Global Heritage Stone: Towards International Recognition of Building and Ornamental Stones
This volume provides a synopsis of current research on volcanic processes, as gained through the use of palaeomagnetic and rock magnetic techniques. Thermoremanent magnetization information provides a powerful means of deciphering thermal processes in volcanic deposits, including estimating the emplacement temperature of pyroclastic deposits, which allows us to understand better the rates of cooling during eruption and transport. Anisotropy of magnetic susceptibility and anisotropy of remanence are used primarily to investigate rock fabrics and to quantify flow dynamics in dykes, lava flows, and pyroclastic deposits, as well as identify vent locations. Rock-magnetic characteristics allow correlation of volcanic deposits, but also provide means to date volcanic deposits and to understand better their cooling history. Because lava flows are typically good recorders of past magnetic fields, data from them allow understanding of changes in geomagnetic field directions and intensity, providing clues on the origin of Earth’s magnetic field.
P. Primavori, 2015. "Carrara Marble: a nomination for ‘Global Heritage Stone Resource’ from Italy", Global Heritage Stone: Towards International Recognition of Building and Ornamental Stones, D. Pereira, B. R. Marker, S. Kramar, B. J. Cooper, B. E. Schouenborg
Download citation file:
Carrara Marble, from Italy, probably one of the most famous dimension stones in the collective memory and in ordinary people, is here nominated as a suitable ‘Global Heritage Stone Resource’.
Quarried since pre-Roman times, the Carrara marble is the testimonial of an area/industry that was able – for a variety of reasons not easily repeatable in future stone history – from the dawn of the stone sector, to trigger a flywheel effect on a global scale. Suitable for any environment and cultural context, this versatile marble has been appreciated in almost any field of application – from building to...