{"title":"加拿大西部沉积盆地不同机构报告的地震震级值差异调查","authors":"Alireza Babaie Mahani, Honn Kao, Brindley Smith","doi":"10.1007/s10950-024-10225-4","DOIUrl":null,"url":null,"abstract":"<div><p>Earthquake magnitude plays a crucial role in assessing ground shaking severity and formulating mitigation strategies for both natural and induced earthquakes. This study specifically focuses on the Western Canada Sedimentary Basin (WCSB) and examines the estimation of local magnitude (<span>\\({M}_{L}\\)</span>) by different agencies. The analysis includes the application of various distance calibration functions for the Richter’s methodology, incorporating both Richter's original function (Richter, Elementary Seismology, Freeman, San Francisco, Calif, 1958) and WCSB-specific calibration functions proposed by Yenier 2017 Bull Seismol Soc Am 107:1421-1431 and Babaie Mahani and Kao 2019 Seismol Res Lett 90:203-211, 2020 CSEG Recorder 45:12.</p><p>In the WCSB, fluid injection has caused significant increase in the rate of seismicity in several localities, prompting the regulatory agencies to request suspension of injection operations after the occurrence of red-light (i.e., <span>\\({M}_{L}\\)</span> ≥ 4) events. Our investigation, based on a new dataset, sheds light on the significant effects due to distance calibration functions on the <span>\\({M}_{L}\\)</span> estimation. Notably, we observe that using the original Richter’s calibration function designed for southern California results in more than three times the number of red-light events compared to employing more appropriate calibration functions. 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引用次数: 0
摘要
地震震级在评估地震动严重程度以及制定天然地震和诱发地震的减灾策略方面起着至关重要的作用。本研究特别关注加拿大西部沉积盆地 (WCSB),并考察了不同机构对当地震级 (\({M}_{L}\)) 的估算。分析包括里氏方法的各种距离校准函数的应用,既包括里氏的原始函数(Richter,Elementary Seismology,Freeman,San Francisco,Calif,1958),也包括 Yenier 2017Bull Seismol Soc Am 107:1421-1431 和 Babaie Mahani and Kao 2019 Seismol Res Lett 90:203-211、2020 CSEG Recorder 45:12 提出的针对 WCSB 的校准函数。在世界大洋钻探委员会(WCSB),流体注入导致多个地区的地震率显著上升,促使监管机构要求在发生红光(即......)后暂停注入作业、\({M}_{L}\) ≥ 4)事件。我们基于新数据集的调查揭示了距离校准函数对 \({M}_{L}\) 估计的显著影响。值得注意的是,我们观察到,与使用更合适的校准函数相比,使用为南加州设计的原始里氏校准函数会导致三倍以上的闯红灯事件。我们的研究结果表明,在监管过程中使用夸大的 \({M}_{L}\) 值会带来不必要的经济后果,并强调了采用适当的校准函数进行西加州大坝地震监测的必要性。
Investigation of the discrepancy in the earthquake magnitude values reported by different agencies in the Western Canada Sedimentary basin
Earthquake magnitude plays a crucial role in assessing ground shaking severity and formulating mitigation strategies for both natural and induced earthquakes. This study specifically focuses on the Western Canada Sedimentary Basin (WCSB) and examines the estimation of local magnitude (\({M}_{L}\)) by different agencies. The analysis includes the application of various distance calibration functions for the Richter’s methodology, incorporating both Richter's original function (Richter, Elementary Seismology, Freeman, San Francisco, Calif, 1958) and WCSB-specific calibration functions proposed by Yenier 2017 Bull Seismol Soc Am 107:1421-1431 and Babaie Mahani and Kao 2019 Seismol Res Lett 90:203-211, 2020 CSEG Recorder 45:12.
In the WCSB, fluid injection has caused significant increase in the rate of seismicity in several localities, prompting the regulatory agencies to request suspension of injection operations after the occurrence of red-light (i.e., \({M}_{L}\) ≥ 4) events. Our investigation, based on a new dataset, sheds light on the significant effects due to distance calibration functions on the \({M}_{L}\) estimation. Notably, we observe that using the original Richter’s calibration function designed for southern California results in more than three times the number of red-light events compared to employing more appropriate calibration functions. Our results point to the unnecessary economic consequences when exaggerated \({M}_{L}\) values are used in the regulatory process and underscores the need for adopting proper calibration functions for seismic monitoring in the WCSB.
期刊介绍:
Journal of Seismology is an international journal specialising in all observational and theoretical aspects related to earthquake occurrence.
Research topics may cover: seismotectonics, seismicity, historical seismicity, seismic source physics, strong ground motion studies, seismic hazard or risk, engineering seismology, physics of fault systems, triggered and induced seismicity, mining seismology, volcano seismology, earthquake prediction, structural investigations ranging from local to regional and global studies with a particular focus on passive experiments.