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Tshirege Member

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Journal Article
Published: 01 April 2021
American Mineralogist (2021) 106 (4): 620–632.
... to mafic recharge of the system. Quartz crystals in the compositionally zoned, high-silica rhyolite Tshirege Member of the Bandelier Tuff erupted at 1.26 Ma from the Valles caldera, New Mexico, show a range in zoning styles with Ti-rich rims becoming more abundant upward in the ignimbrite sheet among...
FIGURES | View All (7)
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Geochemical variation in the (A) Otowi <span class="search-highlight">Member</span> and (B) <span class="search-highlight">Tshirege</span> <span class="search-highlight">Member</span>. SiO ...
Published: 01 October 2011
Figure 5. Geochemical variation in the (A) Otowi Member and (B) Tshirege Member. SiO 2 versus TiO 2 (left) and Rb versus Nb (right). Data for Qbo in A are from Gardner et al. (1999) . Data for Qbt1, Qbt2, and Qbt3 in B are from Broxton et al. (1995 , 1996 ); Stimac et al. (1996
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X-RAY FLUORESCENCE (XRF) MAJOR- AND TRACE-ELEMENT DATA FROM <span class="search-highlight">TSHIREGE</span> <span class="search-highlight">MEMBER</span>...
Published: 01 October 2011
TABLE 1. X-RAY FLUORESCENCE (XRF) MAJOR- AND TRACE-ELEMENT DATA FROM TSHIREGE MEMBER (NORMALIZED)
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X-RAY FLUORESCENCE (XRF) MAJOR- AND TRACE-ELEMENT DATA FROM <span class="search-highlight">TSHIREGE</span> <span class="search-highlight">MEMBER</span>...
Published: 01 October 2011
TABLE 1. X-RAY FLUORESCENCE (XRF) MAJOR- AND TRACE-ELEMENT DATA FROM TSHIREGE MEMBER (NORMALIZED)
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Equal-area projections of locality mean directions in the <span class="search-highlight">Tshirege</span> <span class="search-highlight">Member</span>. ...
Published: 01 October 2011
Figure 8. Equal-area projections of locality mean directions in the Tshirege Member. (A) All localities. (B) Localities north and south of the Jemez fault. (C) Localities east and west of the Pajarito fault. See Figure 4 for locations, Dec.—declination; Inc.—inclination.
Journal Article
Published: 01 October 1988
American Mineralogist (1988) 73 (9-10): 1025–1037.
...Charlotte M. Warshaw; Robert L. Smith Abstract Ferromagnesian silicates and magnetite are found throughout the Pleistocene Bandelier Tuff, Jemez Mountains, New Mexico. The upper (Tshirege) member of this rhyolitic ash-flow formation repeats the general type of sequence found in the lower (Otowi...
Series: GSA Special Papers
Published: 01 April 2013
DOI: 10.1130/2012.2494(12)
... ignimbrites (ca. 1.87–1.84 Ma); (5) the Otowi Member of the Bandelier Tuff, including the basal Guaje Pumice Bed (both ca. 1.68–1.61 Ma); (6) the Cerro Toledo Rhyolite (ca. 1.59–1.22 Ma); (7) the Tshirege Member of the Bandelier Tuff, including the basal Tsankawi Pumice Bed (both ca. 1.25–1.21 Ma); and (8...
Journal Article
Journal: Geology
Published: 01 January 1981
Geology (1981) 9 (1): 21–24.
... fault scarp about 100 m high where it cuts the l.l-m.y.-old Tshirege Member of the Bandelier Tuff. Detailed mapping along the north-trending Pajarito fault zone has revealed a fairly simple geometry. In the Tshirege Member, the faults follow numerous vertical joints. Below this member, fault dips...
Journal Article
Journal: GSA Bulletin
Published: 01 February 1983
GSA Bulletin (1983) 94 (2): 192–205.
...-to-the-east faults that cut Miocene to Pliocene volcanic rocks along the eastern flank of the Jemez Mountains. Where the fault zone cuts the 1.1-m.y.-old Tshirege Member of the Bandelier Tuff, it has produced a steep, 50- to 100-m-high fault scarp. The total displacement across the fault zone during its 5-m.y...
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Cathodoluminescence grayscale images of representative quartz crystals from...
Published: 01 April 2021
Figure 1. Cathodoluminescence grayscale images of representative quartz crystals from four different samples of the Tshirege Member, Bandelier Tuff, arranged in stratigraphic order. Note increasing complexity of CL-zoning upward through the Tshirege Member. Crystallized melt inclusions appear
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Thick Bandelier Tuff deposits form the mesas of the Pajarito Plateau. Upper...
Published: 01 August 2005
Fig. 15. Thick Bandelier Tuff deposits form the mesas of the Pajarito Plateau. Upper photograph, looking across Pueblo Canyon toward the northwest, shows, in ascending order, the Otowi Member (Qbo), the Cerro Toledo interval (Qct), and the Tshirege Member (Qbt 1 g to Qbt 3, see text). Subunits
Journal Article
Journal: GSA Bulletin
Published: 01 December 1996
GSA Bulletin (1996) 108 (12): 1549–1566.
...Terry L. Spell; Ian McDougall; Anthony P. Doulgeris Abstract The Cerro Toledo Rhyolite comprises a group of domes and tephra which were erupted during the interval between two caldera-forming ignimbrites, the Tshirege Member and Otowi Member of the Bandelier Tuff, in the Jemez Volcanic Field, New...
Journal Article
Published: 01 August 2005
Vadose Zone Journal (2005) 4 (3): 694–707.
...Bruce A. Robinson; Stephen G. McLin; Hari S. Viswanathan Abstract A previously reported injection zone test in the Tshirege Member of the Bandelier tuff has been interpreted and modeled using a variety of conceptual models ranging from a single continuum model (SCM) to a dual permeability model...
FIGURES | View All (10)
Journal Article
Journal: Geology
Published: 01 June 1993
Geology (1993) 21 (6): 551–554.
..., New Mexico, were used to model time-integrated erosion rates and cosmic ray-exposure histories. The model erosion rates determined for different stratigraphic units within the Tshirege member, upper Bandelier Tuff, vary from 0.1 cm/ka for the resistant unit to 1.1 cm/ka for the softer unit...
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Stratigraphic nomenclature for the Bandelier Tuff. In this study, the major...
Published: 01 August 2005
Fig. 3. Stratigraphic nomenclature for the Bandelier Tuff. In this study, the major cooling units such as Qbt 3 in the Tshirege Member were used, and no identification of the subunits was made.
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Structure contour and isopach map for the Otowi <span class="search-highlight">Member</span> of the Bandelier Tuf...
Published: 01 August 2005
Valles highlands on the west and the Cerros del Rio basaltic highland on the east. The variable thickness of the Otowi Member on the western side of the plateau represents deep erosion of these poorly consolidated nonwelded tuffs before eruption of the Tshirege Member.
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Concentrations of Th and Nb in whole pumices plotted for the <span class="search-highlight">Tshirege</span> Membe...
Published: 01 April 2021
Figure 2. Concentrations of Th and Nb in whole pumices plotted for the Tshirege Member. Notice the bimodal distribution of the high-silica rhyolite magmas, allowing distinction of three magma types (enriched high-silica rhyolite, HSR-e; depleted high-silica rhyolite HSR-d, and low-silica rhyolite
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Volumetric water contents (from neutron probe) and stratigraphy from (a) th...
Published: 01 November 2007
of the Quaternary Tshirege member of the Bandelier Tuff.
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(A) Stratigraphy of the Bandelier Tuff for the area of detailed mapping ( B...
Published: 01 June 2009
Figure 2. (A) Stratigraphy of the Bandelier Tuff for the area of detailed mapping ( Broxton and Reneau, 1995 ; Lewis et al., 2002 ). Section is schematic; thickness of the Bandelier Tuff across the Pajarito Plateau varies by location. The most complete sections of Tshirege Member are located
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Natural γ, density, density porosity, epithermal-neutron porosity, and resi...
Published: 01 August 2005
, the rhyolitic Tshirege and Otowi Members of the Bandelier Tuff have elevated natural γ signatures relative to the dacitic sedimentary deposits of the Puye Formation. The density porosity was calculated from the density log using a sandstone grain density of 2.65 gm cm −3 . While appropriate for the Puye