DOCSLIB.ORG

Washington Division of Geology and Earth Resources Open File Report

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Washington Division of Geology and Earth Resources Open File Report l 122 EARTHQUAKES AND SEISMOLOGY - LEGAL ASPECTS OPEN FILE REPORT 92-2 EARTHQUAKES AND Ludwin, R. S.; Malone, S. D.; Crosson, R. EARTHQUAKES AND SEISMOLOGY - LEGAL S.; Qamar, A. I., 1991, Washington SEISMOLOGY - 1946 EVENT ASPECTS eanhquak:es, 1985. Clague, J. J., 1989, Research on eanh- Ludwin, R. S.; Qamar, A. I., 1991, Reeval­ Perkins, J. B.; Moy, Kenneth, 1989, Llabil­ quak:e-induced ground failures in south­ uation of the 19th century Washington ity of local government for earthquake western British Columbia [abstract). and Oregon eanhquake catalog using hazards and losses-A guide to the law Evans, S. G., 1989, The 1946 Mount Colo­ original accounts-The moderate sized and its impacts in the States of Califor­ nel Foster rock avalanches and auoci­ earthquake of May l, 1882 [abstract). nia, Alaska, Utah, and Washington; ated displacement wave, Vancouver Is­ Final repon. Maley, Richard, 1986, Strong motion accel­ land, British Columbia. erograph stations in Oregon and Wash­ Hasegawa, H. S.; Rogers, G. C., 1978, EARTHQUAKES AND ington (April 1986). Appendix C Quantification of the magnitude 7.3, SEISMOLOGY - NETWORKS Malone, S. D., 1991, The HAWK seismic British Columbia earthquake of June 23, AND CATALOGS data acquisition and analysis system 1946. [abstract). Berg, J. W., Jr.; Baker, C. D., 1963, Oregon Hodgson, E. A., 1946, British Columbia eanhquak:es, 1841 through 1958 [ab­ Milne, W. G., 1953, Seismological investi­ earthquake, June 23, 1946. gations in British Columbia (abstract). stract). Hodgson, J. H.; Milne, W. G., 1951, Direc­ Chan, W.W., 1988, Network and array anal­ Munro, P. S.; Halliday, R. J.; Shannon, W. tion of faulting in cenain earthquakes of ysis of Puget Sound earthquake 1962- E.; Shieman, D. R. J., 1990, Canadian the north Pacific. seismograph operations-1987. 1969. Mathews, W. H., 1979, Landslides of cen­ Chan, W.W.; Cessaro, R. K., 1988, Network Palmer, S. P., 1991, Modified Mercalli in­ tral Vancouver Island and the 1946 and array analysis of Puget Sound eanh­ tensity VI and greater earthquakes in earthquake. quake 1962-1969. Washington State, 1928-1990. Muny, T. S.; Crean, P. B., 1986, Numerical Cro11on, R. S.; Crosson, E. L., 1988, A new Qamar, A. I.; Ludwin, R. S., 1991, Earth­ simulation of the tsunami of June 23, detection algorithm for phase arrivals quake intensities. 1946 in British Columbia, Canada. using a regional seismograph network: Rogen, G. C., 1984, The seismograph net­ Nabelek:, J. L, 1989, Rupture characteris­ [abstract). work: in British Columbia-1983 [ab­ tics of large earthquakes along the Juan Crosson, R. S.; Ludwin, R. S., 1989, Re­ stract). de Fuca subduction zone using histori­ gional seismic monitoring in western Stover, C. W., 1988, Washington. cal seismogram,. Washington. Stover, C. W.; Brewer, L. R., 1991, United Rogen, G. C., 1977, A second look at the Crosson, R. S.; Malone, S. D., 1988, Re­ States eanhquakes, 1985. British Columbia earthquake of 23 June, gional seismic monitoring in western Uhrhammer, R. A., 1991, Northern and cen­ 1946 [abstract). Washington. tral Califomia eanhquak:es, 1985. Rogen, G. C.; Hasegawa, H. S., 1978, A Crosson, R. S.; Malone, S. D.; Ludwin, R. University of Washington Geophysics Pro­ second look at the British Columbia S., 1989, Regional seismic monitoring gram, 1988-1991, Quanerly network re­ earthquake of June 23, 1946. in western Washington. pon 91-B on seismicity of Washington Slawson, W. F.; Savage, J.C., 1978, Geo­ Crosson, R. S.; Malone, S. D.; Qamar, A. I.; and nonhem Oregon.• detic deformation associated with the Ludwin, R. S., 1991, 1. Regional seis­ VanDecar, J.C.; Crosson, R. S., 1990, De­ 1946 Vancouver Island, Canada, earth­ mic monitoring in western Washington, termination of teleseismic relative quake [abstract). and, 2. Seismic monitoring of volcanic phase arrival times using multi-channel and subduction proceaaes in Washington cross correlation and least squares. EARTHQUAKES AND and Oregon.• VanDecar, J.C.; Crosson, R. S.; Creager, K. SEISMOLOGY - 1949 EVENT Drysdale, J. A.; Lamontagne, Maurice; Hor­ C., 1990, Teleseismic arrivals recorded Algermi11en, S. T., 1988, Regional and na- ner, R. B., 1989, Canadian earthquakes, over the Cascadia subduction zone­ tional seismic hazard and risk assess­ January 1987 to September 1988. Amplitude variation and calibration of ment. Eaton, J.P., 1989, Denae microearthquake the Washington regional seismic net­ Baker, G. E., 1986, Source parameters of network: study of northern California work [abstract). the magnitude 7.1, 1949, south Puget eanhquakes. • EARTHQUAKES AND Sound, Washington eanhquake deter­ Geomatrix Consultants, Inc., 1988, Seismo­ mined from long-period body waves. tectonic evaluation-Catalog of histori­ SEISMOLOGY - 1872, 1882 Chleborad, A, F.; Schuster, R. L., 1989, cal seismicity, northern Cascade moun­ EVENTS Characteristics of slope failures induced tains geomorphic province. Ludwin, R. S.; Qamar, A. I., 1991, 1882 by the April 13, 1949, and April 29, Homer, R. B.; Kolinsky, R., 1989, Earth­ earthquake rediscovered. 1965, Puget Sound area, Washington, quakes in western Canada from January Ludwin, R. S.; Qamar, A. I., 1991, Reeval­ earthquakes. 1987 to September 1988. uation of the 19th century Washington Chleborad, A. F.; Schuster, R. L., 1990, Iyer, H. M.; Rite, Alan; Kollman, Auriel; and Oregon eanhquake catalog using Ground failure associated with the Knapp, David, 1983, Seismicity in the original accounts-The moderate sized Puget Sound region earthquakes of April Cascades of Oregon and California [ab­ earthquake of May 1, 1882 [abstract). 13, 1949, and April 29, 1965. stract). Scott, N. H., 1976, Evaluation of the epi­ Fajfar, Peter; Vidic, Tomaz; Fischinger, Kollman, Aurie}; Zollweg, J.E., 1982, Ore­ center and intensity of the Pacific North­ Matej, 1990, A measure of earthquake gon seismicity-August 1980 to Octo­ west earthquake of December 14, 1872. motion capacity to damage medium-­ ber 1982. EARTHQUAKES AND period structures. Kollman, Auriel; Zollweg, J.E., 1985, Ore­ SEISMOLOGY - 1918 EVENT Hopper, M. G., 1988, Effects of pall earth­ quakes in the Puget Sound area. gon Cascades earthquake catalog-Au­ Cassidy, J. F.; Ellis, R. M.; Rogen, G. C., gust l, 1980-0ctober 31, 1982 (ab­ Langston, C. A., 1986, Effect of lateral het­ 1987, A re-examination of the 1918 erogeneities on strong ground motion. stract]. (Ma-7) and 1957 (Ms-6) Vancouver Is­ Lester, F. W., 1991, Northern and central land earthquakes (abstract].• Langston, C. A.; Baker, G. E., 1986, Source parameter constraints from strong California seismic network processing. Denison, F. N., 1919, The British Columbia ground motions of the April 13, 1949, earthquake of December 6, 1918. Puget Sound earthquake. INDEX EARTHQUAKES AND SEISMOLOGY - 1990 EVENTS 123 Liu, T.-K., 1980, A spectral density and re­ by the April 13, 1949, and April 29, in the Ferndale eanhquake of June 7, sponse spectra analysis of some eanh­ 1965, Puget Sound area, Washington, 1975. quake records. eanhquakes. Woodcock, S. F.; Couch, R. W., 1975, The Palmer, S. P., 1990, Geotechnical analysis Chleborad, A. F.; Schuster, R. L., 1990, Tillamook earthquakes of 16 June 1973 of liquefaction in Puyallup during the Ground failure associated with the (abstract]. 1949 and 1965 Puget Sound earth­ Puget Sound region eanhquakes of April quakes.• 13, 1949, and April 29, 1965. EARTHQUAKES AND Palmer, S. P.; Shulene, J. A., 1990, Lique­ . Crouse, C. B.; Huang, M.-J.; Shakal, A. F., SEISMOLOGY - 1980 EVENTS faction in Puyallup during the 1949 and 1989, Additional processed accelero­ 111e also MOUNT ST. HELENS - 1965 Puget Sound earthquakes [ab­ gram data recorded during the 1965 EARTHQUAKES AND stract]. Puget Sound, Washington eanhquake SEISMOLOGY Schuster, R. L.; Chleborad, A. F., 1990, [abstract]. Field, M. E., 1983, Sediment failure of No­ Ground failure caused by the 1949 and Hopper, M. G., 1988, Effects of past eanh­ vember 1980, Klamath River Delta, 1965 Puget Sound eanhquakes, western quakes in the Puget Sound area. nonhem California (abstract]. Washington [abstract]. Laane, J. L.; Chen, W.-P.; Grimson, N. L; Field, M. E.; Gardner, J. V.; Jennings, A. E.; Shulene, J. A., 1990, Evidence of liquefac­ Yu, Nan, 1986, The Makran eanhquake Edwards, B. D., 1981, Seafloor failures tion in the Puyallup Valley during the of April, 1983-A possible analogue to caused by the November 8, 1980 eanh­ 1949 and 1965 Puget Sound earth­ the Puget Sound event of 1965 [ab­ quake off nonhem California. quakes. stract]. Lajoie, K. R.; Keefer, D. K., 1981, Investi­ U.S. Army Corps of Engineers, 1949, Re­ Palmer, S. P., 1990, Geotechnical analysis gations of the 8 November 1980 eanh­ port of damage resulting from eanh­ of liquefaction in Puyallup during the quake in Humboldt County, California. quake of 13 April 1949. 1949 and 1965 Puget Sound earth­ Rite, Alan; Iyer, H. M.; Rojas, V., 1980, July quakes.• 1980 Mount Hood eanhquake swarm EARTHQUAKES AND (abstract]. SEISMOLOGY - 1956, 1957 Palmer, S. P.; Shulene, J. A., 1990, Lique­ faction in Puyallup during the 1949 and EARTHQUAKES AND EVENTS 196S Puget Sound earthquakes [ab­ Cassidy, J. F.; Ellis, R. M.; Rogers, G. C., stract]. SEISMOLOGY - 1981-1989 1987, A re-examination of the 1918 Schuster, R. L.; Chleborad, A. F., 1990, EVENTS (Ms-7) and 1957 (Ms-6). Vancouver Is­ Ground failure caused by the 1949 and Clayton, G. A.; Zollweg, J.E., 1987, Terti­ land eanhquakes [abstract].• 1965 Puget Sound eanhquakes, western ary-Quaternary faults and the 1981 Stephens, Ernest, Jr., 1958, Intensity distri­ Washington [abstract]. magnitude S earthquake in the Goat bution study and fault plan solution for Shulene, J. A., 1990, Evidence of liquefac­ Rocks Wilderness, south-central Cas­ the Cape Mendocino, California, eanh­ tion in the Puyallup Valley during the cade Range, Washington (abstract]. quake of October 11, 1956. 1949 and l 96S Puget Sound earth­ Person, W. J., 1981, Eanhquakes, May-June EARTHQUAKES AND quakes. 1981. Twelker, N. H., and Associates, 1966, Dam­ Person, W. J., 1987, Eanhquakes, Novem­ SEISMOLOGY - 1962, 1963 ber-December 1987.
Load more

Recommended publications
  • Canada's Active Western Margin
    Geoscience Canada. Volume 3. Nunber 4 269 in the area of Washington and Oregon seemed necessary geometrically. This suggestion was reiterated by Tobin and Sykes (1968) in their study of the seismicity ofthe regionanddevelopedin established the presence and basic bathymetric trench at the foot of the Canada's Active configuration of an active spreading continental slope, the absence of a ocean ridge system ofl the west coast of clearly defined eastward dipping Beniofl Western Margin - Vancwver Island. The theory of the earthquake zone and the apparently geometrical mwement of rigid quiescent state of present volcanism The Case for lithospheric plates on a spherical earth have all contributed toward a (introducedas the 'paving stone' theory) widespreaa uncertalnfy as to whether Subduction was tirst ~ro~osedand tasted bv subddctlon 1s cbrrently taking place ~c~enziiand Parker (1967) using data (e.8.. Crosson. 1972: ~rivast&a,1973; R. P. Riddihough and R. D. Hyndnan from the N. Pacific and in the global Stacey. 1973). Past subduction, fran Victoria Geophysical Observatory, extension of the theory by Morgan several tens of m.y. ago until at leastone Earth Physics Branch, (1 968) this reglon again played a major or two m y. ago. IS more generally Department Energy, Mines and role Morgan alsoconcluded that a small accepted ana it seems to us that the Resources, block eitof theJuandeFuca ridge (the case for contemporary subduction, in a 5071 W. Saanich Rd. Juan de Fuca plate. Fig. 2) was moving large part, must beargued upona Victoria B. C. independently of the main Pacific plate. continuation into the present of the The possibility that theJuan de Fuca processes shown to be active in the Summary plate is now underthrustingNorth recent geological past.
    [Show full text]
  • Section 5.4.3: Risk Assessment – Flood
    SECTION 5.4.3: RISK ASSESSMENT – FLOOD 5.4.3 FLOOD This section provides a profile and vulnerability assessment for the flood hazard. HAZARD PROFILE This section provides hazard profile information including description, extent, location, previous occurrences and losses and the probability of future occurrences. Description Floods are one of the most common natural hazards in the U.S. They can develop slowly over a period of days or develop quickly, with disastrous effects that can be local (impacting a neighborhood or community) or regional (affecting entire river basins, coastlines and multiple counties or states) (Federal Emergency Management Agency [FEMA], 2006). Most communities in the U.S. have experienced some kind of flooding, after spring rains, heavy thunderstorms, coastal storms, or winter snow thaws (George Washington University, 2001). Floods are the most frequent and costly natural hazards in New York State in terms of human hardship and economic loss, particularly to communities that lie within flood prone areas or flood plains of a major water source. The FEMA definition for flooding is “a general and temporary condition of partial or complete inundation of two or more acres of normally dry land area or of two or more properties from the overflow of inland or tidal waters or the rapid accumulation of runoff of surface waters from any source (FEMA, Date Unknown).” The New York State Disaster Preparedness Commission (NYSDPC) and the National Flood Insurance Program (NFIP) indicates that flooding could originate from one
    [Show full text]
  • Issaquah Honors Kappler
    Newsletter of the Issaquah Alps Trails Club THE ALPINER July August September 2018 Cougar Squak Tiger Grand Ridge Taylor Rattlesnake ISSAQUAH HONORS KAPPLER David Kappler, the longest “Dave has routinely brought serving active member of the positive media attention to Issaquah Alps Trails Club and Issaquah and its outdoor trea- current vice-president for advo- sures. He is an inspiring cacy, has received the highest example to all of us in portray- honor bestowed upon residents ing how one person can ef- of the City of Issaquah: its Hall fectively engage in and make of Fame for a citizen making a their community stronger and lasting contribution to the com- better. Without Dave’s endur- munity. The award was pre- ing legacy of efforts in open sented at the May 8 meeting of space conservation, trails, and the Greater Issaquah Chamber environmental protection, Is- of Commerce. saquah would be a much lesser Nominees for the honor were Kappler cited by Issaquah Mayor Mary Lou Pauly place. evaluated on the following criteria: inspiration, service, “Instead, Issaquah, known for its close connections to leadership, civic-mindedness, activity in drawing posi- nature, stands out as one of the region’s and nation’s most tive attention to the community, fund-raising efforts for desirable places to live. Dave Kappler well deserves a the public good, and length of service to the community. place in Issaquah’s Hall of Fame.” Kappler was nominated by Ken Konigsmark, who wrote The only other IATC member so honored over the years the following in his nomination: is Harvey Manning, club founder.
    [Show full text]
  • Miles Poindexter Papers, 1897-1940
    Miles Poindexter papers, 1897-1940 Overview of the Collection Creator Poindexter, Miles, 1868-1946 Title Miles Poindexter papers Dates 1897-1940 (inclusive) 1897 1940 Quantity 189.79 cubic feet (442 boxes ) Collection Number 3828 (Accession No. 3828-001) Summary Papers of a Superior Court Judge in Washington State, a Congressman, a United States Senator, and a United States Ambassador to Peru Repository University of Washington Libraries, Special Collections. Special Collections University of Washington Libraries Box 352900 Seattle, WA 98195-2900 Telephone: 206-543-1929 Fax: 206-543-1931 [email protected] Access Restrictions Open to all users. Languages English. Sponsor Funding for encoding this finding aid was partially provided through a grant awarded by the National Endowment for the Humanities Biographical Note Miles Poindexter, attorney, member of Congress from Washington State, and diplomat, was born in 1868 in Tennessee and grew up in Virginia. He attended Washington and Lee University (undergraduate and law school), receiving his law degree in 1891. He moved to Walla Walla, Washington, was admitted to the bar and began his law practice. He entered politics soon after his arrival and ran successfully for County Prosecutor as a Democrat in 1892. Poindexter moved to Spokane in 1897 where he continued the practice of law. He switched to the Republican Party in Spokane, where he received an appointment as deputy prosecuting attorney (1898-1904). In 1904 he was elected Superior Court Judge. Poindexter became identified with progressive causes and it was as a progressive Republican and a supporter of Theodore Roosevelt that he was elected to the House of Representatives in 1908 and to the Senate in 1910.
    [Show full text]
  • Cambridge University Press 978-1-108-44568-9 — Active Faults of the World Robert Yeats Index More Information
    Cambridge University Press 978-1-108-44568-9 — Active Faults of the World Robert Yeats Index More Information Index Abancay Deflection, 201, 204–206, 223 Allmendinger, R. W., 206 Abant, Turkey, earthquake of 1957 Ms 7.0, 286 allochthonous terranes, 26 Abdrakhmatov, K. Y., 381, 383 Alpine fault, New Zealand, 482, 486, 489–490, 493 Abercrombie, R. E., 461, 464 Alps, 245, 249 Abers, G. A., 475–477 Alquist-Priolo Act, California, 75 Abidin, H. Z., 464 Altay Range, 384–387 Abiz, Iran, fault, 318 Alteriis, G., 251 Acambay graben, Mexico, 182 Altiplano Plateau, 190, 191, 200, 204, 205, 222 Acambay, Mexico, earthquake of 1912 Ms 6.7, 181 Altunel, E., 305, 322 Accra, Ghana, earthquake of 1939 M 6.4, 235 Altyn Tagh fault, 336, 355, 358, 360, 362, 364–366, accreted terrane, 3 378 Acocella, V., 234 Alvarado, P., 210, 214 active fault front, 408 Álvarez-Marrón, J. M., 219 Adamek, S., 170 Amaziahu, Dead Sea, fault, 297 Adams, J., 52, 66, 71–73, 87, 494 Ambraseys, N. N., 226, 229–231, 234, 259, 264, 275, Adria, 249, 250 277, 286, 288–290, 292, 296, 300, 301, 311, 321, Afar Triangle and triple junction, 226, 227, 231–233, 328, 334, 339, 341, 352, 353 237 Ammon, C. J., 464 Afghan (Helmand) block, 318 Amuri, New Zealand, earthquake of 1888 Mw 7–7.3, 486 Agadir, Morocco, earthquake of 1960 Ms 5.9, 243 Amurian Plate, 389, 399 Age of Enlightenment, 239 Anatolia Plate, 263, 268, 292, 293 Agua Blanca fault, Baja California, 107 Ancash, Peru, earthquake of 1946 M 6.3 to 6.9, 201 Aguilera, J., vii, 79, 138, 189 Ancón fault, Venezuela, 166 Airy, G.
    [Show full text]
  • Mercury's Low-Reflectance Material: Constraints from Hollows
    Mercury’s low-reflectance material: Constraints from hollows Rebecca Thomas, Brian Hynek, David Rothery, Susan Conway To cite this version: Rebecca Thomas, Brian Hynek, David Rothery, Susan Conway. Mercury’s low-reflectance material: Constraints from hollows. Icarus, Elsevier, 2016, 277, pp.455-465. 10.1016/j.icarus.2016.05.036. hal-02271739 HAL Id: hal-02271739 https://hal.archives-ouvertes.fr/hal-02271739 Submitted on 27 Aug 2019 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Accepted Manuscript Mercury’s Low-Reflectance Material: Constraints from Hollows Rebecca J. Thomas , Brian M. Hynek , David A. Rothery , Susan J. Conway PII: S0019-1035(16)30246-9 DOI: 10.1016/j.icarus.2016.05.036 Reference: YICAR 12084 To appear in: Icarus Received date: 23 February 2016 Revised date: 9 May 2016 Accepted date: 24 May 2016 Please cite this article as: Rebecca J. Thomas , Brian M. Hynek , David A. Rothery , Susan J. Conway , Mercury’s Low-Reflectance Material: Constraints from Hollows, Icarus (2016), doi: 10.1016/j.icarus.2016.05.036 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript.
    [Show full text]
  • Production and Saturation of Porosity in the Lunar Highlands from Impact Cratering
    The fractured Moon: Production and saturation of porosity in the lunar highlands from impact cratering The MIT Faculty has made this article openly available. Please share how this access benefits you. Your story matters. Citation Soderblom, Jason M., et al. “The Fractured Moon: Production and Saturation of Porosity in the Lunar Highlands from Impact Cratering.” Geophysical Research Letters, vol. 42, no. 17, Sept. 2015, pp. 6939–44. © 2015 American Geophysical Union As Published http://dx.doi.org/10.1002/2015GL065022 Publisher American Geophysical Union (AGU) Version Final published version Citable link http://hdl.handle.net/1721.1/118615 Terms of Use Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. PUBLICATIONS Geophysical Research Letters RESEARCH LETTER The fractured Moon: Production and saturation 10.1002/2015GL065022 of porosity in the lunar highlands Key Points: from impact cratering • The relation between impact-generated porosity and crater size is quantified Jason M. Soderblom1, Alexander J. Evans2, Brandon C. Johnson1, H. Jay Melosh3, Katarina Miljković1,4, • Impacts into highly porous targets 5 6 7 8 3 result in positive gravity anomalies Roger J. Phillips , Jeffrey C. Andrews-Hanna , Carver J. Bierson , James W. Head III , Colleen Milbury , 9 7 1 2,10 11 • The cratering record of the oldest Gregory A. Neumann , Francis Nimmo , David E. Smith , Sean C. Solomon , Michael M. Sori , lunar surfaces is preserved in the
    [Show full text]
  • Shallow Crustal Composition of Mercury As Revealed by Spectral Properties and Geological Units of Two Impact Craters
    Planetary and Space Science 119 (2015) 250–263 Contents lists available at ScienceDirect Planetary and Space Science journal homepage: www.elsevier.com/locate/pss Shallow crustal composition of Mercury as revealed by spectral properties and geological units of two impact craters Piero D’Incecco a,n, Jörn Helbert a, Mario D’Amore a, Alessandro Maturilli a, James W. Head b, Rachel L. Klima c, Noam R. Izenberg c, William E. McClintock d, Harald Hiesinger e, Sabrina Ferrari a a Institute of Planetary Research, German Aerospace Center, Rutherfordstrasse 2, D-12489 Berlin, Germany b Department of Geological Sciences, Brown University, Providence, RI 02912, USA c The Johns Hopkins University Applied Physics Laboratory, Laurel, MD 20723, USA d Laboratory for Atmospheric and Space Physics, University of Colorado, Boulder, CO 80303, USA e Westfälische Wilhelms-Universität Münster, Institut für Planetologie, Wilhelm-Klemm Str. 10, D-48149 Münster, Germany article info abstract Article history: We have performed a combined geological and spectral analysis of two impact craters on Mercury: the Received 5 March 2015 15 km diameter Waters crater (106°W; 9°S) and the 62.3 km diameter Kuiper crater (30°W; 11°S). Using Received in revised form the Mercury Dual Imaging System (MDIS) Narrow Angle Camera (NAC) dataset we defined and mapped 9 October 2015 several units for each crater and for an external reference area far from any impact related deposits. For Accepted 12 October 2015 each of these units we extracted all spectra from the MESSENGER Atmosphere and Surface Composition Available online 24 October 2015 Spectrometer (MASCS) Visible-InfraRed Spectrograph (VIRS) applying a first order photometric correc- Keywords: tion.
    [Show full text]
  • VHSL Regionals 2012 Round #4
    VHSL Regionals 2012 Round 4 First Period, Fifteen Tossups 1. This author tells of an attack "by three doors left unguarded" as "blue-eyed banditti" climb into his chair. This poet, who immortalized his daughters Alice, Allegra, and Edith in "The Children's Hour," also wrote a long poem set "by the shores of Gitche Gumee." In another poem, he described a character who feels "the secret dread of the lonely belfry and the dead" before sending a signal from the Old North Church. For 10 points, name this American poet of The Song of Hiawatha and "Paul Revere's Ride." ANSWER: Henry Wadsworth Longfellow 105-12-55-04101 2. One side in this incident, led by Yellow Bird and Big Foot, was urged to resist because their shirts would protect them from gunfire. The other side in this event was led by James Forsyth. Eighty-three years after this event occurred, Russell Means of the AIM led a seventy-one-day standoff with federal agents at the site of this incident. This event occurred days after Sitting Bull was killed in reaction to the popularity of the Ghost Dance. For 10 points, name this 1890 massacre of about 150 Sioux in South Dakota. ANSWER: Wounded Knee Massacre 131-12-55-04102 3. While living near the town of Templeton, this character clashes with Judge Marmaduke Temple and befriends the young hunter Oliver Edwards. In another novel, this character guides Cora and Alice Munro to their father’s command and kills Magua to avenge the death of his friend Uncas.
    [Show full text]
  • The Mountaineer Annual
    The Mountaineer Annual 1991-1992 The MountaineerAnnual 1991-1992 Volume 79 Published August, 1993 2 TheMountaineer Annual Beargrass on Mt. Rainier Steve Johnson The Mountaineers Purposes To explore and study the mountains, forests and watercourses of the Northwest; To gather into permanent form the history and traditions of this region; To preserve by the encouragement of protective legislation or otherwise the natural beauty of Northwest America; To make expeditionsinto theseregions in fulfillment of the above purposes; To encourage a spirit of good fellowship among all lovers of outdoor life. Ascending Eldorado Royce Conrad 4 The Mountaineer Annual The MountaineerAnnual The continuing spirit of The Mountaineers shines through in this newest edition of The Mountaineer Annual. Thank you to all the creative people who so willingly gave their time and talent in producing this book. EditorialCommittee Judi Maxwell- Editor; Production Manager; Layout Ann Marshall -Assistant Editor Steve Johnson -Computer Editor; Mailing Fran Troje -Advertising Manager Mike Buettner- Editorial Committee George Potratz- Desktop Publishing (Communications Manager) Helen Cherullo and Marge Mueller- Production Consultants (Mountaineers Books) Virginia Felton - Executive Director Katrina Reed-Administrative Assistant Eileen Allen - Accounting Manager Steve Costie -Member Services Manager Cover Design: Judi Maxwell and Helen Cherullo Cover Photographs: Front -Ascent of Eldorado © Photo by John Roper Back- Friends in High Places © Photo by Julie Smith © 1993 by The Mountaineers All Rights Reserved Published by The Mountaineers 300Third Avenue West Seattle, Washington 98119 Printedin the United States of America Printed on recycled paper Contents The Mountaineers Purposes 3 Foreword 8 Don Heck Vision for the Twenty-First Century 11 Dianne Hoff Development of a Wilderness Ethics Policy 14 Edward M.
    [Show full text]
  • Xerox University Microfilms 300 North Zeeb Road Ann Arbor, Michigan 48106 75-26,628
    INFORMATION TO USERS This material was produced from a microfilm copy of the original document. While the most advanced technological means to photograph and reproduce this document have been used, the quality is heavily dependent upon the quality of the original submitted. The following explanation of techniques is provided to help you understand markings or patterns which may appear on this reproduction. 1. The sign or "target" for pages apparently lacking from the document photographed is "Missing Page(s)". If it was possible to obtain the missing page(s) or section, th ey are spliced into the film along with adjacent pages. This may have necessitated cutting thru an image and duplicating adjacent pages to insure you complete continuity. 2. When an image on th e film is obliterated with a large round black mark, it is an indication that the photographer suspected that the copy may have moved during exposure and thus cause a blurred image. You will find a good image of the page in the adjacent frame. 3. When a map, drawing or chart, etc., was part of the material being photographed the photographer followed a definite method in "sectioning" the material. It is customary to begin photoing at the upper left hand corner of a large sheet and to continue photoing from left to right in equal sections with a small overlap. If necessary, sectioning is continued again — beginning below the first row and continuing on until complete. 4. The majority of users indicate that the textual content is of greatest value, however, a som ewhat higher quality reproduction could be made from "photographs" if essential to the understanding of the dissertation.
    [Show full text]
  • This Report Is Preliminary and Has Not Bee Reviewed for Conformity with US
    UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY Northeast-trending subcrustal fault transects western Washington by Kenneth F. Fox, Jr.* Open-File Report 83-398 This report is preliminary and has not bee reviewed for conformity with U.S Geological Survey editorial standards and stratigraphic nomenclature. *U.S. Geological Survey 3^5 Middlefield Road Menlo Park, California 9^025 Page Table of Contents Tectonic setting......................................................... 1 Seisraicity............................................................... 4 Discussion............................................................... 4 References cited......................................................... 6 Figures Figure 1. Magnetic anomalies in the northeastern Pacific................ 8 Figure 2. Bathymetry at intersection of Columbia lineament and Blanco fracture zone................................................. 9 Figure 3. Plane vector representation of movement of Gorda plate........ 10 Figure 4. Reconstruction of Pacific-Juan de Fuca plate geometry 2 m.y. before present................................................ 11 Figure 5. Epicenters of historical earthquakes with intensity greater than V........................................................ 12 TECTONIC SETTING The north-trending magnetic anomalies of the Juan de Fuca plate are off­ set along two conspicuous northeast-trending lineaments (fig. 1), named the Columbia offset and the Destruction offset by Carlson (1981). The northeast­ ward projections of these lineaments intersect the continental area of western Washington, hence are of potential significance to the tectonics of the Pacific Northwest region. Pavoni (1966) suggested that these lineaments were left-lateral faults, and that the Columbia, 280 km in length, had 52 km of offset, and the Destruction, with a length of 370 km, had 75 km of offset. Based on Vine's (1968) correlation of the magnetic anomalies mapped in this area by Raff and Mason (1961), with the magnetic reversal time scale, Silver (1971b, p.
    [Show full text]