The influence of multiple impedance contrasts on mHVSR site period estimates in the Canterbury Plains of New Zealand and implications for site classification
An experimental study of the fundamental period of vibration of geologic strata above multiple impedance contrasts is presented for the Canterbury Plains, a deep, complex sedimentary basin on the South Island of New Zealand. Microtremor Horizontal-to-Vertical Spectral Ratio (mHVSR) analysis was used...
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| Veröffentlicht in: | Earthquake spectra 2023-02, Vol.39 (1), p.288-309 |
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| creator | Stolte, Andrew Wotherspoon, Liam Cox, Brady Wood, Clinton M Jeong, Seokho Munro, James |
| description | An experimental study of the fundamental period of vibration of geologic strata above multiple impedance contrasts is presented for the Canterbury Plains, a deep, complex sedimentary basin on the South Island of New Zealand. Microtremor Horizontal-to-Vertical Spectral Ratio (mHVSR) analysis was used at 152 locations to investigate the fundamental period of the strata above three significant impedance contrasts in the region: the Riccarton Gravel, the Banks Peninsula volcanic (BPV) rock, and the deep graywacke basement bedrock. Up to three mHVSR peaks were observed in many of the mHVSR curves, with the long-period (2-7 s) peaks controlled by the BPV and/or the underlying bedrock. As the thickness of the BPV increases, the response of the geologic strata above the basement bedrock was masked by the shallower BPV, effectively changing the definition of what constitutes the reference condition (i.e. engineering bedrock) for site response analyses. The mHVSR peaks matched the long-period amplification peaks observed in the response spectra calculated from ground motions recorded during the Canterbury Earthquake Sequence events, underscoring the importance of the identification and consideration of deep impedance contrasts in site classification. |
| doi_str_mv | 10.1177/87552930221130762 |
| format | Article |
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Microtremor Horizontal-to-Vertical Spectral Ratio (mHVSR) analysis was used at 152 locations to investigate the fundamental period of the strata above three significant impedance contrasts in the region: the Riccarton Gravel, the Banks Peninsula volcanic (BPV) rock, and the deep graywacke basement bedrock. Up to three mHVSR peaks were observed in many of the mHVSR curves, with the long-period (2-7 s) peaks controlled by the BPV and/or the underlying bedrock. As the thickness of the BPV increases, the response of the geologic strata above the basement bedrock was masked by the shallower BPV, effectively changing the definition of what constitutes the reference condition (i.e. engineering bedrock) for site response analyses. The mHVSR peaks matched the long-period amplification peaks observed in the response spectra calculated from ground motions recorded during the Canterbury Earthquake Sequence events, underscoring the importance of the identification and consideration of deep impedance contrasts in site classification.</description><identifier>ISSN: 8755-2930</identifier><identifier>EISSN: 1944-8201</identifier><identifier>DOI: 10.1177/87552930221130762</identifier><language>eng</language><publisher>London, England: Earthquake Engineering Research Institute</publisher><subject>Australasia ; Banks Peninsula ; basement ; bedrock ; Canterbury New Zealand ; Canterbury Plains ; Christchurch New Zealand ; earthquakes ; Engineering geology ; experimental studies ; geophysical methods ; ground motion ; HVSR ; igneous rocks ; impedance ; microseisms ; New Zealand ; passive methods ; Riccarton Gravel ; rock mechanics ; seismic methods ; Seismology ; site exploration ; South Island ; strong motion ; vibration ; volcanic rocks</subject><ispartof>Earthquake spectra, 2023-02, Vol.39 (1), p.288-309</ispartof><rights>GeoRef, Copyright 2023, American Geosciences Institute. 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Microtremor Horizontal-to-Vertical Spectral Ratio (mHVSR) analysis was used at 152 locations to investigate the fundamental period of the strata above three significant impedance contrasts in the region: the Riccarton Gravel, the Banks Peninsula volcanic (BPV) rock, and the deep graywacke basement bedrock. Up to three mHVSR peaks were observed in many of the mHVSR curves, with the long-period (2-7 s) peaks controlled by the BPV and/or the underlying bedrock. As the thickness of the BPV increases, the response of the geologic strata above the basement bedrock was masked by the shallower BPV, effectively changing the definition of what constitutes the reference condition (i.e. engineering bedrock) for site response analyses. The mHVSR peaks matched the long-period amplification peaks observed in the response spectra calculated from ground motions recorded during the Canterbury Earthquake Sequence events, underscoring the importance of the identification and consideration of deep impedance contrasts in site classification.</description><subject>Australasia</subject><subject>Banks Peninsula</subject><subject>basement</subject><subject>bedrock</subject><subject>Canterbury New Zealand</subject><subject>Canterbury Plains</subject><subject>Christchurch New Zealand</subject><subject>earthquakes</subject><subject>Engineering geology</subject><subject>experimental studies</subject><subject>geophysical methods</subject><subject>ground motion</subject><subject>HVSR</subject><subject>igneous rocks</subject><subject>impedance</subject><subject>microseisms</subject><subject>New Zealand</subject><subject>passive methods</subject><subject>Riccarton Gravel</subject><subject>rock mechanics</subject><subject>seismic methods</subject><subject>Seismology</subject><subject>site exploration</subject><subject>South Island</subject><subject>strong motion</subject><subject>vibration</subject><subject>volcanic rocks</subject><issn>8755-2930</issn><issn>1944-8201</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNp9kMFKAzEURYMoWKsf4C57GU0y00mzlKJWKCpaXbgZ3mReako6KUlK6cf4r87QggvBRQi8m3N4uYRccnbNuZQ3YzkaCZUzITjPmSzFERlwVRTZWDB-TAZ9nvUPTslZjEvGeFkwNiDf8y-ktjVug61G6g1dbVyya9dNV2tsoJ9q36YAMUXqW7qafry90mgT0jUG6xuKMdkVJIydiKbON4E2Yag3YUdfHNg29t4n3NJPBAdtQ_vT6Z3VkKzvcuPDXqkdxGjNITgnJwZcxIvDPSTv93fzyTSbPT88Tm5nGRRMpQxQKsVyDQ1IrjSU41zWyjQjLYwua2M4qnrMSlbAqCxkyWtZQ90UxiDK2qh8SPjeq4OPMaCp1qH7UthVnFV9v9Wffjvmes9EWGC19JvQdiv-C1ztgQX6qG3f99YH1_yygom8YjlXguU_rFiOFA</recordid><startdate>20230201</startdate><enddate>20230201</enddate><creator>Stolte, Andrew</creator><creator>Wotherspoon, Liam</creator><creator>Cox, Brady</creator><creator>Wood, Clinton M</creator><creator>Jeong, Seokho</creator><creator>Munro, James</creator><general>Earthquake Engineering Research Institute</general><general>SAGE Publications</general><scope>AAYXX</scope><scope>CITATION</scope><orcidid>https://orcid.org/0000-0001-9266-1452</orcidid><orcidid>https://orcid.org/0000-0001-5180-2247</orcidid></search><sort><creationdate>20230201</creationdate><title>The influence of multiple impedance contrasts on mHVSR site period estimates in the Canterbury Plains of New Zealand and implications for site classification</title><author>Stolte, Andrew ; Wotherspoon, Liam ; Cox, Brady ; Wood, Clinton M ; Jeong, Seokho ; Munro, James</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a409t-ae79903cada719ca6837b9fd5c2fc6bff1e9b80604a564761b7babd4ffee7bf93</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Australasia</topic><topic>Banks Peninsula</topic><topic>basement</topic><topic>bedrock</topic><topic>Canterbury New Zealand</topic><topic>Canterbury Plains</topic><topic>Christchurch New Zealand</topic><topic>earthquakes</topic><topic>Engineering geology</topic><topic>experimental studies</topic><topic>geophysical methods</topic><topic>ground motion</topic><topic>HVSR</topic><topic>igneous rocks</topic><topic>impedance</topic><topic>microseisms</topic><topic>New Zealand</topic><topic>passive methods</topic><topic>Riccarton Gravel</topic><topic>rock mechanics</topic><topic>seismic methods</topic><topic>Seismology</topic><topic>site exploration</topic><topic>South Island</topic><topic>strong motion</topic><topic>vibration</topic><topic>volcanic rocks</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Stolte, Andrew</creatorcontrib><creatorcontrib>Wotherspoon, Liam</creatorcontrib><creatorcontrib>Cox, Brady</creatorcontrib><creatorcontrib>Wood, Clinton M</creatorcontrib><creatorcontrib>Jeong, Seokho</creatorcontrib><creatorcontrib>Munro, James</creatorcontrib><collection>CrossRef</collection><jtitle>Earthquake spectra</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Stolte, Andrew</au><au>Wotherspoon, Liam</au><au>Cox, Brady</au><au>Wood, Clinton M</au><au>Jeong, Seokho</au><au>Munro, James</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The influence of multiple impedance contrasts on mHVSR site period estimates in the Canterbury Plains of New Zealand and implications for site classification</atitle><jtitle>Earthquake spectra</jtitle><date>2023-02-01</date><risdate>2023</risdate><volume>39</volume><issue>1</issue><spage>288</spage><epage>309</epage><pages>288-309</pages><issn>8755-2930</issn><eissn>1944-8201</eissn><abstract>An experimental study of the fundamental period of vibration of geologic strata above multiple impedance contrasts is presented for the Canterbury Plains, a deep, complex sedimentary basin on the South Island of New Zealand. Microtremor Horizontal-to-Vertical Spectral Ratio (mHVSR) analysis was used at 152 locations to investigate the fundamental period of the strata above three significant impedance contrasts in the region: the Riccarton Gravel, the Banks Peninsula volcanic (BPV) rock, and the deep graywacke basement bedrock. Up to three mHVSR peaks were observed in many of the mHVSR curves, with the long-period (2-7 s) peaks controlled by the BPV and/or the underlying bedrock. As the thickness of the BPV increases, the response of the geologic strata above the basement bedrock was masked by the shallower BPV, effectively changing the definition of what constitutes the reference condition (i.e. engineering bedrock) for site response analyses. The mHVSR peaks matched the long-period amplification peaks observed in the response spectra calculated from ground motions recorded during the Canterbury Earthquake Sequence events, underscoring the importance of the identification and consideration of deep impedance contrasts in site classification.</abstract><cop>London, England</cop><pub>Earthquake Engineering Research Institute</pub><doi>10.1177/87552930221130762</doi><tpages>22</tpages><orcidid>https://orcid.org/0000-0001-9266-1452</orcidid><orcidid>https://orcid.org/0000-0001-5180-2247</orcidid></addata></record> |
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| ispartof | Earthquake spectra, 2023-02, Vol.39 (1), p.288-309 |
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| language | eng |
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| source | SAGE Complete |
| subjects | Australasia Banks Peninsula basement bedrock Canterbury New Zealand Canterbury Plains Christchurch New Zealand earthquakes Engineering geology experimental studies geophysical methods ground motion HVSR igneous rocks impedance microseisms New Zealand passive methods Riccarton Gravel rock mechanics seismic methods Seismology site exploration South Island strong motion vibration volcanic rocks |
| title | The influence of multiple impedance contrasts on mHVSR site period estimates in the Canterbury Plains of New Zealand and implications for site classification |
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