通过分析新疆天山中东段和南天山西段地区2000年以来的以最小完整性震级(Magnitude of completeness,Mc)下限为基础的b值时空扫描图像,得到天山中东段和南天山西段两个不同区域的b值异常指标,研究结果表明:1天山中东段地区b值背景为0.70...通过分析新疆天山中东段和南天山西段地区2000年以来的以最小完整性震级(Magnitude of completeness,Mc)下限为基础的b值时空扫描图像,得到天山中东段和南天山西段两个不同区域的b值异常指标,研究结果表明:1天山中东段地区b值背景为0.705±0.004;南天山西段b值背景为0.583±0.003,略低于天山中东段b值背景水平。2 2003—2012年研究区内4次6级以上地震前,震中位置的b值多数处于低值状态,而震中附近区域其b值相对较高,反映出应力积累变化的主要方向。展开更多
Climatic anomalies not only attract the attention of specialists in climatology and meteorology, but also stimulate geological research, because climatic changes activate many geological processes: mudflow and landsli...Climatic anomalies not only attract the attention of specialists in climatology and meteorology, but also stimulate geological research, because climatic changes activate many geological processes: mudflow and landslide formation, erosion, weathering, etc. An increase in the activity of geological processes was clearly manifested in Tajikistan, 93% of which is occupied by mountain structures. As a result, this found expression in conducting new for that territory engineering-geonomic studies. Both the region as a whole and its individual parts can serve as models in the study of natural processes due to the diversity of landscape-climatic belts and zones. The report contains brief data on engineering-geonomic studies conducted in the Zeravshan river basin in connection with the intensification of mudflow processes.展开更多
文摘通过分析新疆天山中东段和南天山西段地区2000年以来的以最小完整性震级(Magnitude of completeness,Mc)下限为基础的b值时空扫描图像,得到天山中东段和南天山西段两个不同区域的b值异常指标,研究结果表明:1天山中东段地区b值背景为0.705±0.004;南天山西段b值背景为0.583±0.003,略低于天山中东段b值背景水平。2 2003—2012年研究区内4次6级以上地震前,震中位置的b值多数处于低值状态,而震中附近区域其b值相对较高,反映出应力积累变化的主要方向。
文摘Climatic anomalies not only attract the attention of specialists in climatology and meteorology, but also stimulate geological research, because climatic changes activate many geological processes: mudflow and landslide formation, erosion, weathering, etc. An increase in the activity of geological processes was clearly manifested in Tajikistan, 93% of which is occupied by mountain structures. As a result, this found expression in conducting new for that territory engineering-geonomic studies. Both the region as a whole and its individual parts can serve as models in the study of natural processes due to the diversity of landscape-climatic belts and zones. The report contains brief data on engineering-geonomic studies conducted in the Zeravshan river basin in connection with the intensification of mudflow processes.