Spelling suggestions: "subject:"deology -- mexico"" "subject:"deology -- lexico""
11 |
Sedimentology of Estero la Cholla, northwest coast of Sonora, MexicoRose, Michael Wayne, 1947- January 1976 (has links)
No description available.
|
12 |
Sedimentology of Estero Marua, Sonora, MexicoSandusky, Clinton LeRoy, 1942- January 1969 (has links)
No description available.
|
13 |
THE DETERMINATION OF RESIDUAL STRESSES IN THE VICINITY OF THE 755 BRECCIAPIPE AT CANANEA, SONORA, MEXICOGentry, Donald W. January 1972 (has links)
No description available.
|
14 |
Physical testing study of Cananea mine rockZavodni, Zavis Marian, 1941- January 1969 (has links)
No description available.
|
15 |
Plate tectonics, volcanic petrology, and ore formation in the Santa Rosalia area, Baja California, MexicoSchmidt, Eugene Karl, 1947- January 1975 (has links)
No description available.
|
16 |
Regional geology in the Opodepe mining area, Sonora, MexicoRamírez Muñoz, José January 1979 (has links)
No description available.
|
17 |
Geology of the Santa Rosalia mine area, district of Arizpe, Sonora, MexicoMoore, David Lafayette, 1916- January 1948 (has links)
No description available.
|
18 |
Geology and depositional environment of the Oposura massive sulfide deposit, Sonora, MexicoMarrs, Christopher Dean January 1979 (has links)
No description available.
|
19 |
Stratigraphy, depositional environments, and origin of the Cabullona Basin, northeastern Sonora, Mexico.González-León, Carlos Manuel. January 1994 (has links)
The Cabullona Basin of northeastern Sonora is a structural depocenter that was formed during Late Cretaceous time. The 2.5 km-thick sedimentary fill of this basin, the Cabullona Group, is composed in ascending order of the Corral de Enmedio formation, Camas Sandstone, Packard Shale, Lomas Coloradas formation, and, laterally equivalent to the last two units, El Cemento conglomerate. Abundant vertebrate and invertebrate as well as pollen identifications from these units indicate the Cabullona Group is of middle Santonian to Maastrichtian age. The Corral de Enmedio formation represents shallow lacustrine deposits. Lithofacies of the Camas and Lomas Coloradas formations indicate they were deposited by braided- and meandering-fluvial systems, whereas the eight members of the Packard Shale represent complex fluvio-deltaic-and-lacustrine systems. The El Cemento conglomerate is a thick clastic wedge of coarse-grained alluvial deposits that was deposited adjacent to the structural margin of the basin. Clast composition and paleocurrent directions of the El Cemento conglomerate indicate it was derived from strata of the nearby uplift of the Sierra Anibacachi-Cerro Cabullona. The low-angle, southwest directed Cabullona thrust fault that separates the uplift from the basin formed the structural margin of the basin. The tectono-sedimentary history of the Cabullona Group, its age and regional tectonic setting support the idea that this basin was formed because of typical Laramide-style deformation and indicates that the Rocky Mountain foreland province of Laramide deformation extended southward to northeastern Sonora.
|
20 |
Geology and geochemistry of the Santa Eulalia mining district, Chihuahua, MexicoMegaw, Peter Kenneth McNeill January 1990 (has links)
Santa Eulalia contains two separate, contrasting Pb-Zn-Ag deposits. The East Camp consists of a symmetrically zoned calc-silicate skarn with distal sulfide and tin-bearing orebodies; whereas the west Camp is composed of massive sulfide orebodies with minor proximal calc-silicate skarn and isolated intermediate calcic-iron skarns. Mineralization and alteration are zoned within each camp but do not overlap. Sulfide mineralization in both camps consists of pyrrhotite, sphalerite, galena, and pyrite with lesser amounts of arsenopyrite and chalcopyrite. The East Camp is apparently richer in zinc and copper than the West camp. Mineralization is temporally and spatially related to geochemically identical felsite intrusions which apparently have a common source. Mineralizing fluids followed these felsites through a thick section of evaporites and organic-rich shaly limestones into clean, homogeneous,
relatively undeformed, limestone hosts. West Camp mineralization occurs along an interconnected network of vertically discontinuous tight fissures and sill contacts, whereas East Camp mineralization is located along vertically throughgoing faults and dike contacts. strata-bound, but not stratiform, mantos extend off discordant chimneys in both camps. Ore textures reveal that mineralization occurred primarily by limestone replacement. 21 Pressure-corrected primary fluid inclusion homogenization temperatures in fluorite range from 220 to 490 deg. C. Salinities are bimodal with high-salinity (>26.3 equivalent wt% NaCl) and low-salinity (1-12 equivalent wt% NaCl) populations. Mineralogical constraints indicate that the hydrothermal fluids were acid and reduced. Sulfur isotope analyses indicate that the ore fluids varied from -17 to +4 permil without correlation to iron-sulfide species,
temperature, or salinity. Co-existing sulfides are commonly in isotopic disequilibrium. Sulfur isotopes from the West Camp are crudely zoned, but no consistent patterns exist in the East Camp. Oxygen and carbon isotope analyses of limestone wallrocks reveal a distinct isotopic alteration halo. A single analysis of gangue calcite from each camp indicates that the ore fluids contained non-carbonate-derived carbon and oxygen, possibly of magmatic origin. Metals were apparently transported as chloride complexes
and deposited through coupled dissolution-precipitation replacement reactions. Most ore sulfur apparently came from diagenetic pyrite and sedimentary anhydrite, but some of the sulfur may have had a magmatic source. The metals probably came from the felsite parent magma and this magma may have also contributed fluids. Close similarities between Santa Eulalia and numerous other intrusion-related carbonate-hosted deposits in northern Mexico reinforce these interpretations.
|
Page generated in 0.0436 seconds