DOCSLIB.ORG

Program Book

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Program Book ACE 101: Bridging Fundamentals and Innovation In conjunction with: PROGRAM BOOK Download the AAPG Events App! Sign Up for EXPLORER Digital Program Book Sponsored by: and Save 10% Today at the AAPG Center/Bookstore. explorer.aapg.org/register1 2 TABLE OF CONTENTS General Information Technical Program Business Center ........................................................................... 10 Theme Chairs ............................................................................... 41 ACE Service Center ....................................................................... 10 Oral Sessions at a Glance .............................................................. 42 Wi-Fi Hot Spot .............................................................................. 10 Poster Sessions at a Glance .......................................................... 44 Luggage Check ............................................................................. 10 Technical Program Sunday ............................................................ 47 Electronic Capturing ..................................................................... 10 Technical Program Monday ........................................................... 47 Lost and Found ............................................................................. 10 Technical Program Tuesday ........................................................... 59 No Smoking .................................................................................. 10 Technical Program Wednesday ...................................................... 73 How to Get Around ....................................................................... 10 Presenter Cross Reference ............................................................ 86 Safety and Security ....................................................................... 10 Hotel Listing ................................................................................. 10 Room Assignments and Floor Plans Code of Conduct ........................................................................... 10 Committee Business Meetings .................................................... 119 Schedule at a Glance .................................................................... 11 Room Assignments ..................................................................... 120 Hilton Salt Lake City Center Floor Plans ....................................... 121 Highlights Convention Center Floor Plans .................................................... 122 History of Petroleum Geology ........................................................ 13 AAPG/AAPG Foundation Imperial Barrel Award (IBA) Ceremony ...... 13 Exhibitor Information Opening Session and Awards Ceremony ........................................ 13 Exhibitors ................................................................................... 125 Super Basins Forum ...................................................................... 14 Exhibition Floor Plan ................................................................... 126 Discovery Thinking Forum ............................................................. 15 Exhibitor Directory ...................................................................... 128 Michel T. Halbouty Lecture ............................................................ 16 Exhibitor Products and Services .................................................. 140 SEPM Research Symposium .......................................................... 17 The Business of Oil and Gas: The Many Pathways to Success ......... 17 Special Executive Forum: Great Innovation Leaders ........................ 18 DPA Special Forum: The Future Energy Geoscientist ....................... 18 Machine Learning “Unsession” ...................................................... 19 Networking and Events Luncheons ................................................................................... 21 Networking Opportunities ............................................................. 24 Alumni Activities .......................................................................... 24 Career Center ............................................................................... 24 Students ...................................................................................... 26 Young Professionals ..................................................................... 26 SEPM Annual Meeting ................................................................... 28 Social Activity ............................................................................... 30 Guest Program ............................................................................. 30 Earth Science Educator Program ................................................... 31 Exhibition Highlights ..................................................................... 32 International Pavilion .................................................................... 33 Core Like Never Before! ................................................................. 34 Field Trips .................................................................................... 36 Short Courses .............................................................................. 38 3 THANK YOU SPONSORS DIAMOND Registration, Student & Faculty Lounge, Student Participation in Field Trips and Short Courses, PROWESS Short Course, Student Reception, Student Participation in Student Participation in AAPG/SEPM Short Courses and Field Trips, AAPG/SEPM Short Courses and Field Trips Unconscious Bias Luncheon Aisle Signage, Program Book Student Presentation Awards, Technical Program Notepads, AAPG Student Chapter YouTube Competition, Student Participation in Field Trips and Short Courses, Young Professionals Reception TITANIUM Conference Proceedings Digital Library, Directional Signage Smartphone/Mobile App Wi-Fi Hot Spot, Student Volunteers, Poster Presentations Student Participation in Field Trips and Short Courses, PROWESS Short Course Technical Program & Registration Announcement AAPG PROWESS/DEG/SEG Networking Reception, Poster Presentations, Outstanding Student Chapter Awards, Digital Technical Session Signage General Fund PLATINUM Audio Visual General Fund Digital Technical Session Signage Refreshment Break Sponsorship, Student Volunteers, End-of-Day Reception Bars, Young Professionals Meet & Greet, AAPG Twitter Tweet Young Professionals Reception Badge Lanyards, SEPM Student Support, Audio Visual Exhibit Attendee Bags Petroleum Structure & General Fund Geomechanics Division (PSGD) 4 GOLD SILVER End-of-Day Reception Bar, Rocky Mountain Section– General Fund Earth Science Educator Core Display Core Display Luggage Check, Career Center, A Night at the Natural History Program, Michel T. Halbouty Student Assistance Museum of Utah Lecture Series Unconscious Bias Luncheon, Exhibition Food Court Rocky Mountain Section– Core Display Student Participation in Field A Night at the Natural History Trips and Short Courses Museum of Utah BRONZE General Fund Unconscious Unconscious AAPG/SEPM Student Chapter General Fund AAPG LinkedIn Post Bias Luncheon Bias Luncheon Field Trips and Short Courses, General Fund Gretchen Gillis & Dave Cook Unconscious General Fund Career Center Unconscious General Fund General Fund Bias Luncheon Bias Luncheon innovators in isotopes Career Center General Fund General Fund Unconscious Unconscious Bias Luncheon Bias Luncheon INTERNATIONAL PAVILION SPONSORS CORPORATE LEVEL GOLD LEVEL SILVER LEVEL THUNDER EXPLORATION, INC. PATRON MEDIA/SUPPORTING ORGANIZATIONS EXPLORER Student Participation General Fund in AAPG/SEPM Short Sponsorship Courses and Field Trips 5 WELCOME LETTER FROM THE GENERAL CHAIR Dear AAPG Members and ACE 2018 Attendees, On behalf of the American will also be a convention highlight― Association of Petroleum spend your breaks visiting the more Geologists (AAPG), its divisions, than 200 companies, nonprofits, the Society for Sedimentary and universities. As you explore Geology (SEPM), and our host, the the floor, hopefully with a locally Utah Geological Association (UGA), brewed beverage in hand, keep it is my pleasure to welcome you to an eye out for the massive core the 101st Annual Convention and display, the Utah dinosaur exhibit, Exhibition (ACE)—ACE 101: Bridging and the Turbinator rocket car, the Fundamentals and Innovation. world’s fastest wheeled vehicle. In 2017, at the beginning of this Spring in Utah is truly a wonderful process, AAPG told the volunteer time of year. If you were lucky committee that the success of enough to get a coveted spot on the meeting hinges entirely on the one of the many field trips (nearly quality of the technical program… all trips sold out!), you are in for a talk about pressure! Well, I am very real geologic treat. If you were not happy to say, I think this year’s able to secure your spot on a trip, program is one of the best (and no, I am not biased), and no worries, days are long in the spring (sunset at about 8:30 we hope you agree. If you see Technical Program Chair pm) and there are plenty of opportunities for hiking and Lauren Birgenheier or any of the other technical program sightseeing close to downtown Salt Lake City. If you need committee members wandering the halls, please stop and to unwind after a long day of technical sessions, try an easy thank them for their tireless efforts. In fact, nearly 300 hike up City Creek Canyon, or climb to the top of Ensign people contributed in some way to help bring this program Peak
Load more

Recommended publications
  • GSA ROCKY MOUNTAIN/CORDILLERAN JOINT SECTION MEETING 15–17 May Double Tree by Hilton Hotel and Conference Center, Flagstaff, Arizona, USA
    Volume 50, Number 5 GSA ROCKY MOUNTAIN/CORDILLERAN JOINT SECTION MEETING 15–17 May Double Tree by Hilton Hotel and Conference Center, Flagstaff, Arizona, USA www.geosociety.org/rm-mtg Sunset Crater is a cinder cone located north of Flagstaff, Arizona, USA. Program 05-RM-cvr.indd 1 2/27/2018 4:17:06 PM Program Joint Meeting Rocky Mountain Section, 70th Meeting Cordilleran Section, 114th Meeting Flagstaff, Arizona, USA 15–17 May 2018 2018 Meeting Committee General Chair . Paul Umhoefer Rocky Mountain Co-Chair . Dennis Newell Technical Program Co-Chairs . Nancy Riggs, Ryan Crow, David Elliott Field Trip Co-Chairs . Mike Smith, Steven Semken Short Courses, Student Volunteer . Lisa Skinner Exhibits, Sponsorship . Stephen Reynolds GSA Rocky Mountain Section Officers for 2018–2019 Chair . Janet Dewey Vice Chair . Kevin Mahan Past Chair . Amy Ellwein Secretary/Treasurer . Shannon Mahan GSA Cordilleran Section Officers for 2018–2019 Chair . Susan Cashman Vice Chair . Michael Wells Past Chair . Kathleen Surpless Secretary/Treasurer . Calvin Barnes Sponors We thank our sponsors below for their generous support. School of Earth and Space Exploration - Arizona State University College of Engineering, Forestry, and Natural Sciences University of Arizona Geosciences (Arizona LaserChron Laboratory - ALC, Arizona Radiogenic Helium Dating Lab - ARHDL) School of Earth Sciences & Environmental Sustainability - Northern Arizona University Arizona Geological Survey - sponsorship of the banquet Prof . Stephen J Reynolds, author of Exploring Geology, Exploring Earth Science, and Exploring Physical Geography - sponsorship of the banquet NOTICE By registering for this meeting, you have acknowledged that you have read and will comply with the GSA Code of Conduct for Events (full code of conduct listed on page 31) .
    [Show full text]
  • PDF Linkchapter
    Index (Italic page numbers indicate major references) Abalone Cove landslide, California, Badger Spring, Nevada, 92, 94 Black Dyke Formation, Nevada, 69, 179, 180, 181, 183 Badwater turtleback, California, 128, 70, 71 abatement districts, California, 180 132 Black Mountain Basalt, California, Abrigo Limestone, Arizona, 34 Bailey ash, California, 221, 223 135 Acropora, 7 Baked Mountain, Alaska, 430 Black Mountains, California, 121, Adams Argillite, Alaska, 459, 462 Baker’s Beach, California, 267, 268 122, 127, 128, 129 Adobe Range, Nevada, 91 Bald Peter, Oregon, 311 Black Point, California, 165 Adobe Valley, California, 163 Balloon thrust fault, Nevada, 71, 72 Black Prince Limestone, Arizona, 33 Airport Lake, California, 143 Banning fault, California, 191 Black Rapids Glacier, Alaska, 451, Alabama Hills, California, 152, 154 Barrett Canyon, California, 202 454, 455 Alaska Range, Alaska, 442, 444, 445, Barrier, The, British Columbia, 403, Blackhawk Canyon, California, 109, 449, 451 405 111 Aldwell Formation, Washington, 380 Basin and Range Province, 29, 43, Blackhawk landslide, California, 109 algae 48, 51, 53, 73, 75, 77, 83, 121, Blackrock Point, Oregon, 295 Oahu, 6, 7, 8, 10 163 block slide, California, 201 Owens Lake, California, 150 Basin Range fault, California, 236 Blue Lake, Oregon, 329 Searles Valley, California, 142 Beacon Rock, Oregon, 324 Blue Mountains, Oregon, 318 Tatonduk River, Alaska, 459 Bear Meadow, Washington, 336 Blue Mountain unit, Washington, 380 Algodones dunes, California, 101 Bear Mountain fault zone, California,
    [Show full text]
  • Western Earth Surface Processes
    U.S. DEPARTMENT OF THE INTERIOR Prepared in cooperation with the OPEN-FILE REPORT 2007-1010 U.S. GEOLOGICAL SURVEY U.S. NATIONAL PARK SERVICE PLATE 3 OF 3 LIST OF MAP UNITS EXPLANATION [Detailed descriptions of map units are in the accompanying pamphlet] Contact Dashed where approximately located, dotted where concealed Strike and dip of bedding SURFICIAL DEPOSITS Horse Spring Formation (middle and lower Miocene and upper Oligocene) MESOZOIC AND PALEOZOIC ROCKS o15 Inclined af Artifical fill and other land disturbances (Holocene) Thu Horse Spring Formation, undivided(middle and lower Miocene and upper Oligocene) Kmg Muscovite granite at Walker Wash (Upper Cretaceous) v Vertical Qa Young alluvium (Holocene) Thl Lovell Wash Member, limestone and sandstone facies (middle Miocene) 22 Foreland basin deposits s Overturned Qct Colluvium and talus (Holocene to Pleistocene) Thlb Lovell Wash Member, interbedded basalt flows and vents (middle Miocene) Baseline Sandstone (Upper? to Lower Cretaceous) Horizontal e Qe Eolian deposits (Holocene to Pleistocene) Thbl Bitter Ridge Limestone and Lovell Wash Members, undivided (middle Miocene) Kbo Overton Conglomerate Member (Upper? to Lower Cretaceous) Igneous foliation Qp Playa deposits (Holocene to Pleistocene) 18 Thblv Bitter Ridge Limestone and Lovell Wash Members, undivided, with intercalated dacite and basalt flows (middle Miocene) Kbr Red sandstone member (Upper? to Lower Cretaceous) ¦ Inclined Q1a Intermediate-age sidestream alluvium (upper to middle Pleistocene) Thb Bitter Ridge Limestone Member
    [Show full text]
  • Importance of Groundwater in Propagating
    CRevolution 2: Origin and Evolution of the Colorado River System II themed issue Crossey et al. Importance of groundwater in propagating downward integration of the 6–5 Ma Colorado River system: Geochemistry of springs, travertines, and lacustrine carbonates of the Grand Canyon region over the past 12 Ma L.C. Crossey1, K.E. Karlstrom1, R. Dorsey2, J. Pearce3, E. Wan4, L.S. Beard5, Y. Asmerom1, V. Polyak1, R.S. Crow1, A. Cohen6, J. Bright6, and M.E. Pecha6 1Department of Earth and Planetary Sciences, University of New Mexico, Albuquerque, New Mexico, 87131, USA 2Department of Geological Sciences, 1272 University of Oregon, Eugene, Oregon 97403-1272, USA 3U.S. Forest Service, Grand Mesa, Uncompahgre and Gunnison National Forests, Paonia Ranger District, 403 North Rio Grande Avenue, P.O. Box 1030, Paonia, Colorado 81428, USA 4U.S. Geological Survey, 345 Middlefield Road, MS977, Menlo Park, California 94025, USA 5U.S. Geological Survey, 2255 North Gemini Drive, Flagstaff, Arizona 86001, USA 6Department of Geosciences, The University of Arizona, 1040 East 4th Street, Tucson, Arizona 85721, USA ABSTRACT travertines, suggesting a long-lived spring- basins. Bouse carbonates display a southward fed lake/marsh system sourced from western trend toward less radiogenic 87Sr/86Sr values, We applied multiple geochemical tracers Colorado Plateau groundwater. Progressive higher [Sr], and heavier d18O that we attribute (87Sr/86Sr, [Sr], d13C, and d18O) to waters and up-section decrease in 87Sr/86Sr and d13C and to an increased proportion of Colorado River carbonates of the lower Colorado River sys- increase in d18O in the uppermost 50 m of the water through time plus increased evapora- tem to evaluate its paleohydrology over the Hualapai Limestone indicate an increase in tion from north to south.
    [Show full text]
  • Kinematic Evolution of a Large-Offset Continental Normal Fault System, South Virgin Mountains, Nevada
    Kinematic evolution of a large-offset continental normal fault system, South Virgin Mountains, Nevada Robert Brady* Brian Wernicke Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California 91125, USA Joan Fryxell Department of Geological Sciences, California State University, San Bernardino, California 92407, USA ABSTRACT examination of other areas suggests that the John and Foster, 1993); others may have ini- evolutionary sequence seen in the South tiated with steep dips and remained active as The South Virgin Mountains and Grand Virgin Mountains may, in fact, be widely they tilted to shallow dips. Tilting of these Wash trough comprise a mid-Miocene nor- applicable. faults is probably due to combined domino- mal fault system that de®nes the boundary style tilting and isostatically driven footwall between the unextended Colorado Plateau Keywords: Egan Range, kinematics, Lemi- ¯exure (Fig. 1C). Many gently dipping normal to the east and highly extended crust of the tar Mountains, normal faults, South Virgin faults might be best interpreted this way, rath- central Basin and Range province to the Mountains, Yerington. er than invoking rotation by younger struc- west. In the upper 3 km of the crust, the tures. system developed in subhorizontal cratonic INTRODUCTION Detailed geologic studies were conducted in strata in the foreland of the Cordilleran the South Virgin Mountains of southeastern fold and thrust system. The rugged topog- Geologic mapping in the Basin and Range Nevada and northwestern Arizona (Fig. 2), a raphy and lack of vegetation of the area af- province has shown that gently dipping nor- region well suited for testing existing kine- ford exceptional three-dimensional expo- mal faults are common (e.g., Longwell, 1945; matic models of normal faulting.
    [Show full text]
  • Signature Redacted for Privacy. Abstract Approved: "T/ Dr
    AN ABSTRACT OF THE THESIS OF Daniel Glenn Carpenter for the degree ofMaster of Science in the Department of Geology presented onjj February 1989 Title: GEOLOGY OF THE NORTH MUDDY MOUNTAINS.CLARK COUNTY, NEVADA AND REGIONAL STRUCTURAL SYNTHESIS: FOLD-THRUST AND BASIN-RANGE STRUCTURE IN SOUTHERN NEVADA.SOUTHWEST UTAH, AND NORTHWEST ARIZONA Signature redacted for privacy. Abstract approved: "T/ Dr. R. S. Yeats The North Muddy Mountains are locatedin southern Nevada, about 65 km northeast of Las Vegasand near the eastern boundary of the Basin and Rangeprovince. The north-south-trending range block is bounded on theeast and west, respectively, by east- and west-dipping,high-angle normal faults. Sevier age contractional and Cenozoic age extensional structures are present in the range. The Summit thrust and Willow Tankthrust crop out, respectively, on the southwest and northeastsides of the North Muddy Mountains. A newly mapped thrustsegment connects the Summit and Willow Tank thrusts. It juxtaposed Jurassic on Cretaceous age rocks.The most recent displacement on the thrust is bracketed between95.8+1-3.5 Ma (age of youngest deformed rocks) and 93.1+/- 3.4 Ma (age of oldest overlying undefornied beds). These numbers indicate an Albian to Turonian(?) age rangefor the thrust. The Summit-Willow Tank thrust sheet waslater folded by a northwest-southeast-trending, southwest inclined foldtrain by displacement on the Arrowhead fault, aMiocefle and possibly younger(?) extensional structure. The oldest (Albian) synorogenicdeposits in the area contain exotic clasts of formations that werenot involved in local thrusting; the debris was transportedeastward from older thrust sheets. Younger (Cenoinanian) synorogenicbeds are composed of Mesozoic age clastsat the base of the section, grading to early paleozoic age clasts nearthe top (reverse clast stratigraphy).
    [Show full text]
  • Devils Throat Text
    Text and references accompanying Nevada Bureau of Mines and Geology Map 181 Geologic Map of the Devils Throat Quadrangle, Clark County, Nevada by L. Sue Beard1 and David J. Campagna2 1U.S. Geological Survey, Flagstaff AZ 2Department of Geology and Geography, West Virginia University 2012 INTRODUCTION The Devils Throat 7.5-minute quadrangle was mapped from 1989 to 1990, using the 1983 U.S. Geological Survey provisional 7.5-minute quadrangle topographic base map and 1976 Bureau of Land Management color aerial photography (1:31,680-scale). The map was originally published as U.S. Geological Survey Open-file Report 91- 132 (Beard and Campagna, 1991). In addition, it was generalized for compilation of the Geologic Map of the Lake Mead 30′x60′ Quadrangle (Beard et al., 2007). For this publication, some contacts and faults were added or revised from the original map and two cross sections were constructed. This publication is also the first digital color version of this quadrangle. Three adjoining 7.5-minute quadrangles, St. Thomas Gap, Whitney Pocket, and Virgin Peak, have also been mapped (fig. 1: Beard, 1992; Beard, 1993; and Beard, unpublished data). The following discussion is partly summarized from Beard (1996) and Beard et al. (2010), which contain detailed descriptions and analysis of the Cenozoic stratigraphy and structure of the quadrangle and surrounding areas. The Devils Throat quadrangle lies in the central part of the Virgin Mountains, east of the Overton Arm of Lake Mead and west of the Grand Wash trough. The quadrangle is in a relatively low area within the Virgin Mountains with an average elevation of about 1000 m.
    [Show full text]
  • PDF Linkchapter
    Index [Italic page numbers indicate major references] accommodation zone, 37,40,42,57, argillite, 330, 348, 352, 355, 465 present, 471 70, 78, 244 Arguello plate, 4, 13, 18 pull-apart, 360 geometry, 57 Argus Mountains, 349, 385 rhombohedral, 377 kinematics, 57 Arizona, northwestern, 37 sedimentary, 332, 477, 489, 494 actinolite, 84, 89 Arrastre Spring fault, 318,323, 331 structural, 447 agglomerates, 367 Arrow Canyon Range, 240 subsurface, 146, 448 aggregates, 84 Arrowhead Mine fault, 124, 225, 227, Bat Mountain area, 306, 307, 311, 315 Alamo syncline, 230, 232 230 Bat Mountain block, 307, 315 Aleutian subduction zone, 8 Artist Drive Formation, 288 Bat Mountain fault, 307 alkali feldspar, 185 ash, 254 Bat Mountain Formation, 307 alluvial fan deposits, 472 Ash Hill fault, 360 Beatty area, 296 alluvium, 207, 225, 240, 243. 244, Ash Meadow Quadrangle, 307 Beaver Dam Mountains, 116, 143, 272, 284, 297, 307, 356, 368, assimilation, 26, 404, 405, 409 149, 151 426, 489 asthenosphere, 2, 6 Beaver Dam Mountain breakaway, 490 alteration, 78 augite, 26, 395 Beck Spring Dolomite, 348, 350, 354 Alum area, 448, 459, 468, 471 avalanche, debris, 329 bedding, 202, 242 age, 453 Avawatz fault block, 323 geometry, 160 conglomerate facies, 448 Avawatz Formation, 318, 323, 324, bedrock, 144, 242, 243, 244, 297 siltstone-sandstone facies, 451 329, 332 bedrock scarp, 146 stratigraphy, 448 lower, 329 Belted Range tuff, 216 structure, 457 upper, 330 bending, dextral, 279 thickness, 452 Avawatz Mountains, 317, 332 Benton quadrangle, 466 Alum unit, 448, 451 southern,
    [Show full text]
  • The Geology and Structural Significance of the Arch Mountain Area, Northern Black Mountains, Mohave County, Arizona
    UNLV Theses, Dissertations, Professional Papers, and Capstones 5-1989 The geology and structural significance of the Arch Mountain area, northern Black Mountains, Mohave County, Arizona Edward Eschner University of Nevada, Las Vegas Follow this and additional works at: https://digitalscholarship.unlv.edu/thesesdissertations Part of the Geology Commons, and the Tectonics and Structure Commons Repository Citation Eschner, Edward, "The geology and structural significance of the Arch Mountain area, northern Black Mountains, Mohave County, Arizona" (1989). UNLV Theses, Dissertations, Professional Papers, and Capstones. 1416. http://dx.doi.org/10.34917/3339589 This Thesis is protected by copyright and/or related rights. It has been brought to you by Digital Scholarship@UNLV with permission from the rights-holder(s). You are free to use this Thesis in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Thesis has been accepted for inclusion in UNLV Theses, Dissertations, Professional Papers, and Capstones by an authorized administrator of Digital Scholarship@UNLV. For more information, please contact [email protected]. THE GEOLOGY AND STRUCTURAL SIGNIFICANCE OF THE ARCH MOUNTAIN AREA, NORTHERN BLACK MOUNTAINS, MOHAVE COUNTY, ARIZONA by Edward Eschner A thesis submitted in partial fulftllment of the requirements for the degree of Master of Science in Geoscience Department of Geoscience Un1Vers1ty or Nevada, Las Vegas May, 1989 © 1989 Edward Eschner Ali Rights Reserved The thesis of Edward Eschner for the degree of Master of Sc1ence m Geoscience is approved.
    [Show full text]
  • This Report Is Preliminary and Has Not Been Reviewed for Conformity with U.S
    U. S. DEPARTMENT OF THE INTERIOR U.S. GEOLOGICAL SURVEY PRELIMINARY GEOLOGIC MAP OF THE WHITNEY POCKET 7.5-MINUTE QUADRANGLE, CLARK COUNTY, NEVADA by L Sue Beard1 Open-File Report 93-716 This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards or with the North American Stratigraphic Code. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government. '2255 North Gemini Drive Flagstaff, Arizona 86001 SURFICIAL DEPOSITS [Differentiated chiefly by photogeologic techniques and then field-checked] Qa4 Alluvial deposits (Holocene)--Gray to tan or red-tan, unconsolidated, poorly sorted boulders, cobbles, sand, silt and clay. Clasts are typically sub- angular but in some deposits are subrounded. Clast types are dominantly Paleozoic carbonate rocks in south and east part of quadrangle, and dominantly Proterozoic rock clasts in north and west part. Includes deposits in active washes, as well as undissected alluvial fan and alluvial plain deposits. Thickness ranges from 5 to more than 20 m Qct Colluvial, talus, and rockfall deposits (Holocene)-Unconsolidated, very poorly sorted, locally derived slope wash, talus, and rockfall material. Thickness 0 to 10m Qs Dune and sand sheet deposits (Holocene and Pleistocene?)-Red-orange, unconsolidated, well-sorted eolian sand deposited as dunes and sand sheets. Deposits found on west side of mesa capped by Tertiary calcrete (Tc) in southwest part of quadrangle and overlying Navajo Sandstone in extreme southern part. Sand on west side of mesa probably derived from nearby Muddy Creek deposits and from Virgin River to west of quadrangle.
    [Show full text]
  • Preliminary Geologic Map of the St. Thomas 7.5-Minute
    U.S. DEPARTMENT OF THE INTERIOR U.S. GEOLOGICAL SURVEY PRELIMINARY GEOLOGIC MAP OF THE ST. THOMAS 7.5-MINUTE QUADRANGLE, CLARK COUNTY, NEVADA, AND MOHAVE COUNTY, ARIZONA by L. Sue Beard1 Open-File Report 92-326 This report is preliminary and has not been reviewed for conformity with the U.S. Geological Survey editorial standards or with the North American Stratigraphic Code. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government. ^255 North Gemini Drive Flagstaff, Arizona DESCRIPTION OF MAP UNITS SURFICIAL DEPOSITS [Differentiated chiefly by photogeologic techniques and then field-checked] Qa4 Alluvial deposits (Holocene)--Gray to tan or red-tan, unconsolidated, poorly sorted boulders, cobbles, sand, silt and clay. Clasts are typically sub-angular but in some deposits are subrounded. Clast types are dominantly Paleozoic carbonates, although Proterozoic clasts are usually present and locally abundant. Includes deposits in active washes, as well as undissected alluvial fan and alluvial plain deposits. Thickness ranges from 5 to more than 20 m Qct Colluvial, talus, and rockfall deposits (Holocene)--Unconsolidated, very poorly sorted, locally derived slope wash, talus, and rockfall material. Thickness 0 to 10 m Qs Dune and sand sheet deposits (Holocene and Pleistocene?)~Red-orange, unconsolidated, well-sorted eolian sand deposited as dunes and sand sheets. Deposits confined to west part of quadrangle. Sand derived mostly from nearby Navajo Sandstone outcrops. Thickness about 0 to 5 m Qa3 Slightly dissected alluvial and pediment deposits (Holocene and Pleistocene)-- Unconsolidated, poorly-sorted material similar to unit Qa4, but slightly dissected and from l-3m higher than nearby Qa4 deposits.
    [Show full text]
  • Determining the Motion and Location of the Frenchman Mountain Fault, Las Vegas, Nevada: a Paired Basin Analysis and Structural Analysis
    UNLV Theses, Dissertations, Professional Papers, and Capstones 8-2012 Determining the Motion and Location of the Frenchman Mountain Fault, Las Vegas, Nevada: A Paired Basin Analysis and Structural Analysis Laura Margaret Eaton University of Nevada, Las Vegas Follow this and additional works at: https://digitalscholarship.unlv.edu/thesesdissertations Part of the Geology Commons, Geophysics and Seismology Commons, and the Tectonics and Structure Commons Repository Citation Eaton, Laura Margaret, "Determining the Motion and Location of the Frenchman Mountain Fault, Las Vegas, Nevada: A Paired Basin Analysis and Structural Analysis" (2012). UNLV Theses, Dissertations, Professional Papers, and Capstones. 1519. http://dx.doi.org/10.34917/4302283 This Thesis is protected by copyright and/or related rights. It has been brought to you by Digital Scholarship@UNLV with permission from the rights-holder(s). You are free to use this Thesis in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Thesis has been accepted for inclusion in UNLV Theses, Dissertations, Professional Papers, and Capstones by an authorized administrator of Digital Scholarship@UNLV. For more information, please contact [email protected]. DETERMINING THE SIGNIFICANCE AND SENSE OF OFFSET OF THE FRENCHMAN MOUNTAIN FAULT LAS VEGAS,
    [Show full text]