{"title":"A local magnitude scale (ML) for Northern Algeria","authors":"Khaled Roubeche , Fethi Semmane , Issam Abacha , Oualid Boulahia , Sofiane Taki-Eddine Rahmani , El-Mahdi Tikhamarine","doi":"10.1016/j.tecto.2024.230435","DOIUrl":null,"url":null,"abstract":"<div><p>This study presents a local magnitude scale (M<sub>L</sub>) based on the original Richter definition and designed for use within the Algerian Digital Seismic Network (ADSN). The magnitude scale is derived from the analysis of 17,377 zero-peak maximum amplitude traces extracted from the vertical component, simulated as Wood-Anderson seismograms. These traces are taken from a dataset of 1901 earthquakes recorded between January 1, 2010, and June 1, 2022, at a minimum of five stations in the ADSN network. To better account for the attenuation of direct and refracted waves in northern Algeria, amplitude decay analysis reveals the presence of two transition distances at 90 and 190 km, resulting in three segments. A distance correction term, −log<sub>10</sub>(A0), is introduced and described by the following trilinear function:<span><span><span><math><mo>−</mo><mo>log</mo><mfenced><mrow><mi>A</mi><mn>0</mn></mrow></mfenced><mo>=</mo><mfenced><mtable><mtr><mtd><mn>0.6747</mn><mo>∗</mo><mi>lo</mi><msub><mi>g</mi><mn>10</mn></msub><mfenced><mi>R</mi></mfenced><mo>+</mo><mn>0.0002</mn><mo>∗</mo><mi>R</mi><mo>+</mo><mn>1.6306</mn><mspace></mspace><mi>R</mi><mo>≤</mo><mn>90</mn></mtd></mtr><mtr><mtd><mspace></mspace><mn>1.7736</mn><mo>∗</mo><mi>lo</mi><msub><mi>g</mi><mn>10</mn></msub><mfenced><mi>R</mi></mfenced><mo>+</mo><mn>0.0002</mn><mo>∗</mo><mi>R</mi><mo>−</mo><mn>0.5169</mn><mspace></mspace><mn>90</mn><mo><</mo><mi>R</mi><mo>≤</mo><mn>190</mn></mtd></mtr><mtr><mtd><mspace></mspace><mn>2.4580</mn><mo>∗</mo><mi>lo</mi><msub><mi>g</mi><mn>10</mn></msub><mfenced><mi>R</mi></mfenced><mo>+</mo><mn>0.0002</mn><mo>∗</mo><mi>R</mi><mo>−</mo><mn>2.0765</mn><mspace></mspace><mi>R</mi><mo>></mo><mn>190</mn></mtd></mtr></mtable></mfenced></math></span></span></span></p><p>R represents the hypocentral distance in kilometers. The derived distance correction formula provides a well-constrained M<sub>L</sub> relationship for northern Algeria that is valid over a distance range of 5 to 600 km. Compared to other local magnitude relationships, the methodology proposed in this study consistently gives M<sub>L</sub> values slightly higher than those calculated by the Southern California relationship over all distances, with an average difference of 0.2 units. We computed corrections for 72 stations by minimizing the M<sub>L</sub> residuals. These corrections range from −0.50 to 0.54, highlighting the influence of local site effects on the amplitude of the seismic signal. The magnitude residuals using our magnitude relationship and incorporating the station corrections, show that the standard deviation has improved significantly, from 0.34 to 0.24. An M<sub>L</sub> relationship specific to the northern Algerian region provides a valuable tool for seismic monitoring, hazard assessment, and earthquake research in the region.</p></div>","PeriodicalId":22257,"journal":{"name":"Tectonophysics","volume":"886 ","pages":"Article 230435"},"PeriodicalIF":2.7000,"publicationDate":"2024-07-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Tectonophysics","FirstCategoryId":"89","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0040195124002373","RegionNum":3,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GEOCHEMISTRY & GEOPHYSICS","Score":null,"Total":0}
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Abstract
This study presents a local magnitude scale (ML) based on the original Richter definition and designed for use within the Algerian Digital Seismic Network (ADSN). The magnitude scale is derived from the analysis of 17,377 zero-peak maximum amplitude traces extracted from the vertical component, simulated as Wood-Anderson seismograms. These traces are taken from a dataset of 1901 earthquakes recorded between January 1, 2010, and June 1, 2022, at a minimum of five stations in the ADSN network. To better account for the attenuation of direct and refracted waves in northern Algeria, amplitude decay analysis reveals the presence of two transition distances at 90 and 190 km, resulting in three segments. A distance correction term, −log10(A0), is introduced and described by the following trilinear function:
R represents the hypocentral distance in kilometers. The derived distance correction formula provides a well-constrained ML relationship for northern Algeria that is valid over a distance range of 5 to 600 km. Compared to other local magnitude relationships, the methodology proposed in this study consistently gives ML values slightly higher than those calculated by the Southern California relationship over all distances, with an average difference of 0.2 units. We computed corrections for 72 stations by minimizing the ML residuals. These corrections range from −0.50 to 0.54, highlighting the influence of local site effects on the amplitude of the seismic signal. The magnitude residuals using our magnitude relationship and incorporating the station corrections, show that the standard deviation has improved significantly, from 0.34 to 0.24. An ML relationship specific to the northern Algerian region provides a valuable tool for seismic monitoring, hazard assessment, and earthquake research in the region.
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The prime focus of Tectonophysics will be high-impact original research and reviews in the fields of kinematics, structure, composition, and dynamics of the solid arth at all scales. Tectonophysics particularly encourages submission of papers based on the integration of a multitude of geophysical, geological, geochemical, geodynamic, and geotectonic methods
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