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Geothermal exploration with Hymap hyperspectral data at Brady-Desert Peak, Nevada [An article from: Remote Sensing of Environment]
Book Details
Author(s)C. Kratt, W. Calvin, M. Coolbaugh
PublisherElsevier
ISBN / ASINB000PAUEGK
ISBN-13978B000PAUEG2
AvailabilityAvailable for download now
Sales Rank12,177,359
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Remote Sensing of Environment, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
We explore the use of Hymap (hyperspectral mapper) to remotely map unique geothermal indicator minerals over the Brady-Desert Peak geothermal fields. Geothermal-related minerals and rocks such as sinter, tufa, and sulfates, display diagnostic characteristics in the visible and shortwave infrared; their presence and distribution can be used to guide more detailed field work for geothermal exploration. The Brady-Desert Peak geothermal fields are located about 80 km east of Reno, Nevada in the Hot Springs Mountains. North-northeast-striking en-echelon faults offset Tertiary volcanic and lacustrine rocks. Two geothermal power plants produce electricity from two separate geothermal systems, one with numerous fumaroles and mudpots, the other showing no active surface expression of geothermal activity. Surface occurrences of gypsum, calcium-carbonate, hematite, and opaline silica were identified at both sites with the hyperspectral data; these minerals when considered together are indicative of geothermal activity at both sites. Mapping results were synthesized with other spatial data in a geographic information systems (GIS) database that was used to help draw structural interpretations of faulting and fault controls at the Brady-Desert Peak area. The same processing methods can be applied to new hyperspectral data sets for future exploration in the Great Basin, especially in areas that lack obvious thermal expressions.
Description:
We explore the use of Hymap (hyperspectral mapper) to remotely map unique geothermal indicator minerals over the Brady-Desert Peak geothermal fields. Geothermal-related minerals and rocks such as sinter, tufa, and sulfates, display diagnostic characteristics in the visible and shortwave infrared; their presence and distribution can be used to guide more detailed field work for geothermal exploration. The Brady-Desert Peak geothermal fields are located about 80 km east of Reno, Nevada in the Hot Springs Mountains. North-northeast-striking en-echelon faults offset Tertiary volcanic and lacustrine rocks. Two geothermal power plants produce electricity from two separate geothermal systems, one with numerous fumaroles and mudpots, the other showing no active surface expression of geothermal activity. Surface occurrences of gypsum, calcium-carbonate, hematite, and opaline silica were identified at both sites with the hyperspectral data; these minerals when considered together are indicative of geothermal activity at both sites. Mapping results were synthesized with other spatial data in a geographic information systems (GIS) database that was used to help draw structural interpretations of faulting and fault controls at the Brady-Desert Peak area. The same processing methods can be applied to new hyperspectral data sets for future exploration in the Great Basin, especially in areas that lack obvious thermal expressions.
