Temperature and pressure dependencies of thermal transport properties of rocks: Implications for uncertainties in thermal lithosphere models and new laboratory measurements of high-grade rocks in the central Fennoscandian Shield

Measurements on thermal conductivity and diffusivity as functions of temper ature (up to 1150 K) and pressure (up to 1000 MPa) are presented for Archae an and Proterozoic mafic high-grade rocks metamorphosed in middle and lower crustal pressures, and situated in eastern Finland, central Fennoscandian Shield. Decrease of 12-20% in conductivity and 40-55% in diffusivity was re corded between room temperature and 1150 K, which can be considered as typi cal of phonon conductivity. Radiative heat transfer effects were not detect ed in these samples. Pressure dependencies of the samples are weak if compa red to crystalline rocks in general, but relatively typical for mafic rocks . The temperature and pressure dependencies of thermal transport properties ( data from literature and the present study) were applied in an uncertainty analysis of lithospheric conductive thermal modellings with random (Monte C arlo) simulations using a 4-layer model representative of shield lithospher e. Model parameters were varied according to predetermined probability func tions and standard deviations were calculated for lithospheric temperature and heat flow density after 1500 independent simulations. The results sugge st that the variations (uncertainties) in calculated temperature and heat f low density values due to variations in the temperature and pressure depend encies of conductivity are minor in comparison to the effects produced by t ypical variations in the room temperature value of conductivity, heat produ ction rate or lower boundary condition values.