1-20 OF 52 RESULTS FOR

Torres del Paine National Park

Results shown limited to content with bounding coordinates.
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
×Close Modal
Sort by
Journal Article
Journal: GSA Bulletin
Published: 01 September 2014
GSA Bulletin (2014) 126 (9-10): 1317-1339.
...Wolfgang Stinnesbeck; Eberhard Frey; Luis Rivas; Judith Pardo Pérez; Marcelo Leppe Cartes; Christian Salazar Soto; Patricio Zambrano Lobos Abstract Remnants of ophthalmosaurid ichthyosaurs recently discovered in the vicinity of the Tyndall Glacier in the Torres del Paine National Park of southern...
FIGURES | View All (10)
Image
Map of Cerro Silla syncline with the <b>Torres</b> <b>del</b> <b>Paine</b> <b>National</b> <b>Park</b>. Shown ...
Published: 01 November 2004
Figure 2 Map of Cerro Silla syncline with the Torres del Paine National Park. Shown are approximate locations of measured sections collected in 1993–1994, areas of the syncline discussed in the text, and general locations of lower and upper parts of channel-complex set (CCS) 3. Modified from
Image
FIGURE 1 —Location of <b>Torres</b> <b>del</b> <b>Paine</b> <b>National</b> <b>Park</b>. (A) South America, wi...
in > PALAIOS
Published: 01 February 2003
FIGURE 1 —Location of Torres del Paine National Park. (A) South America, with shaded area enlarged in (B). (B) Geologic map of vicinity of Torres del Paine with exact location of the fossil. Modified after Wilson (1991)
Image
FIGURE 5 —The <b>Torres</b> <b>del</b> <b>Paine</b> <b>National</b> <b>Park</b> ichthyosaur
in > PALAIOS
Published: 01 February 2003
FIGURE 5 —The Torres del Paine National Park ichthyosaur
Series: SEPM Field Trip Guidebook
Published: 01 January 2009
DOI: 10.2110/sepmfg.10.021
EISBN: 9781565762923
... and iii.4 ). The Silla Syncline is located within the Torres del Paine National Park east of Lago Pehoe and south of Lago Nordenskjöld. The Cerro Toro Formation in the area comprises more than 1100 m of deep-water strata within which Crane (2004) recognized and mapped three major coarse-grained...
FIGURES | View All (6)
Series: SEPM Field Trip Guidebook
Published: 01 January 2009
DOI: 10.2110/sepmfg.10.003
EISBN: 9781565762923
... to Torres del Paine National Park. Why travel to the ‘end of the Earth’ to see these deep-water deposits? We believe that the deep-water succession in the Magallanes Basin of Chilean Patagonia is destined to join a select set of outcrop systems such as the Tanqua Karoo of South Africa (e.g., Wickens...
FIGURES
Series: SEPM Field Trip Guidebook
Published: 01 January 2009
DOI: 10.2110/sepmfg.10.019
EISBN: 9781565762923
... separating conglomeratic units in the north, the formation has succumbed to folding. The result is exceptional three-dimensional exposures of channel deposits in the vicinity of the Silla Syncline in the Torres del Paine National Park (see map at left and photo below). Further south in the Cordillera Manuel...
FIGURES
Journal Article
Journal: AAPG Bulletin
Published: 01 November 2004
AAPG Bulletin (2004) 88 (11): 1471-1500.
...Figure 2 Map of Cerro Silla syncline with the Torres del Paine National Park. Shown are approximate locations of measured sections collected in 1993–1994, areas of the syncline discussed in the text, and general locations of lower and upper parts of channel-complex set (CCS) 3. Modified from...
FIGURES | View All (16)
Journal Article
Journal: PALAIOS
Published: 01 February 2003
PALAIOS (2003) 18 (1): 69-73.
...FIGURE 1 —Location of Torres del Paine National Park. (A) South America, with shaded area enlarged in (B). (B) Geologic map of vicinity of Torres del Paine with exact location of the fossil. Modified after Wilson (1991) ...
FIGURES | View All (6)
Journal Article
Journal: Geology
Published: 01 June 2008
Geology (2008) 36 (6): 459-462.
.... Darbellay, and M. Cavargna for their assistance during field work. We thank the responsible authorities of CONAF (Corporacion Nacional Forestal, Chile) for granting permission to collect in the Torres del Paine National Park and for their cooperation and hospitality. We acknowledge financial support from...
FIGURES | View All (4)
Journal Article
Journal: Geology
Published: 01 September 2012
Geology (2012) 40 (9): 859-862.
... del Paine National Park (51°S, 73°W; Fig. 1 ), southern Chile. Torres del Paine has one of the prime late glacial moraine records in the southern middle latitudes. The excellent preservation and continuity of moraines, as well as their geographical location, make them ideal to test hypotheses of late...
FIGURES | View All (4)
Journal Article
Journal: GSA Bulletin
Published: 15 November 2018
GSA Bulletin (2018) 131 (3-4): 587-608.
... and dikes from the retro-arc region at 49–51°S to investigate these processes both at the subduction zone scale, and within the exceptionally well-exposed Torres del Paine sheeted intrusion. We present Hf isotope data for zircon from 30 to 12 Ma magmatic units that were emplaced ∼50 km inboard of the main...
FIGURES | View All (11)
Image
Glacial geomorphic map of Laguna Azul–Lago Sarmiento area in <b>Torres</b> <b>del</b> Pai...
in > Geology
Published: 01 September 2012
Figure 2. Glacial geomorphic map of Laguna Azul–Lago Sarmiento area in Torres del Paine National Park (inset with red box delineating extent of main map). White boxes in main map show 10 Be cosmogenic-exposure ages (black) and calibrated radiocarbon ages (pink; close minimum deglacial ages
Journal Article
Journal: Geosphere
Published: 01 August 2015
Geosphere (2015) 11 (4): 1133-1157.
... crusher and a disc mill. Zircons were separated using standard density (water table and heavy liquids) and magnetic techniques. Samples selected for LA-ICPMS dating include: El Capitan Granite from the Cookie Slide near the west entrance to Yosemite Park (CS720; 63 zircons) and the summit of El Capitan...
FIGURES | View All (20)
Journal Article
Journal: Geosphere
Published: 17 April 2018
Geosphere (2018) 14 (3): 1283-1297.
.... , Baumgartner , L. , Putlitz , B. , Schaltegger , U. , and Ovtcharova , M. , 2008 , Incremental growth of the Patagonian Torres del Paine laccolith over 90 k.y : Geology , v. 36 , p. 459 – 462 , https://doi.org/10.1130/G24546A.1 . Paterson , S. , Memeti , V. , Mundil , R...
FIGURES | View All (9)
Journal Article
Journal: PALAIOS
Published: 01 November 2014
PALAIOS (2014) 29 (11): 570-577.
... . Tafonomía de la interacción entre pumas y guanacos en el parque nacional Torres del Paine, Chile : Magallania , v. 33 , p. 95 – 114 . Borromei A.M. 1995 . Palinología, estratigrafía y paleoambientes del Pleistoceno...
FIGURES | View All (5)
Journal Article
Published: 01 November 2010
Journal of Paleontology (2010) 84 (6): 1061-1070.
... Baguales (S50°43′59″; W72°28′41″), located 40 km NEE of the Torres del Paine National Park, Chile ( Fig. 1, C ). The host beds are interpreted to be part of the Río Baguales Formation ( Cecioni, 1956 ; Le Roux et al., in press ). According to Cecioni (1956) , the type locality of the Río Baguales...
FIGURES | View All (7)
Image
FIGURE 2 —Map showing ichthyosaur localities in Chile and Argentina and the...
in > PALAIOS
Published: 01 February 2003
FIGURE 2 —Map showing ichthyosaur localities in Chile and Argentina and the location of Torres del Paine National Park ichthyosaur. 1—Sierra de Reyes, 2—Ruta 40 (Neuquen), 3—Chacay, 4—Trauncura, 5—Las Lajas, 6—Manzano Guacho, 7—El Ministerio, 8—Carro Quebrado, 9—Los Catutos, 10—Cerro Lotena, 11
Image
Location of ichthyosaur-bearing sediments adjacent to the Tyndall ice field...
Published: 01 September 2014
Figure 1. Location of ichthyosaur-bearing sediments adjacent to the Tyndall ice field in the westernmost section of the Torres del Paine National Park, south Chile. Topographical figure to the right indicates location of ichthyosaurs discovered in the area (dots) and position of field camp used
Image
(A) A slip surface with slickensides representing a sharp shear discontinui...
Published: 01 November 2014
Figure 6 (A) A slip surface with slickensides representing a sharp shear discontinuity in mudstone exposed near the Tyndall Bridge, south of the Torres del Paine National Park, Chilean Patagonia (please see Gonzales and Aydin, 2008 , for additional information). (B) This kind of slip surface has