Redistribution and mobility of uranium during the metamorphism of volcanogenic formations

Abstract

1. Effusive and intrusive petrochemical analogs differ considerably as regards their content of ordinary and mobile uranium. This is because of the fundamentally differing conditions of solidification of the chemically identical melts. 2. As products of the rapid supercooling of aluminosilicate melts, effusives mechanically capture all the uranium dissipated within them, and as a result of the metastable state of the main mass fail to transfer this uranium to solutions without the complete chemical decomposition of the material composing them. 3. The initial concentration and distribution of the uranium in volcanogenic rocks are altered when epigenetic processes associated with tectonic magmatism and metamorphism develop on the large scale. As they develop regional, local, contact, and hydrothermal forms of metamorphism lead to the appearance of different amounts of mobile uranium and to a change in the original content. Ultrametamorphism leads to the greatest losses of uranium. 4. The most promising sites as regards the discovery of uranium ore-formation are regions of acid volcanism having widely evident areas of low- and medium-temperature hydrothermal metamorphism, with traces of later tectono-magmatic activization. No less favorable are regions corresponding to the propagation of early volcanogenic accumulations of the same composition which have experienced metamorphism of the greenschist facies and then been subjected to hydrothermal action.