quaternary stratigraphy, soil genesis, sourcing of lithic materials, site formation processes. Required field trip.

Prerequisite: 101 and 105L and (ANTH 120 and ANTH 122L) and ANTH 220.

Restriction: junior or senior standing.

{Alternate Years}

McFadden.

Application of soils studies to stratigraphic analysis and mapping of Quaternary deposits and geomorphic surfaces; survey of soil classifications; field description of soil profiles; development of soil chronosequences and catenas.

Prerequisite: 101 or ENVS 101.

Student review of geologic literature; preparation and critique of oral presentations.

Prerequisite: **301 or ENVS 330.

Corequisite: EPS 401.

Independent study for departmental honors.

Prerequisite: **303L or ENVS 330.

Candidacy for honors in Earth and Planetary Sciences.

Prerequisite: 493.

Current topics in geology. For graduate students, may be repeated once for credit towards degree. See description for *490.

Offered on a CR/NC basis only.

Sharp.

Examinations of principles governing the distribution of stable isotopes in geological materials and their applications in understanding geochemical processes.

Prerequisite: CHEM 121 and 123L and MATH 163.

Sharp.

Thermodynamics and application to geologic systems, phase equilibria, phase rule, ideal and nonideal solutions.

Prerequisite: 303L and CHEM 121 and 123L and MATH 163.

Asmeron.

Geochemistry of igneous, metamorphic and sedimentary rocks. Geochemical methodology.

Prerequisite: CHEM 121 and CHEM 122 and MATH 150.

Discussion of the origin and evolution of the planets, including planet Earth, based on study of lunar samples, terrestrial samples and meteorites; theory; earth based observations; and space missions.

Crossey.

Principles of aqueous chemistry and processes controlling the composition of natural waters: streams, lakes, groundwater and the oceans.

McFadden, Meyer.

Theory and practice of electron microprobe analysis emphasizing geological materials.

Restriction: permission of instructor and a demonstrated need for the use of instrument.

Karlstrom.

Advanced geological field techniques; special field problems concentrating on the tectonic evolution of the Rocky Mountain region. Offered as a 3-week course (20 consecutive days).

Prerequisite: 319L.

{Summer}

Geissman, Roy.

Restriction: permission of instructor.

Restriction: permission of instructor.

(Also offered as PHYC **327)

Applications of gravity, magnetics, seismology, heat flow to the structure, constitution and deformation of earth. Related aspects of plate tectonics and resource exploration.

Prerequisite: (101 or ENVS 101) and MATH 163 and PHYC 161.

Introduction to linear algebra, differential equations, and vector calculus with applications to hydrology, geophysics, and atmospheric sciences.

Prerequisite: MATH 163.

Asmerom.

Examination of principles governing the abundance of naturally occurring radiogenic isotopes and their use in the study of global geochemical processes.

Gutzler.

A quantitative introduction to the Earth’s climate system, emphasizing processes responsible for maintaining the current climate and governing climate change on global and regional scales, including interactions between the atmosphere, ocean and biosphere. MATH 162 and PHYC 160 recommended.

Principles and practical techniques of transmission and analytical electron microscopy for materials characterization. Topics covered include: diffraction and phase contrast image formation, selected area and convergent beam electron diffraction; energy-dispersive x-ray spectroscopy.

Prerequisite: 587 and 518L.

Smith, Elrick.

Variable course content depending on student interest. Topics may include physical sedimentology, sequence stratigraphy, basin analysis, cycle stratigraphy and chemostratigraphy.

Fischer.

Characteristics and mechanism of volcanic systems, volcanism in various continental and marine tectonic settings. Laboratory to include field and laboratory examination of volcanic rocks and structures and models of volcanic processes.

Prerequisite: **303L.

Maximum of three units of problems can count toward M.S. or Ph.D. course requirements.

Scuderi.

Techniques in acquisition, processing, analysis and display of digital, aerial photo and remote-sensing data; regional quantitative morphometry; use of topography and geology with GIS in landscape evolution and analysis. (101 or ENVS 101) and 433 and 481L are recommended.

(Also offered as CE 541 / 441)

Weissmann.

Hydrologic and geologic factors controlling groundwater flow, including flow to wells. The hydrologic cycle; interactions between surface and subsurface hydrologic systems; regional flow systems. Groundwater geochemistry and contaminant transport.

(Also offered as WR 576)

Quantitative treatment of the hydrologic cycle–precipitation, evapotranspiration, runoff and subsurface flow; global change and hydrology; catchment and hillslope hydrology; hydrologic system–ecosystem interactions; hydrology and water resources management.

Prerequisite: MATH 163 and PHYC 160.

{Fall}

Meyer.

Origin and development of landforms with emphasis on weathering, soils, hillslope processes, fluvial systems and surficial geology; occasional field trips. Intro to Geology or Environmental Science recommended.

(Also offered as ANTH 582L / 482L)

Smith.

Application of geological concepts to archaeological site formation with emphasis on pre-ceramic prehistory of the southwestern United States. Quaternary dating methods, paleoenvironment, landscape evolution, depositional environments. Quaternary stratigraphy, soil genesis, sourcing of lithic materials, site formation processes. Required field trip.

Prerequisite: 101 and 105L and (ANTH 120 and ANTH 122L) and ANTH 220.

{Alternate Years}

McFadden.

Application of soils studies to stratigraphic analysis and mapping of Quaternary deposits and geomorphic surfaces; survey of soil classifications; field description of soil profiles; development of soil chronosequences and catenas. EPS 481L recommended.

Prerequisite: 101 or ENVS 101.

Brearley.

Crystallographic principles; structure, chemistry, physical properties of rock forming minerals.

Prerequisite: **301, **302L, CHEM 122 and CHEM 124L.

Offered on a CR/NC basis only.

Offered on a CR/NC basis only.

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