Comparison and Renormalization of Holocene Paleointensity Records From Central North America (17°N–51°N, 205°E–295°E)

Authors

Steve P. Lund, University of Southern California
Marci Richardson, University of Southern California
Ken Verosub, University of California, Davis
John King, University of Rhode Island
Duane Champion, United States Geological Survey Western Region
Guillame St-Onge, Institut des Sciences de la Mer de Rimouski

Document Type

Article

Date of Original Version

12-1-2021

Abstract

This paper develops a composite absolute paleointensity record for Holocene paleomagnetic secular variation (PSV) from central North America. Twelve full-vector (inclination, declination, paleointensity) PSV records were assessed in order to build the composite record. Nine of the paleointensity records come from sediment paleomagnetic studies and are considered relative in intensity. Three of the paleointensity records come from absolute paleointensity measurements of archeological materials and lava flows. This paper develops a new method to normalize the sediment relative paleointensity records to the absolute intensity records. The final composite paleointensity record describes intensity variability over a region of Central North America delineated by 35°–48.6°N and 240.4–291.4°E (∼14° × 50°). This composite record shows a distinctive long-duration (∼104 year) oscillation and a series of millennial-scale intensity oscillations that are consistent over our study region.

Publication Title, e.g., Journal

Earth and Space Science

Volume

8

Issue

12

Citation/Publisher Attribution

Lund, Steve P., Marci Richardson, Ken Verosub, John King, Duane Champion, and Guillame St-Onge. "Comparison and Renormalization of Holocene Paleointensity Records From Central North America (17°N–51°N, 205°E–295°E)." Earth and Space Science 8, 12 (2021). doi: 10.1029/2021EA001900.