Title
Magnetostratigraphy susceptibility for the guadalupian series GSSPs (Middle permian) in Guadalupe Mountains National Park and adjacent areas in West Texas
Document Type
Article
Publication Date
9-5-2013
Abstract
Here we establish a magnetostratigraphy susceptibility zonation for the three Middle Permian Global boundary Stratotype Sections and Points (GSSPs) that have recently been defined, located in Guadalupe Mountains National Park, West Texas, USA. These GSSPs, all within the Middle Permian Guadalupian Series, define (1) the base of the Roadian Stage (base of the Guadalupian Series), (2) the base of the Wordian Stage and (3) the base of the Capitanian Stage. Data from two additional stratigraphic successions in the region, equivalent in age to the Kungurian-Roadian and Wordian-Capitanian boundary intervals, are also reported. Based on low-field, mass specific magnetic susceptibility (χ) measurements of 706 closely spaced samples from these stratigraphic sections and time-series analysis of one of these sections, we (1) define the magnetostratigraphy susceptibility zonation for the three Guadalupian Series Global boundary Stratotype Sections and Points; (2) demonstrate that χ datasets provide a proxy for climate cyclicity; (3) give quantitative estimates of the time it took for some of these sediments to accumulate; (4) give the rates at which sediments were accumulated; (5) allow more precise correlation to equivalent sections in the region; (6) identify anomalous stratigraphic horizons; and (7) give estimates for timing and duration of geological events within sections. © The Geological Society of London 2013.
Publication Source (Journal or Book title)
Geological Society Special Publication
First Page
375
Last Page
394
Recommended Citation
Ellwood, B., Lambert, L., Tomkin, J., Bell, G., Nestell, M., Nestell, G., & Wardlaw, B. (2013). Magnetostratigraphy susceptibility for the guadalupian series GSSPs (Middle permian) in Guadalupe Mountains National Park and adjacent areas in West Texas. Geological Society Special Publication, 373 (1), 375-394. https://doi.org/10.1144/SP373.1