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         Faults Geology:     more books (100)
  1. Fault (Geology): Geology, Earthquake, Crust (geology), Plate tectonics, Transform fault, Allegheny Plateau, Fault mechanics, Mitigation of seismic motion, Seismic hazard
  2. Geology and fluorspar deposits, Big Four Fault system, Crittenden County, Kentucky (Geological Survey bulletin) by George C Hardin, 1959
  3. Monthly Journal of California Geology, Contains Articles on Fault Evalutiaon and Zoning, Undertanding California's Geology, Resources, Hazards, 1880-1980 CDMG Centennial by The California Division of Mines and Geology., 1980-01-01
  4. Monthly Journal of California Geology : Earthquake Planning Scenarios on the Newport-Inglewood Fault Zone, How do you Prepare for Something Like a Magnitude 7 or 8 Earthquake?, Aggregate Mining in River Systems, and more by California Geology., 1989-01-01
  5. Guide to San Andreas Fault from San Francisco to Hollister (California Division of Mines and Geology, Bulletin 190, Field trip C) by Earl E Brabb, Marshall E. Maddock, et all 1966-01-01
  6. Earthquake: Earthquake. Fault (geology), Aftershock, Induced seismicity, Seismology, Landslide, Soil liquefaction, Tsunami, Flood Emergency management, Earthquake insurance, Historical earthquakes
  7. Wrench fault guide book, Southern California: Structural Geology School, Field Trip by T. P Harding, 1980
  8. The Nature and Tectonic Significance of Fault Zone Weakening (Geological Society Special Publication, No. 186) by R. E. Holdsworth, 2001-10-01
  9. An explanatory text to accompany the fault activity map of California and adjacent areas: With locations and ages of recent volcanic eruptions 1:750,000 scale (Geologic data map) by Charles W Jennings, 1994
  10. Emplacement Mechanisms of Nappes and Thrust Sheets (Petrology and Structural Geology) by Olivier Merle, 1998-10-31
  11. Mechanics, Structure and Evolution of Fault Zones (Pageoph Topical Volumes)
  12. Lineament analysis and inference of geologic structure: Examples from the Balcones Ouachita trend of Texas (Geological circular / Bureau of Economic Geology, University of Texas at Austin) by S. Christopher Caran, 1982
  13. Fault: An entry from UXL's <i>UXL Encyclopedia of Science</i>
  14. TR - Structural Traps III (Treatise of Petroleum Geology/Atlas of Oil and Gas Fields) by Norman H. Foster and Edward A. Beaumont, 1990-12-31

41. Geology - North Carolina (1:250,000) Faults
South_Bounding_Coordinate 33.843 Keywords Theme Theme_Keyword_Thesaurus NoneTheme_Keyword General geology Theme_Keyword faults Theme_Keyword Dikes
http://cgia.cgia.state.nc.us/cgdb/geol250f.html
Geology - North Carolina (1:250,000) Faults
Metadata:
Citation:
Originator: NC DEHNR-Division of Land Resources, NC Geological Survey Title: Geology - North Carolina (1:250,000) Faults Map
Raleigh, North Carolina Publisher: NC DEHNR-Division of Land Resources, NC Geological Survey
NCCGIA distributes this dataset
CGDB layer listing and Metadata -
Description:
Abstract:
The North Carolina Department of Environment, Health, and Natural Resources, Division of Land Resources, NC Geological Survey, in cooperation with the North Carolina Center for Geographic Information and Analysis, developed the GIS data set version of the Geology of North Carolina. The data represents the digital equivalent of the official State Geology map (1:500,000-scale), but was digitized from (1:250,000-scale) base maps. This file contains the line attributes which identify faults in North Carolina. The geologic formation id is the only attribute present. There are two additional files which accompany this layer, formations and dikes. These should be used together with the faults layer. All three files come together. (Refer to the cross references section for more detail on the formations and dikes).
Purpose:
This data was created to assist governmental agencies and others in making resource management decisions through use of a Geographic Information System (GIS).

42. Geology - North Carolina (1:250,000) Faults
NCCGIA digitized the geology features and faults from mylar stable basesidentifying boundary and name attributes of geologic features.
http://cgia.cgia.state.nc.us/cgdb/geol250ff.html
Geology - North Carolina (1:250,000) Faults
Frequently-anticipated questions:
What does this data set describe?
Title: Geology - North Carolina (1:250,000) Faults Abstract:
The North Carolina Department of Environment, Health, and Natural Resources, Division of Land Resources, NC Geological Survey, in cooperation with the North Carolina Center for Geographic Information and Analysis, developed the GIS data set version of the Geology of North Carolina. The data represents the digital equivalent of the official State Geology map (1:500,000-scale), but was digitized from (1:250,000-scale) base maps. This file contains the line attributes which identify faults in North Carolina. The geologic formation id is the only attribute present. There are two additional files which accompany this layer, formations and dikes. These should be used together with the faults layer. All three files come together. (Refer to the cross references section for more detail on the formations and dikes).
This data includes three coverages: geol250, which contains geologic formations; geol250d, which contains dikes; and geol250f, which contains faults.

43. Geology Class Notes
University of Colorado geology 1010 Class Note 10. A thrust fault is a lowanglereverse fault. Reverse faults are the result of compressional stress.
http://ruby.colorado.edu/~smyth/G1010-10.html
University of Colorado GEOLOGY 1010 Class Note 10
Geologic Structures
Stress and Strain
Stress is the applied force. Strain is the resultant deformation. Stress can be compressional, tensional, shear, or isostatic.
  • Compressional stress pushes matter together.
  • Tensional stress pulls matter apart.
  • Shear stress is rotational.
  • Isostatic stress is even pressure as with burial.
All applied stresses cause rock (or any other solid) to deform (strain). Strain can be elastic or plastic.
  • Elastic strain is recovered (disappears) on release of the stress.
  • Plastic strain is not recovered (permanent) on release of stress.
If a material undergoes continuous plastic deformation, it is said to be ductile . If it fractures, it is said to be brittle
Rock Folds
Fig 16.1. Split Mountain Anticline, Dinosaur National Monument, Colorado. This is an example of a plunging, anticlinal fold in Paleozoic and Mesozoic sedimentary rocks. The river is the Green just below its confluence with the Yampa. There are also some pre-Cambrian sediments exposed in the core of this classic anticline, upstream of this photo. Sedimentary rocks that deform plastically are said to form folds

44. Active Faults Of San Francisco & Hollister
and more. Great for anyone with an interest in geology, earthquakes andthe active faults in Northern California. Windows 3.1, Windows
http://www.hoptechno.com/faults.htm
A fascinating insight into some of the most active geological areas in the U.S., by Burt Amundson. Over 200 aerial views, ground photos and maps of the San Andreas, Hayward, Calaveras and Concord faults. Geology includes San Francisco, Daly City, Almaden Winery, Hollister, Hayward, Oakland, Berkeley, Albany, Richmond, Point Pinole and Concord. Descriptive text with full-text search, video with custom music, annotations, bookmarking, and more. Great for anyone with an interest in geology, earthquakes and the active faults in Northern California. Windows 3.1, Windows 95 or higher, 4MB RAM recommended, VGA or better, CD-ROM drive, sound card.
To get to order form, click here.

45. References
8 Buck, WR, Effect of lithospheric thickness on the formation ofhigh and low-angle normal faults, geology, 21, 933-936, 1993.
http://earth.agu.org/revgeophys/bird01/node11.html
Up: Lithosphere dynamics and continental Previous: Huge Displacements of
References
Beghoul, N., M. Barazangi, and B. L. Isacks, Lithospheric structure of Tibet and western North America: Mechanisms of uplift and a comparative study, J. Geophys. Res., 98,
Bergerat, F., C. Bouroz-Weil, and J. Angelier, Paleostresses inferred from macrofractures, Colorado Plateau, western U.S.A., Tectonophysics, 206,
Bird, P., Lateral extrusion of lower crust from under high topography, in the isostatic limit, J. Geophys. Res., 96,
Bird, P., Deformation and uplift of North America in the Cenozoic era, in Scientific Excellence in Supercomputing: the IBM 1990 Contest Prize Papers, 1, edited by K. R. Billingsley, H. U. Brown, III, and E. Derohanes, pp. 67-105, Baldwin Press, Athens, Georgia, 1992a.
Bird, P., Computer simulations of tectonics around the Alaskan syntaxis (abstract), Eos Trans. AGU, 73, Fall Meeting Suppl., 504, 1992b.
Bird, P., and X. Kong, Computer simulations of California tectonics confirm very low strength of major faults, Geol. Soc. Am. Bull., 106

46. Death Valley Geology
The path of these springs often follows faults or fractures in the rocks geology ofDeath Valley and the LOM model The formation of the Death Valley basin is a
http://earthview.sdsu.edu/dvgeology/dv_geology.html
Go Back to Death Valley Flythrough Page
Go Back to Earthview Home Page
Brief explanation of the geology of Death Valley, California General Physiography
Death Valley is located just east of the Sierra Nevada mountain range in California. It is part of the Basin and Range physiographic province of the western United States, just one of the desert basins that lie enclosed between mountain ranges in the southwest. The Basin and Range province includes much of Nevada, western Utah, southern Arizona, southwestern New Mexico, and southeastern California.
General Location Map showing the eastern Sierra Nevada region in California and the southern portion of the state of Nevada:
Death Valley is probably most known for being the lowest land elevation in North and South America. It receives an average annual precipitation of 1.5 inches per year as it is situated in the rainshadow of the mountains to its west. The highest temperatures in the United States in the summer are often recorded in Death Valley where summer temperatures reach an average of about 100 degrees Fahrenheit (average for day and night combined). In the winter, average temperatures are about 60 degrees Fahrenheit. Temperatures commonly exceed 120 degrees Fahrenheit during many days of the summer.
Death Valley also contains one of the world's largest salt pans, consisting of various salts including the most common table salt variety, sodium chloride. Groundwater in the valley is close to the surface but too salty for drinking. Several springs or small seeps, however, do provide a fresh water source for people and animals. The path of these springs often follows faults or fractures in the rocks.

47. Geology Data
Inc. MONTANA geology Southwestern Area, Stereo-Picture Guidebooks.Thrust faults - A guide to some of Montana's thrust faults.
http://www.earthmaps.com/data.htm
Home
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GEOLOGICAL DATA General Geological Data Categories: General Geology - Stereo Photo Data Southwest Montana Geology Maps Southwestern Montana Stereo Photo Data Geology - Publications USGS Bulletins (Out of Print)
  • GEOLOGICAL DATA
GENERAL GEOLOGY - Stereo-Picture Guidebooks Andesites and Rhyolites - A guide to andesites/rhyolites in various parts of the world. This guidebook is available in paper copy, 92 pages, 1999. US$ 20 Click here to purchase guidebook from seller. Basaltic Volcanics - A guide to basaltic volcanics in various parts of the world. This guidebook is available in paper copy, 84 pages, 1998. US$ 17 Click here to purchase guidebook from seller. Detachment Faults, Horsts and Grabens, Rotated Normal Faults, and Rifts - A guide to these geological features in various parts of the U.S.and Africa. This guidebook is available in paper copy, 74 pages. US$ (working on upgrade) Click here to purchase guidebook from seller.

48. Structural Geology
Some of the more informative sites on the www for structural geology inclusive;faults, Folds, Thrusts, Tectonics, Crustal Deformation; also see Plate
http://www.geologyshop.co.uk/struct~1.htm
Structural Geology Some of the more informative sites on the www for structural geology inclusive; Faults, Folds, Thrusts, Tectonics, Crustal Deformation; also see Plate Tectonics From GeologyShop One of the main sites for geological information worldwide . This is one of over 50 link pages plus there are many original articles. Try our site specific SEARCH ENGINE to find the information you want or go to our MAIN INDEX page. Or try our site specific ORIGINAL articles, FREE geological stuff, or use our HOMEWORK AND TUTORIAL GUIDE POPULAR PAGES: Chalk facts Channel Tunnel facts Channel Tunnel geology Dinosaurs, top 20 sites Dictionaries Dinosaurs, early finds Dinosaur pictures Dinosaurs, facts Earthquakes, top 20 sites Education Fossils, top 20 sites Fossils by group Free stuff Gems Geology jobs Geology of Kent Geotechnical engineering Hominids (early man) Ice ages Igneous rocks Landslips of Kent Mesozoic Metamorphic rocks Museums Mineralogy Mining Natural disasters Palaeogeography Palaeozoic Petroleum Planetary geology Plate tectonics Precambrian Sedimentary rocks Stratigraphy Structual geology

49. Pennsylvania - A Keystone Geology: Faults And Folding
PENNSYLVANIA A KEYSTONE geology Index send email. INTERNAL PROCESSES/ faults and Folding. PA PLACE, If you have an idea for a
http://www.outoftherock.net/pageology/internal/faults.html
PENNSYLVANIA - A KEYSTONE GEOLOGY: Index send email
INTERNAL PROCESSES / Faults and Folding
PA PLACE If you have an idea for a Pennsylvania Place, a geological feature or museum that illustrates this geological concept please email it to me at: renewcomer@rohrersquarry.com CONCEPT Look here in the future for a simple explanation of this geological concept. ACTIVITIES Also look here in the future for a fun activity that demonstrates this geological concept. LINKS Know any good spots on the web that relates to this concept? Please email it to me at: renewcomer@rohrersquarry.com
PENNSYLVANIA - A KEYSTONE GEOLOGY: Index send email

50. Faults And Fluids People
BS, University of Oklahoma; MS studies in progress, geology, New Mexico Tech.Thesis topic Structural evolution of smalldisplacement faults in poorly
http://www.ees.nmt.edu/Geol/Faults/Faultsflow/Fluids_People.html
Quick Links:
Faculty Andy Campbell Laurel B. Goodwin
  • Ph.D., Geology, University of California at Berkeley.
  • Research interests: Petrology of tectonites, deformation mechanisms, fault and shear zone geology.
  • lgoodwin@nmt.edu Brian McPherson
  • Ph.D., Geophysics, University of Utah
  • Research Hydrologist, Geophysical Research Center, New Mexico Tech.
  • Research interests: Basin-scale fluid flow and heat flow, CO Sequestration, fluid overpressuring and fracture generation, hydrogeology.
  • brian@nmt.edu Peter S. Mozley
  • Ph.D., Geology, University of California at Santa Barbara.
  • Research interests: Sedimetology and sedimentary petrology, diagenesis and cementation of clastic sediments, sedimentary geochemistry.
  • mozley@nmt.edu Steve Ralser Harold J. Tobin
  • Ph.D., Earth Sciences, University of California at Santa Cruz.
  • Research Geophysicist, Geophysical Research Center, New Mexico Tech.
  • Research interests: Physical properties and seismic imaging of faults, subduction zone fault dynamics.
  • tobin@nmt.edu
  • 51. Faults And Earthquakes; Rockhounding Arkansas
    pressure results in strain energy accumulating in the buried faults, a very To bea seismologist you need an undergraduate degree in geology, geophysics,or
    http://rockhoundingar.com/geology/fault.html

    Geology Merit Badge Trail Introduction
    Plate Tectonics

    Time Scale and History

    Formation of the Ouachitas
    ...
    Careers
    Your Fault, My Fault, and the New Madrid Fault
    I N the earth, a fault is a line of fracture in the rocks where the two sides move by each other. The movement can be up, down or sideways, and it is caused by pressure and tension in the rock. When a sudden movement happens along one of these fault lines, an earthquake happens. A fault can be very small, it can be seen in a single quartz crystal, or it can be very long. The Great Rift Valley in east Africa is over 6000 miles long! California has a famous fault called the San Andreas fault, where the Pacific plate slips past the North American plate. Photos of the ground where faults occur show how rock beds have shifted over the years. Even the river channels get crinked when movement happens along a fault. Although California has more earthquakes, we've had bigger ones in the middle of the continent. Measuring earthquakes
    A recording device called a seismometer is used to measure earthquakes. The Richter scale is what we hear about mostly, and scientists also use a scale called the Moment-Magnitude. The Richter Scale.

    52. Geology Of Mesa Verde National Park, Cortez Quad - Faults (in UTM NAD 83)
    National Park Service Originator Mesa Verde National Park GIS Operations Publication_Date2000 Title geology of Mesa Verde National Park faults (in UTM
    http://www.nps.gov/gis/metadata/meve/meve_cortflt.html
    Geology of Mesa Verde National Park, Cortez Quad - Faults (in UTM NAD 83)
    Metadata:
  • Citation:
    Originator: National Park Service
    Originator: Mesa Verde National Park GIS Operations
    Title:
    Geology of Mesa Verde National Park, Cortez Quad - Faults (in UTM NAD 83)
    map
    Description:
    Abstract:
    The dataset is an ARC/INFO GIS coverage of geologic faults of the Cortez 7.5 minute quadrangle at Mesa Verde National Park (MEVE), Colorado. The coverage was digitized from "Mesa Verde National Park Geology" by Mary O. Griffitts, an unpublished series of maps drafted on stable-base material specifically for this project. The information in CORTFLT is intended to be used in conjunction with other geologic feature coverages generated from the same maps: CORTGLG, CORTJLN, CORTGLN, CORTATD, and CORTDAT. Also, a related accessory table, MEVEMAP.INF, contains series and citation information on the sources used to create this coverage. The information in this coverage is also included in the full, six quadrangle coverage of the Mesa Verde area, MEVEFLT (which covers the Cortez, Point Lookout, Mancos, Wetherill Mesa, Moccasin Mesa, and Trail Canyon quads).
    Purpose:
    The dataset was created as part of the National Park Service (NPS) Geologic Resources Inventory (GRI). It is intended for use in resource management, research, and park planning.
  • 53. Joshua Tree NP/Faults
    http//www.nps.gov/jotr/nature/features/geology/faults/faults.htmllast modified 03/27/02 web editor Sandra kaye.
    http://www.nps.gov/jotr/nature/features/geology/faults/faults.html
    A Desert Park Visiting Activities Nature ... Environmental Factors North America is moving westward over the Pacific Plate at one or two inches per year. When tension builds in rocks from this collision, the strain is released along faults in the form of earthquakes, as the rocks finally break. Joshua Tree is crisscrossed with hundreds of faults, and is a great place to see raw rocks and the effects of earthquakes. The famous San Andreas Fault bounds the south side of the park, and can be observed from Keys View. Blue Cut Fault in the center of the park can be seen from the hilltop behind Lost Horse Mine. The fault forms the straight, abrupt base of the Hexie Mountains east of Queen Valley. Fault zones are important factors in localizing natural springs. Movement by faults causes impervious zones of shattered rock fragments to form an underground dam forcing ground water to rise. The Oasis of Mara at the visitor center in Twentynine Palms marks the Pinto Mountain fault. The park has four other fault-caused oases that support the native palm tree, Washingtonia filifera.

    54. Earthquakes And Faults
    Try searching on subject headings such as geology, faults, EARTHQUAKES,SEISMOLOGY. If you are researching earthquakes or faults
    http://www.csupomona.edu/~library/publications/guides/Quakes/quakes.html
    University Library Cal Poly Pomona
    Earthquakes and Faults
    CONTENTS: Getting Started - Finding Books
    Indexes and Abstracts - Finding Articles

    Locating Faults

    Earthquakes on the Internet
    Getting Started - Finding Books
    For background information, as well as for information on specific earthquakes and faults, look for books using the Library Catalog Try searching on subject headings such as: GEOLOGY, FAULTS, EARTHQUAKES, SEISMOLOGY. If you are researching earthquakes or faults in a particular area, add the name of the state to the subject heading, for example EARTHQUAKES CALIFORNIA. Use the indexes in the books to find references to the earthquakes or faults of interest. You can also try searching on names of specific earthquakes (e.g. LOMA PRIETA) or specific faults (e.g. SAN ANDREAS). However, only major well researched earthquakes and faults will have their own subject headings. The lack of a subject heading for a specific earthquake or fault does not mean that the Library has no material on that subject; try the subject headings listed above. If a subject search is unsuccessful, try using the KEYWORD option. Return to Top
    Indexes and Abstracts - Finding Articles
    Much of the information available on earthquakes is published in journals or in reports of agencies such as the U.S. Geological Survey (USGS) or the California Division of Mines and Geology. The sources listed below will help you locate this material.

    55. Webshots Community - Structural Geology (Faults And Folds) 1
    Structural geology (faults and Folds) 1. Structual geology (faults and Folds)2. Community Scenery Nature Structural geology (faults and Folds) 1.
    http://community3.webshots.com/album/1572530ZHJVxjldaF
    DOWNLOAD WEBSHOTS - FREE GET CD HELP Community Home ...
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    56. Bay Area And California Geology Links
    Region Coastal and Marine geology. California Coastal Mountains; California geology a class; faults in the General Bay Area SF Bay faults; San Francisco/Bay Area
    http://lpc1.clpccd.cc.ca.us/lpc/hanna/locllinks.htm
    BAY AREA GEOLOGY
    Geologic Map from ABAG - Associated Bay Area Governments

    57. Geology And Archeology
    The hypothesis relies extensively on the fact that faults and structures in thebedrock transmit groundwater to the alluvial valleys. 1) Do the faults exist?
    http://www.eggi.com/ken/peru/geology_and_archeology.htm
    Geology and Archeology - the Research Research Plan Bibliography Geophysics Water Quality Sampling ... Archeological Study RESEARCH
    The Johnson Hypothesis argues that many of the geoglyphs mark sources of subsurface water. The hypothesis relies extensively on the fact that faults and structures in the bedrock transmit groundwater to the alluvial valleys. In order to test this idea scientifically five questions must be addressed: 1) Do the faults exist?
    2) Do the faults intersect the valleys?
    3) Is there evidence that the faults transmit water?
    4) Are the faults marked by geoglyphs?
    5) Are there geoglyphs associated with the faults? Preliminary evidence collected over the last three years suggests that water-bearing conduits in the bedrock supply a reliable, high quality source of fresh water to the east-west river valleys.
    return to top
    Research Plan We have developed a multi-faceted research plan to test the Johnson Hypothesis. The plan employs standard geological and hydrogeological techniques in conjunction with customary archaeological methods. A brief description of the research plan follows.

    58. DRAFT Folds And Faults - Structural Geology Lab #1 DRAFT
    ESCI 111 Folds and faults - Structural geology Lab. Horizontal RocksUse the geologic map and the cross-section of the Grand Canyon.
    http://www.homepage.montana.edu/~esci111/111Struct1/FoldsFaultsLab.html
    ESCI 111 - Folds and Faults - Structural Geology Lab Horizontal Rocks
  • Use the geologic map and the cross-section of the Grand Canyon. On the geologic map, notice that the outcrop pattern is roughly parallel to the Colorado River and its many tributaries. Look closer and you will also see the light gray topographic contours on this map. How does the outcrop pattern relate to the topographic pattern? If you hiked from the canyon rim to the river, would the rocks along the way go from older to younger or younger to older? Why? (refer to the relative dating explanation on the Web page) Why is the outcrop pattern of the Bright Angel shale wider than the Muav/Temple Butte limestone, even though these units are of comparable vertical thickness? (look on both the geologic map and the cross-section) Does the width of the rock units on the map represent the actual thickness of the rock layers?
  • Folds, Domes and Basins
  • Using pencil or colored pencil, sketch a cross-section of an anticline and a syncline with 4 layers of rock. Now take an eraser and erase the top half of your sketch to see what these structures look like after they are eroded.
  • 59. Faults
    Fault Contacts. Determining slip directions on faults. Fault gouge. To thecourses Structural geology or geology of the National Parks. To Slide Index.
    http://www.uoregon.edu/~millerm/faults.html
    Faults and Fault Zones
    Normal faults Reverse or Thrust faults Strike-slip faults ... Fault gouge To the courses Structural Geology or Geology of the National Parks To Slide Index

    60. StructureF98 Syllabus
    lecture text Structural geology of rocks and regions, Davis and Reynolds, 1996. faultsI Fault rocks, recognition, classification of faults and fault surfaces
    http://www.uakron.edu/geology/mcconnell/structGeo/syllabus/
    STRUCTURAL GEOLOGY Dr. David McConnell syllabus lectures geology home page Course Information: course number 3370:350-001/011 time: lecture, MWF 11 - 11.50 a.m.; lab M 2.15 - 4.45 p.m. location: Crouse Hall, room 111 lecture text: Structural Geology of rocks and regions, Davis and Reynolds, 1996 Instructor Information: instructor: David McConnell office: Crouse Hall, room 216 office hours: WF 2 - 3.30 p.m. or by appointment phone: 972-8047 e-mail: dmcconnell@uakron.edu Grading Policy: exams: three exams based upon lecture material: 45% of the final grade class participation: 5% of the final grade Ask and answer questions based upon readings and material discussed in class weekly lab exercises: 30% of the final grade 3-day field trip in October with a report: 5% of the final grade paper on topic to be assigned during the semester: 15% of the final grade Information on the paper go to top of page Reading Assignments: You must read the text book to succeed in this class. I will assume you have completed the reading assignments prior to the relevant class period. Some readings will not be discussed directly in class but will be necessary to ensure an understanding of the topics under discussion. Click on the hyperlinks below to go directly to the pages for each week's material Week 1 Introduction. Read pages 2-37.

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