Global records of hafnium isotopes in zircon shed light on Earth’s deep past
Presented by:
Kurt E. Sundell
Department of Geosciences, Idaho State University, Pocatello, ID, USA
11:30 Reception | 11:45 Lunch | 12:00 Talk
Rock Bottom Brewery-Banquet Room
1001 16th St Mall, Denver, CO 80265
Abstract
The assembly and dispersion of continental crust exert first-order controls on paleogeography and geochemical cycles. The associated reworking of Earth’s crust can be tracked with zircon initial hafnium (εHfT) through space and time. Here we apply a new method for quantitative analysis of εHfT density estimates based on a compilation of 155,061 εHfT values. Investigation of the global database reveals geographic and temporal bias in the εHfT record associated with sampling and regional tectonic events. Recent research has attempted to address global εHfT bias using resampling methods to augment gaps of low εHfT data density, which in turn obfuscates tectonic signals and artificially weights outliers. Instead, we evaluate εHfT density patterns for both igneous and detrital zircon on eight continental zones demarcated by Paleozoic sutures: Africa, Antarctica, Asia, Australia, Baltica, North America, Peri-Gondwana, and South America. Pairwise two-dimensional quantitative comparison highlights similarity in timing and εHfT values between zones, all of which can be linked to documented shared regional tectonism. Integration of all pairwise comparisons reveals that peak similarity corresponds to the timing of supercontinent amalgamation, and that the associated εHfT differs depending on the style of supercontinent amalgamation, particularly internal versus external orogenesis. The three most recent supercontinents produced distinctive εHfT signals, shared by the constituent continents. The supercontinents Rodinia and Pangea were constructed through collisions of marginal arc terranes, peripheral to ancient crust, and did not produce highly enriched εHfT values. In contrast, Ediacaran to Cambrian formation of the Gondwana supercontinent was largely the product of internal Pan-African orogens that formed directly after Neoproterozoic Rodinia rifting and arc accretion forming the Arabian Shield. The final assembly of Gondwana was dominated by continent-continent collisions of old radiogenic crust without establishment and accretion of extensive intervening depleted arc terranes, resulting in a more enriched distribution of εHfT values compared to prior and subsequent supercontinent formation. The secular εHfT record is the product of spatiotemporally biased sampling and preservation of specific orogenic belts with predictable εHfT data arrays, modulated by the amalgamation, tenure, and breakup of supercontinents through time.
Biography:
Kurt is an Assistant Professor at Idaho State University and is interested in tectonic processes, interrogated through the lens of the sedimentary record. His research is usually field based, and complemented by a variety of analytical methods including U-Th-Pb geochronology, Lu-Hf and trace element geochemistry, stable isotopic analysis (O and H), and (U-Th)/He thermochronology. Kurt likes to take a quantitative approach to geologic questions, which has led him down a fun path of developing and applying quantitative sediment provenance methods, building on my Ph.D. research. He continues to work closely with the Arizona LaserChron Center at the University of Arizona. Kurt also maintains community involvement by engaging in LA-ICP-MS geochronology-geochemistry workshops, short courses, town halls, and by continuing to develop and maintaining data reduction-visualization-interpretation-archiving software for the LaserChron Center (AgeCalcML).
Registration is open until 10:00 am, Friday, November 11th
This is an in-person and online event!
The cost is $30.00 for current members and $40.00 for non-members. Web only Zoom registration is $10.00 ($5.00 for students). Unemployed individuals may sign up for lunch for just $20.00. Students may sign up for lunch for $20.00. Persons who do not wish to have lunch are welcome for a $20.00 fee. Walk-ins may purchase a lunch for the standard fees ($30.00 or $40.00) although quantities are limited. Walk-ins without a lunch are charged a $15.00 fee.
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