Rouse Company Foundation Student Services Building

GEOL 118 Historical Geology Laboratory

Students will analyze rock and fossil data, and apply the basic principles of stratigraphy to reconstruct geologic events. Topographic maps, stratigraphic columns, geologic maps, and cross-sections illustrating various geologic settings will be interpreted. This course has required weekend field trips.

Credits

1

Prerequisite

Pre- or corequisite: GEOL 108

Hours Weekly

3 hours lab weekly

Course Objectives

  1. 1. Communicate geologic concepts and terminology using appropriate symbols, notations, and
    vocabulary.
  2. 2. Apply scientific principles, scientific reasoning, and appropriate mathematical techniques to
    solve problems pertaining to, but not limited to, measurement, unit conversion, mapping,
    tectonic plate movement, isotopic dating and deep time, stratigraphic correlation, relative
    time, and evolutionary theory.
  3. 3. Identify and classify common microfossil and invertebrate macrofossil groups, interpret their
    paleoenvironments, and using relative and absolute dating techniques, correlate and date
    rock units across distances.
  4. 4. Using hands-on analysis techniques, differentiate and classify common rocks and minerals,
    analyze sediment samples, and identify common sedimentary structures in order to interpret
    depositional environments.
  5. 5. Apply the basic principles of lithostratigraphy and biostatigraphy to interpret and construct
    block diagrams, stratigraphic columns, geologic cross-sections, and geologic maps.
  6. 6. Evaluate and explain the reasonableness of solutions to problems related to geology.

Course Objectives

  1. 1. Communicate geologic concepts and terminology using appropriate symbols, notations, and
    vocabulary.
  2. 2. Apply scientific principles, scientific reasoning, and appropriate mathematical techniques to
    solve problems pertaining to, but not limited to, measurement, unit conversion, mapping,
    tectonic plate movement, isotopic dating and deep time, stratigraphic correlation, relative
    time, and evolutionary theory.
  3. 3. Identify and classify common microfossil and invertebrate macrofossil groups, interpret their
    paleoenvironments, and using relative and absolute dating techniques, correlate and date
    rock units across distances.
  4. 4. Using hands-on analysis techniques, differentiate and classify common rocks and minerals,
    analyze sediment samples, and identify common sedimentary structures in order to interpret
    depositional environments.
  5. 5. Apply the basic principles of lithostratigraphy and biostatigraphy to interpret and construct
    block diagrams, stratigraphic columns, geologic cross-sections, and geologic maps.
  6. 6. Evaluate and explain the reasonableness of solutions to problems related to geology.