V32B-07
Opening the closed box: lattice diffusion in zircon?
Wednesday, 16 December 2015: 11:38
308 (Moscone South)
John Wheeler, University of Liverpool, Earth, Ocean and Ecological Sciences, Liverpool, United Kingdom, John MacDonald, Department of Geoscience, National Taiwan University, Taipei, Taiwan, Kathryn M. Goodenough, British Geological Survey, Edinburgh, United Kingdom, Quentin Crowley, Trinity College Dublin, Geology, Dublin, Ireland, Simon Harley, University of Edinburgh, Geosciences, Edinburgh, United Kingdom and Elisabetta Mariani, University of Liverpool, Liverpool, United Kingdom
Abstract:
In principle, any radiogenic parent or daughter element can diffuse through any crystalline lattice. Given improved analytic techniques and mathematical models, geochronology is beginning to take such diffusion into account in a quantitative fashion. Whilst lattice diffusion compromises simple interpretation of radiometric data, it can, when combined with spatially resolved data, provide more detailed insight into thermal histories. In regions that have experienced particularly high temperatures diffusion may become significant in minerals normally thought to be reliably closed. We have modelled Pb diffusion in zircon, building on earlier work on Ar diffusion in micas – the mathematics being basically the same. We are motivated by some challenging isotope data from zircon in the Lewisian Complex of NW Scotland (a TTG region with a long Archaean and Proterozoic history). For example we have grains with old rims and younger cores. Whilst other explanations are possible, we show how lattice diffusion of Pb is plausible, using experimental diffusion data together with estimates of ultra-high temperatures from the region. We have modified a previous model for Ar diffusion (“Diffarg”) to include variations in parent isotope concentration, so we can understand the consequences of U zonation within zircon grains during prolonged thermal histories. This is also relevant to asking why Pb has apparently not diffused in zircon from other UHT regions – or has it?