以山东夏甸金矿为例,基于大量岩(矿)石电阻率数据的存在以及岩(矿)石电阻率值与温度、压力的变化关系,通过电阻率值的大、小,从等温等压对比、岩石(或矿物)对比和数值计算3个方面反推温、压条件值。尽管该温、压条件值的判定并不是很精确,但数值变化的连续性,有规律的区间性、等距性和可对比性等,对成矿边界条件给予更系统、更深入地分析研究,获取有关成矿构造环境的更多信息。主要表现在电阻率值分别对组成成矿构造环境物质成分、温压条件连续变化,拉张和挤压,力学性质转换,主要物理能量转换以及空间定位等方面的判别,不仅加大成矿构造环境研究的深度,而且为新成矿预测标志的建立将增加新的内容。 Taking the Xiadian Gold Mine in Shandong Province as an example, based on the existence of a large amount of rock resistivity data and the relationship between the rock resistivity value and the temperature and pressure, the resistivity value is large, small and isothermal Pressure contrast, rock (or mineral) contrast and numerical calculation of three aspects of reverse temperature, pressure conditions. Although the determination of the temperature and pressure conditions is not very accurate, the continuity of numerical changes, regular intervals, equidistance and comparability, etc., provide a more systematic and deeper analysis of the ore-forming boundary conditions For more information on the metallogenic tectonic setting. It is mainly manifested in that the resistivity values ​​discriminate the composition of environmental components of ore-forming tectonic environment, the continuous change of temperature and pressure conditions, tension and compression, mechanical property conversion, main physical energy conversion and space location respectively, which not only increase the metallogenic tectonic environment Depth of research, but also to add new content for the establishment of new ore prediction signs.