Mineral Resources On-Line Spatial Data: tin

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Tin

Metalloid element with symbol Sn and atomic number 50 <http://periodic.lanl.gov/50.shtml>

This category is also used for Sn.

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Results 1 - 15 of 15 listed by similarity [list alphabetically]

Chemical analyses of soils and other surficial materials of the conterminous US [New Window]: Geochemistry of soils and other regoliths collected and analyzed by Hans Shacklette and colleagues from 1958 until about 1976.
Geochemical and stable isotopic data on barren and mineralized drill core in the Devonian Popovich Formation, Screamer sector of the Betze-Post gold deposit, northern Carlin trend, Nevada [New Window]: Detailed chemical and isotopic analysis of host and associated rocks within an area that is currently the largest producer of gold in the US. Part of a study of the hydrothermal activity leading to the formation of these gold deposits.
Geochemistry of sediments in the US from the PLUTO database [New Window]: Geochemical data for unconsolidated sediments (stream sediments, lake sediments, etc.) collected in the US and analyzed by the USGS. These data were originally entered in the PLUTO database, which is now merged into the National Geochemistry Database.
Geochemistry of soils in the US from the PLUTO database [New Window]: Geochemical data for soils collected in the United States and analyzed by the USGS. The data were originally entered into the in-house PLUTO database. This is a subset of DDS-47.
Geochemistry of soils in the US from the RASS database [New Window]: Geochemical data for soils collected by USGS personnel and analyzed by the USGS. These data were originally entered into the Rock Analysis Storage System (RASS), a database that is now merged into the National Geochemistry Database.
Geochemistry of stream sediments in the US from the NURE-HSSR database [New Window]: National-scale geochemical analysis of stream sediments and soils in the US collected and analyzed under the National Uranium Resource Evaluation program.
Geospatial database for regional environmental assessment of central Colorado [New Window]: Study focusing on the effects of historical mining on Forest Service lands in this area.
Giant porphyry-related metal camps of the world [New Window]: Database of large-tonnage, generally low-grade, hydrothermal deposits related to igneous intrusions emplaced at high crustal levels. Includes tri-partite classification based on deposit type, metal commodities, and source/host pluton chemistry.
Lithogeochemistry of mineralized and altered rock samples from the northern Talkeetna Mountains, south-central Alaska [New Window]: Chemical analysis of 201 samples of rocks thought to be altered or mineralized in an area containing numerous mines.
Local-area-enhanced, 2.5-meter resolution natural-color and color-infrared satellite-image mosaics of the Dusar-Shaida mineral district in Afghanistan [New Window]: GeoTIFF rendition of locally enhanced ALOS image mosaics for this area known to contain copper and tin deposits
Local-area-enhanced, 2.5-meter resolution natural-color and color-infrared satellite-image mosaics of the Tourmaline mineral district in Afghanistan [New Window]: GeoTIFF rendition of locally enhanced ALOS image mosaics for this area known to contain tin deposits.
National Geochemical Database: Rock [New Window]: Geochemical analysis of rock samples collected and analyzed by the USGS. This dataset includes and supersedes rock data formerly released as "Geochemistry of igneous rocks in the US extracted from the PLUTO database"
National geochemical survey database [New Window]: National-scale geochemical analysis of stream sediments and soils in the US, from existing data, reanalysis of existing samples, and new sampling. Goal for sample density is one per 289 square km.
Review of samples of tailings, soils and stream sediment adjacent to and downstream from the Ruth Mine, Inyo County, California [New Window]: Detailed study of mine waste material and sediments from streams passing through it. Arsenic is the main contaminant of interest here.
Review of samples of water, sediment, tailings, and biota at the Little Bonanza mercury mine, San Luis Obispo County, California [New Window]: Data from field sampling of mine tailings, wasterock, sediment, water, and biota at the mine in 2010. Results permit a preliminary assessment of the mining sources of Hg and associated chemicals that could produce elevated levels of monomethylmercury.

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