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  • 1
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    Structure and stratigraphy of Upper Cretaceous and Paleogene strata (North Horn Formation), eastern San Pitch Mountains, Utah : sedimentation at the front of the Sevier orogenic belt (1993)
    Washington, DC : United States Gov. Print. Off.
    Associated volumes
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    Call number: SR 90.0001(1787-II)
    In: U.S. Geological Survey bulletin
    Type of Medium: Series available for loan
    Pages: IV, II-33 S. + 2 pl.
    Series Statement: U.S. Geological Survey bulletin 1787-II
    Language: English
    Location: Lower compact magazine
    Branch Library: GFZ Library
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  • 2
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    Depositional and halokinetic-sequence stratigraphy of the Neoproterozoic Wonoka Formation adjacent to Patawarta allochthonous salt sheet, Central Flinders Ranges, South Australia (2012)
    In:  Geological Society Special Publication 363: 81-105.
    Details
    Publication Date: 2012-02-13
    Description: Parts of two third-order Neoproterozoic (Marinoan) depositional sequences are documented in the Wilpena Group (Wonoka Formation and Bonney Sandstone) at Patawarta diapir, located in the central Flinders Ranges, South Australia. These sequences represent an overall regressive succession transitioning upwards from outer to middle wave-dominated shelf deposits to a tidally dominated barrier bar to coastal plain. The lower, middle, upper limestone and green mudstone informal members of the Wonoka Formation comprise the Highstand Systems Tract of the lower sequence. The Sequence Boundary is at the top of the Wonoka green mudstone member and is overlain by the Lowstand Systems Tract of the upper sequence, which includes the lower dolomite, sandstone and upper dolomite beds of the Patsy Hill Member of the Bonney Sandstone. The upper sequence Transgressive Systems Tract comprises the Bonney Sandstone. These units comprise one complete tapered composite halokinetic sequence (CHS). The lower halokinetic-sequence boundary is associated with the Maximum Flooding Surface of the lower depositional sequence and the upper halokinetic-sequence boundary is interpreted as the Transgressive Surface of the overlying depositional sequence where an angular truncation of up to 90° is documented.
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  • 3
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    Halokinetic-sequence stratigraphy, fluvial sedimentology and structural geometry of the Eocene Carroza Formation along La Popa salt weld, La Popa Basin, Mexico (2012)
    In:  Geological Society Special Publication 363: 59-79.
    Details
    Publication Date: 2012-02-13
    Description: The Eocene Carroza Formation in La Popa Basin, Mexico, represents fluvial sedimentation in a shortening-influenced salt-withdrawal minibasin, termed the Carroza Syncline. The Carroza Syncline lies adjacent to the La Popa salt weld, which was formerly a passively-rising salt wall that was shortened during the Hidalgoan Orogeny in Late Cretaceous and Palaeogene time. The Carroza Formation displays distinct upsection changes in fluvial facies distribution and geometry of halokinetic drape folding. Fluvial channel distribution changes upwards from widespread thin, broad channels with variable palaeocurrents in the lower part of the formation to thick, stacked channels concentrated in the hinge of the Carroza Syncline with weld-parallel palaeocurrent directions in the upper part. The upper and middle members of the Carroza contain debris-flow facies derived from diapir roof strata and the diapir itself. The style of halokinetic drape fold upturn and thinning towards the weld changes upsection from a broad (800–1500 m) to a narrow (50–200 m) zone, where upper Carroza strata are overturned and in direct contact with remnant gypsum along the weld. The upsection changes in fluvial facies distribution and geometry reflect an overall decrease in local sediment-accumulation rates relative to salt-rise rates controlled by both Hidalgoan shortening and passive diapirism.
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  • 4
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    Anatomy of an exposed vertical salt weld and flanking strata, La Popa Basin, Mexico (2012)
    In:  Geological Society Special Publication 363: 33-57.
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    Publication Date: 2012-02-13
    Description: La Popa Weld in La Popa Basin, Mexico, is a 24 km long near-vertical structure with a prominent bend approximately halfway along its length. Halokinetic folding, local unconformities and diapir-derived detritus in flanking strata document a precursor salt wall. Shortening during the latest Cretaceous to Eocene Hidalgoan Orogeny squeezed the salt wall to form the weld. Deformation varies significantly along the weld. The northwestern third has remnant gypsum (including a diapir at the northwestern end), little large-scale folding of flanking strata and only background fracture intensity. Directly NW of the bend are pods of gypsum linked by complete welds, a large-scale cuspate anticlinal geometry and significant fracturing within 5–10 m of the weld. The southeastern half is completely welded with no remnant gypsum, a prominent cuspate anticlinal geometry and a 50 m wide damage zone. The variable deformation was controlled by the original width of the salt wall and the amount and direction of shortening. Where orthogonal to the wall, shortening locally closed the diapir but little further deformation took place. Where oblique, shortening caused post-weld dextral strike-slip movement and significant fracturing and shearing of the wall rock. The resulting deformation variability likely impacted the sealing capability of the weld.
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  • 5
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    Detrital zircon U-Pb ages of sandstones in continental red beds at Valle de Huizachal, Tamaulipas, NE Mexico: Record of Early-Middle Jurassic arc volcanism and transition to crustal extension (2011)
    Geological Society of America (GSA)
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    Publication Date: 2011-02-01
    Description: Continental strata and volcanic rocks of the type Huizachal Group in Valle de Huizachal record arc magmatism and subsequent crustal extension prior to seafloor spreading in the Gulf of Mexico. The older La Boca Formation consists of two informal members, a lower unit of siliciclastic and volcanic rocks discordantly overlain by a predominantly siliciclastic upper member. The younger La Joya Formation is an upward-fining, alluvial-braided fluvial succession with a basal conglomerate. U-Pb detrital-zircon ages (n = 576) from six Huizachal Group sandstones (five from La Boca and one from La Joya) consist of four groups indicating a mixed provenance: (1) Grenville grains ([~]1.3-1.0 Ga) derived from Gondwana (Novillo Gneiss); (2) early-middle Paleozoic grains (430-300 Ma) derived from peri-Gondwanan accreted rocks (Granjeno Schist); (3) Permo-Triassic grains (296-222 Ma) derived from volcanic and plutonic rocks (West Pangaean arc) and/or turbidites (Guacamaya Formation); and (4) Early-Middle Jurassic grains (199-164 Ma), locally derived from the Nazas arc. Groups 1-3 increase in abundance upsection as a result of unroofing of Jurassic volcanic and sedimentary carapace from uplifted basement. The Huizachal Group records three stages in the pre-breakup history of Gondwana: (1) The lower member of La Boca Formation (maximum depositional age 184-183 Ma; Pleinsbachian) indicates Nazas arc activity; (2) the upper member (maximum depositional age 167-163 Ma; Bathonian-Callovian) indicates continued arc magmatism as early crustal extension formed horsts that supplied basement grains to an incipient rift basin; and (3) the La Joya Formation represents late rift basin development and widespread exposure of flanking basement rocks. Although our La Joya sample lacks a coherent age group of young grains, its single youngest grain age (164 {+/-} 3 Ma; Callovian) is consistent with its stratigraphic position beneath inferred Oxfordian strata.
    Electronic ISSN: 1553-040X
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 6
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    Stratigraphy, geochronology, and geochemistry of the Laramide magmatic arc in north-central Sonora, Mexico (2011)
    Geological Society of America (GSA)
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    Publication Date: 2011-12-01
    Description: The Laramide magmatic arc in the Arizpe-Mazocahui quadrangle of north-central Sonora, Mexico, is composed of volcanic rocks assigned to the Tarahumara Formation and several granitic plutons that intrude it. The arc was built over juxtaposed crustal basements of the Caborca and Mazatzal provinces. A basal conglomerate of the 〉4-km-thick Tarahumara Formation overlies deformed Proterozoic igneous rocks and Neoproterozoic to Early Cretaceous strata, thus constraining the age of a contractional tectonic event that occurred between Cenomanian and early Campanian time. The lower part of the Tarahumara Formation is composed of rhyolitic ignimbrite and ash-fall tuffs, andesite flows, and interbedded volcaniclastic strata, and its upper part consists of rhyolitic to dacitic ignimbrites, ash-fall tuffs, and volcaniclastic rocks. The Tarahumara Formation shows marked lateral facies change within the study area, and further to the north it grades into the coeval fluvial and lacustrine Cabullona Group. The age of the Tarahumara Formation is between ca. 79 and 59 Ma; the monzonitic to granitic plutons have ages of ca. 71–50 Ma. The informally named El Babizo and Huépac granites, La Aurora and La Alamedita tonalities, and the Puerta del Sol granodiorite compose the El Jaralito batholith in the southern part of the area.Major and trace element composition of the Laramide igneous rocks shows calc-alkaline differentiation trends typical of continental magmatic arcs, and the isotope geochemistry indicates strong contribution from a mature continental crust. Initial 87Sr/86Sr values range from 0.70589 to 0.71369, and eNd values range from –6.2 to –13.6, except for the El Gueriguito quartz monzonite value, –0.5. The Nd, Sr, and Pb isotopic values of the studied Laramide rocks permit comparison with the previously defined Laramide isotopic provinces of Sonora and Arizona. The El Gueriguito pluton and Bella Esperanza granodiorite in the northeastern part of the study area along with plutons and mineralization of neighboring northern Sonora have isotopic values that correspond with those of the southeastern Arizona province formed over the Mazatzal basement (Lang and Titley, 1998; Bouse et al., 1999). Isotopic values of the other Laramide rocks throughout the study area are similar to values of provinces A and B of Sonora (Housh and McDowell, 2005) and to those of the Laramide Pb boundary zone of western Arizona, while the Rancho Vaquería and La Cubana plutons in the northernmost part of the area have the isotopic composition of the Proterozoic Mojave province of the southwestern United States. These data permit us to infer that a covered crustal boundary, between the Caborca block with a basement of the Mojave or boundary zone and the Mazatzal province, crosses through the northeastern part of the area. The boundary may be placed between outcrops of the El Gueriguito and Rancho Vaquería plutons, probably following a reactivated Cretaceous thrust fault located north of the hypothesized Mojave-Sonora megashear, proposed to cross through the central part of the area.
    Electronic ISSN: 1553-040X
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 7
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    Lower Cretaceous strata of the Sonora Bisbee Basin: A record of the tectonomagmatic evolution of northwestern Mexico (2012)
    Geological Society of America (GSA)
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    Publication Date: 2012-03-01
    Description: Lower Cretaceous strata of the Sonora Bisbee Basin record four discrete Paleozoic and Mesozoic magmatic episodes and indicate a previously unrecognized Early Cretaceous regional tectonic event along the southwestern margin of North America. Strata of the Bisbee Group in the Sonora Bisbee Basin overlie Upper Jurassic strata on an angular unconformity. Cretaceous strata are predominantly continental fluvial deposits. Bisbee Group sandstones are sublitharenites and litharenites rich in paleovolcanic lithic fragments. Detrital-zircon age populations form five main groups—Proterozoic, Early Permian–Early Triassic, Late Triassic–Jurassic, earliest Cretaceous, and late Early Cretaceous (Aptian). U-Pb zircon ages from three types of conglomerate clasts in the Morita Formation match these age groups: (1) Quartzite clasts are dominated by Proterozoic ages; (2) rhyolite clasts are Middle Jurassic (ca. 172 Ma); (3) andesite clasts are earliest Cretaceous (ca. 140 Ma). Proterozoic zircons and quartzite clasts were recycled from strata of the Caborca block, whereas Permian and Mesozoic grains and andesite and rhyolite clasts were derived from volcanic arc rocks to the west and northwest. We identify two separate episodes of Early Cretaceous volcanism recorded in the basin, the first between 145 and 133 Ma and the second beginning ca. 125 Ma and continuing into the Albian. The presence in the Sonora Bisbee Basin of near-source fluvial detritus from the first of these episodes requires either the presence of a continental arc along the North American margin during the earliest Cretaceous or the accretion of similar-aged material to the margin prior to ca. 130 Ma. Neovolcanic zircon grains in the upper part of the Morita Formation record the initiation of volcanism in the Alisitos arc, an Early Cretaceous volcanic arc presently exposed in the Peninsular Ranges of Baja and southern California. Structural, stratigraphic, and detrital-zircon data suggest that a heretofore unrecognized episode of regional shortening, uplift, and incision occurred to the southwest of the study area in the interval 148–130 Ma.
    Print ISSN: 0016-7606
    Electronic ISSN: 1943-2674
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 8
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    Correlation and Provenance of Upper Cretaceous (Campanian) Fluvial Strata, Utah, U.S.A., from Zircon U-Pb Geochronology and Petrography (2011)
    Society for Sedimentary Geology (SEPM)
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    Publication Date: 2011-07-01
    Description: Detrital zircon and petrographic provenance analysis of Upper Cretaceous (Campanian) strata corroborate correlation of the fluvial Kaiparowits Formation in southern Utah with post-Castlegate strata of the Mesaverde Group in eastcentral Utah. Sandstone samples of the Kaiparowits Formation in the Kaiparowits Plateau and Mesaverde Group (Neslen, Bluecastle Tongue of Castlegate, Farrer, and Tuscher formations) in Gray Canyon north of Green River, Utah, contain six U-Pb detrital zircon age populations ranging in age from Archean to Late Cretaceous. Thrust-belt-derived sublitharenite and quartzarenite of the lower part of the Mesaverde Group (Neslen and Bluecastle) lack or have only rare Mesozoic grains, but contain abundant Archean, Proterozoic, and Paleozoic grains that record recycling of Proterozoic, Paleozoic, and Jurassic sandstones exposed in uplifted thrust sheets to the west. South- and southwest-derived feldspathic litharenite of the Kaiparowits and Farrer formations contains Proterozoic grains and a diverse population of Mesozoic grain ages. Archean grains are rare to absent. Maximum depositional ages interpreted from young zircon grains in two Kaiparowits samples statistically overlap 40Ar/39Ar ages (76-74 Ma) from interbedded bentonitic tuffs and weighted mean ages of young grains from the Farrer Formation. Kolmogorov-Smirnoff statistics, in conjunction with young grain ages and detrital age spectra, corroborate petrographic evidence, which indicates that the Kaiparowits rivers were connected northward with a river system that deposited the Farrer Formation. The young grain ages, although imprecise, indicate that the uppermost Mesaverde Group strata of the Tuscher Formation are younger than the Kaiparowits Formation and record partitioning of the former foreland basin by Laramide uplifts.
    Print ISSN: 1527-1404
    Topics: Geosciences
    Published by Society for Sedimentary Geology (SEPM)
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  • 9
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    Stratigraphy and age of Upper Jurassic strata in north-central Sonora, Mexico: Southwestern Laurentian record of crustal extension and tectonic transition (2011)
    Geological Society of America (GSA)
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    Publication Date: 2011-04-01
    Description: Stratigraphy, sedimentology, and geochronology of the Upper Jurassic Cucurpe Formation in north-central Sonora, Mexico, provide new insights into Late Jurassic rifting along the southwestern margin of Laurentia. The Cucurpe Formation is the fill of the Altar-Cucurpe Basin. This basin developed upon attenuated crust of the Triassic-Middle Jurassic continental arc and was part of the Arivechi-Cucurpe seaway; a narrow marine embayment oriented parallel to and located west of the Chihuahua trough. The Cucurpe Formation unconformably overlies Middle Jurassic arc assemblages and represents upward-coarsening marine prodeltaic deposits. New U-Pb zircon geochronology and a Kimmeridgian ammonite (Idoceras cf. I. densicostatum) constrain its age to between ca. 158 and 149 Ma. Detrital zircon ages from the unconformably overlying Lower Cretaceous Bisbee Group indicate a maximum depositional age of 139 {+/-} 2 Ma (2{sigma} error), demonstrating a hiatus of at least 10 m.y. between Jurassic and Cretaceous strata. Detrital zircon ages and petrographic data indicate the provenance of Cucurpe Formation and lowermost Bisbee strata. The lower part of the Cucurpe was derived dominantly from Middle Jurassic volcano-sedimentary successions. The upper part of the Cucurpe Formation was largely derived from syneruptive volcanic material equivalent to the Ko Vaya volcanic suite of southern Arizona and northern Sonora. Lowermost Bisbee strata were derived from Middle Jurassic arc rocks and exhumed Caborcan basement, Paleozoic-Lower Jurassic sedimentary cover, and Lower Cretaceous intermediate volcanic rocks. Revised stratigraphy of the Cucurpe-Tuape region indicates that several conglomeratic units, formerly interpreted as Late Jurassic pull-apart basin deposits, are not of Late Jurassic age.
    Electronic ISSN: 1553-040X
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 10
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    Jurassic volcanic and sedimentary rocks of the La Silla and Todos Santos Formations, Chiapas: Record of Nazas arc magmatism and rift-basin formation prior to opening of the Gulf of Mexico (2011)
    Geological Society of America (GSA)
    Details
    Publication Date: 2011-02-01
    Description: Stratigraphic relationships, detrital zircon provenance, U-Pb and 40Ar/39Ar geochronology, and trace element geochemistry in volcanic and sedimentary rocks of the Sierra homocline of central Chiapas near La Angostura reservoir in Mexico document an extensive pulse of Early-Middle Jurassic arc magmatism in rocks that overlie and intrude the Permian-Triassic Chiapas massif. Upper Jurassic rift-basin strata unconformably overlie the volcanic rocks and the massif. A Pliensbachian U-Pb (zircon) SHRIMP (sensitive high-resolution ion microprobe) age from porphyritic andesite (191.0 {+/-} 3.0 Ma), Early to Middle Jurassic 40Ar/39Ar dates from andesitic dikes, U-Pb grain ages of detrital zircons in overlying strata (196-161 Ma), and previously reported K-Ar dates indicate that subduction-related magmatism occurred in the western portion of the Maya block from Early to latest Middle Jurassic time. We assign the volcanic rocks to the La Silla Formation, which correlates with the informal Pueblo Viejo andesite of the Cintalapa and Uzpanapa regions to the northwest. La Silla magmatism predates opening of the Gulf of Mexico Basin. The Todos Santos Formation, which overlies La Silla Formation, was deposited in extensional basins during the early stages of gulf opening. We recognize a lower El Diamante Member of the Todos Santos, consisting of red fluvial sandstone, mudstone, and minor conglomerate containing primarily volcanic-lithic detritus; this member is characterized by a nearly unimodal Jurassic detrital zircon age population that indicates a Callovian or younger depositional age. Volcanic activity continued into the upper part of the El Diamante Member, but with a more mafic character. We also recognize an upper member, which we term the Jerico Member. This member is characterized by thickly bedded, coarse-grained pebbly arkose intercalated with several thick intervals (tens of meters) of conglomerate and pebbly sandstone. Sandstone petrology indicates a source in the granitic rocks of the Chiapas massif, with a tendency to show deep-seated sources and a diverse zircon population in the upper part of the section. The upper Todos Santos Formation in the study area is gradational into the overlying San Ricardo Formation (Kimmeridgian-Tithonian). The La Silla Formation was deposited in volcanic-complex environments, with a clear lack of differentiated volcanic rocks. Fluvial strata of the El Diamante Member were deposited in a mud-rich sinuous river system. The Jerico Member was deposited in large, sand-rich fluvial systems, which probably represent deposits of rift-axis trunk streams; conglomerate facies were deposited in adjacent and interfingering alluvial fan systems. We suggest that the stratigraphic record of the western Maya block records a transition from volcanic arc to intra-arc basin and subsequently to rift basin during Pliensbachian to Oxfordian time.
    Electronic ISSN: 1553-040X
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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