Institutions:
UNIV PITTSBURGH,EH 321/PITTSBURGH//PA/15260
NEW MEXICO BUR MINES & MINERAL RESOURCES/SOCORRO//NM/87801
CALTECH,JET PROP LAB/PASADENA//CA/91109
Abstract:
Miocene crustal extension in the south-western United
States was accompanied by potassium metasomatism, a type of alteration
marked by addition
of large amounts of potassium at the expense of other constituents,
notably sodium. The fluids responsible for the potassic alteration
may have played
a role in triggering extensional fault motion; one way to
determine this is to compare the geographic distribution of the
alteration to fault and
sedimentary facies maps. Despite the large impact on rock
composition, however, the alteration is visually subtle and difficult
to map in the field. In
this paper we present a preliminary alteration map of the
Lemitar Mountains near Socorro, New Mexico, within the Rio Grande
rift. This map was
created from Airborne Visible/Infrared Imaging Spectrometer
(AVIRIS) data. The potential to discriminate potassium metasomatism
in Landsat
Thematic Mapper satellite data is part of the motivation
for this study, since such data are widely available. Although
the potassic minerals do not
exhibit spectral features in the visible and near-infrared,
iron was mobilized during potassium metasomatism, and the distribution
of haematite thus
serves as a proxy for the potassium. Evidence supporting
the proxy relationship between haematite and metasomatism include
(a) published reports
by previous workers stating that haematite is added to rocks
during K-metasomatism; (b) limited chemical evidence that samples
collected from areas
displaying a distinctive spectral response are strongly metasomatized;
(c) the presence of large amounts of haematite in metasomatized
rocks,
observed petrographically and with an EDAX microprobe; and
(d) the coincidence of the southern edge of the K-anomaly in the
Lemitar Mountains
as defined by chemical analysis and the southernmost occurrence
of the anomalous spectral response. No other significant source
of haematite has
been reported from this area. Manganese oxide, occurring
as localized veins or as rock varnish, is black in colour and
highly absorptive, resulting in a
distinctly different spectral response than the metasomatism-related
haematite. This work shows that K-metasomatism can be mapped using
AVIRIS
data. The spectral response is not subtle, and can be observed
in Landsat Thematic Mapper data; it is likely that K-metasomatism
can be mapped, at
least to some significant degree, from the Landsat data.
Ongoing work is focusing on calibrating the strength of the spectral
response to the intensity
of alteration.
Keywords:
+VOLCANIC-ROCKS; +UNITED-STATES; +ARIZONA; +CALIFORNIA
Categories:
PHOTOGRAPHIC TECHNOLOGY; REMOTE SENSING