Skip to Main Content
GEOREF RECORD

Isotopic and elemental chemistry of subsurface Precambrian igneous rocks, West Texas and eastern New Mexico

Melanie Barnes, C. Renee Rohs, Elizabeth Y. Anthony, W. Randy Van Schmus and Rodger E. Denison
Isotopic and elemental chemistry of subsurface Precambrian igneous rocks, West Texas and eastern New Mexico (in Proterozoic magmatism of the Rocky Mountains and environs (Part I), Carol D. Frost (editor))
Rocky Mountain Geology (1999) 34 (2): 245-262

Abstract

We present major element, trace element, and Nd isotopic analyses from cutting and core samples for three subsurface terranes in west Texas and eastern New Mexico. The most northerly is the Panhandle volcanic terrane, which represents a large part of the Mesoproterozoic southern granite-rhyolite province. This terrane is comprised of undeformed rhyolite, ignimbritic tuff, granite, and diabase. The Panhandle terrane is split by the Debaca terrane, which consists of intercalated metasedimentary and metavolcanic rocks intruded by olivine gabbro, ferrogabbro, and diabase. Mildly to strongly deformed intermediate and felsic intrusive rocks of unknown affinity make up the third terrane, called here the crystalline terrane; it is located south and southeast of the Panhandle and Debaca terranes. Intermediate-to-felsic rocks of the terranes can be subdivided on the basis of their geochemistry into those with: (1) K (sub 2) O/Na (sub 2) O>1 and A-type trace element characteristics; and (2) K (sub 2) O/Na (sub 2) O<1 and I-type trace element characteristics. All but a few samples from the Panhandle terrane, both north and south of the Debaca terrane, are A-type. Depleted mantle model ages for granites and rhyolites from the northern Panhandle terrane range from 1.50-1.69 Ga. Two samples from the southern Panhandle terrane have model ages of 1.74 Ga, and a third sample's model age is 1.57 Ga. These model ages are older than the four reported crystallization ages of 1.37-1.4 Ga, indicating that: (1) A-type rocks of the Panhandle terrane contain a significant crustal component; and (2) Panhandle terrane is underlain by <1.7-Ga crust. The southern edge of Laurentia, therefore, is farther south than previously inferred. A diabase form the then Pan-handle terrane has a T (sub DM) of 1.44 Ga. If this model age is close to the crystallization age, then diabase in the Panhandle terrane is approximately coeval with the granite and rhyolite. The model age for the gabbro from the Debaca terrane is distinctly younger at 1.26 Ga, and is the same as crystallization ages of felsic tuffs associated with shelf carbonates in the Franklin Mountains and Van Horn area. In the crystalline terrane, both A- and I-type granites are present. Model ages for the I-type granites are 1.40-1.47 Ga. These are distinctly younger than the model age for the Panhandle terrane, and an A-type granite has a T (sub DM) of 1.35 Ga. These data indicate that granites in the crystalline terrane are not part of the granite-rhyolite province; rather, they constitute a separate group.


ISSN: 1555-7332
EISSN: 1555-7340
Coden: WUGGAO
Serial Title: Rocky Mountain Geology
Serial Volume: 34
Serial Issue: 2
Title: Isotopic and elemental chemistry of subsurface Precambrian igneous rocks, West Texas and eastern New Mexico
Title: Proterozoic magmatism of the Rocky Mountains and environs (Part I)
Affiliation: Texas Tech University, Department of Geosciences, Lubbock, TX, United States
Pages: 245-262
Published: 1999
Text Language: English
Publisher: University of Wyoming, Dept. of Geology and Geophysics, Laramie, WY, United States
References: 35
Accession Number: 2000-069020
Categories: Isotope geochemistryIgneous and metamorphic petrology
Document Type: Serial
Bibliographic Level: Analytic
Annotation: Includes appendix
Illustration Description: illus. incl. 5 tables, sketch maps
N31°30'00" - N37°00'00", W109°04'60" - W103°00'00"
Secondary Affiliation: Mineral Area College, USA, United StatesUniversity of Texas at El Paso, USA, United StatesUniversity of Kansas, USA, United StatesUniversity of Texas at Dallas, USA, United States
Country of Publication: United States
Secondary Affiliation: GeoRef, Copyright 2018, American Geosciences Institute.
Update Code: 200022
Close Modal
This Feature Is Available To Subscribers Only

Sign In or Create an Account

Close Modal
Close Modal