Assimilation of seismic attenuation model of NW Himalaya and its surrounding region

•Seismic attenuation in the NW Himalaya using 2716 earthquakes between 2008 and 2015.•A depth-dependent increase in qc with frequency and lapse time.•The Tethys Himalaya shows the highest attenuation and the higher Himalaya the lowest.•These findings enhance understanding of geotectonic segmentation...

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Published inGeosystems and geoenvironment Vol. 4; no. 2; p. 100378
Main Authors Vandana, Kumar, Naresh
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2025
Elsevier
Subjects
Coda wave
NW Himalaya
P-wave
S-wave
Seismic attenuation
Seismic hazard
S-wave
Seismic attenuation
Seismic hazard
P-wave
Coda wave
NW Himalaya
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Abstract •Seismic attenuation in the NW Himalaya using 2716 earthquakes between 2008 and 2015.•A depth-dependent increase in qc with frequency and lapse time.•The Tethys Himalaya shows the highest attenuation and the higher Himalaya the lowest.•These findings enhance understanding of geotectonic segmentation. In this study, we analyze the seismic attenuation characteristics of the Northwest Himalaya and adjacent regions using a dataset of 2,716 earthquakes (2.5 ≤ Mw ≤ 5.0) recorded from 2008 to 2015 by a network of 30 broadband seismographs. The single backscattering model was applied to estimate the quality factor of coda waves (Qc) across three lapse time windows (LTWs) at varying frequencies. Our results reveal that Qc increases with both frequency and LTW, suggesting a depth-dependent nature of seismic attenuation in the region. The average attenuation relationships for Qc, Qα and Qβ across the Northwest Himalaya are determined as follows for LTWs of 20, 30, and 40 s, respectively: Qc = (74 ± 14)f(1.27±0.06), Qc = (103 ± 26)f(1.16±0.08), and Qc = (140 ± 41)f(1.10±0.09). Our findings reveal significant variability in Qc, Qα and Qβ across the Tethys (TH), High (HH), Lesser (LH), and Shiwalik (SH) Himalaya regions, as well as the adjacent Indo-Gangetic Plains (IGP), with this variability strongly linked to structural heterogeneity and seismogenic processes in each region. We further establish attenuation relations for distinct tectonic units, observing the following hierarchy: [Qα,β,c−1(HH) < Qα,β,c−1(SH) < Qα,β,c−1(IGP) < Qα,β,c−1(LH) < Qα,β,c−1(TH)]. The Tethys Himalaya exhibits the high attenuation, likely due to its sedimentary structure, while the Higher Himalaya shows the low attenuation. These insights into attenuation characteristics across geotectonic segments in the Northwest Himalaya contribute to a more comprehensive seismic hazard assessment for the region. [Display omitted]
AbstractList •Seismic attenuation in the NW Himalaya using 2716 earthquakes between 2008 and 2015.•A depth-dependent increase in qc with frequency and lapse time.•The Tethys Himalaya shows the highest attenuation and the higher Himalaya the lowest.•These findings enhance understanding of geotectonic segmentation. In this study, we analyze the seismic attenuation characteristics of the Northwest Himalaya and adjacent regions using a dataset of 2,716 earthquakes (2.5 ≤ Mw ≤ 5.0) recorded from 2008 to 2015 by a network of 30 broadband seismographs. The single backscattering model was applied to estimate the quality factor of coda waves (Qc) across three lapse time windows (LTWs) at varying frequencies. Our results reveal that Qc increases with both frequency and LTW, suggesting a depth-dependent nature of seismic attenuation in the region. The average attenuation relationships for Qc, Qα and Qβ across the Northwest Himalaya are determined as follows for LTWs of 20, 30, and 40 s, respectively: Qc = (74 ± 14)f(1.27±0.06), Qc = (103 ± 26)f(1.16±0.08), and Qc = (140 ± 41)f(1.10±0.09). Our findings reveal significant variability in Qc, Qα and Qβ across the Tethys (TH), High (HH), Lesser (LH), and Shiwalik (SH) Himalaya regions, as well as the adjacent Indo-Gangetic Plains (IGP), with this variability strongly linked to structural heterogeneity and seismogenic processes in each region. We further establish attenuation relations for distinct tectonic units, observing the following hierarchy: [Qα,β,c−1(HH) < Qα,β,c−1(SH) < Qα,β,c−1(IGP) < Qα,β,c−1(LH) < Qα,β,c−1(TH)]. The Tethys Himalaya exhibits the high attenuation, likely due to its sedimentary structure, while the Higher Himalaya shows the low attenuation. These insights into attenuation characteristics across geotectonic segments in the Northwest Himalaya contribute to a more comprehensive seismic hazard assessment for the region. [Display omitted]
In this study, we analyze the seismic attenuation characteristics of the Northwest Himalaya and adjacent regions using a dataset of 2,716 earthquakes (2.5 ≤ Mw ≤ 5.0) recorded from 2008 to 2015 by a network of 30 broadband seismographs. The single backscattering model was applied to estimate the quality factor of coda waves (Qc) across three lapse time windows (LTWs) at varying frequencies. Our results reveal that Qc increases with both frequency and LTW, suggesting a depth-dependent nature of seismic attenuation in the region. The average attenuation relationships for Qc, Qα and Qβ across the Northwest Himalaya are determined as follows for LTWs of 20, 30, and 40 s, respectively: Qc = (74 ± 14)f (1.27±0.06), Qc = (103 ± 26)f (1.16±0.08), and Qc = (140 ± 41)f (1.10±0.09). Our findings reveal significant variability in Qc, Qα and Qβ across the Tethys (TH), High (HH), Lesser (LH), and Shiwalik (SH) Himalaya regions, as well as the adjacent Indo-Gangetic Plains (IGP), with this variability strongly linked to structural heterogeneity and seismogenic processes in each region. We further establish attenuation relations for distinct tectonic units, observing the following hierarchy: [Qα,β,c−1(HH) < Qα,β,c−1(SH) < Qα,β,c−1(IGP) < Qα,β,c−1(LH) < Qα,β,c−1(TH)]. The Tethys Himalaya exhibits the high attenuation, likely due to its sedimentary structure, while the Higher Himalaya shows the low attenuation. These insights into attenuation characteristics across geotectonic segments in the Northwest Himalaya contribute to a more comprehensive seismic hazard assessment for the region.
ArticleNumber 100378
Author Vandana
Kumar, Naresh
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Issue 2
Keywords S-wave
Seismic attenuation
Seismic hazard
P-wave
Coda wave
NW Himalaya
Language English
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Snippet •Seismic attenuation in the NW Himalaya using 2716 earthquakes between 2008 and 2015.•A depth-dependent increase in qc with frequency and lapse time.•The...
In this study, we analyze the seismic attenuation characteristics of the Northwest Himalaya and adjacent regions using a dataset of 2,716 earthquakes (2.5 ≤ Mw...
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SubjectTerms Coda wave
NW Himalaya
P-wave
S-wave
Seismic attenuation
Seismic hazard
Title Assimilation of seismic attenuation model of NW Himalaya and its surrounding region
URI https://dx.doi.org/10.1016/j.geogeo.2025.100378
https://doaj.org/article/770a4f02fe5f4e569bea43e092fd0deb
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