2015
DOI: 10.1016/j.enggeo.2015.08.023
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Development of magnitude-bound relations for paleoliquefaction analyses: New Zealand case study

Abstract: a b s t r a c tMagnitude-bound relations are often used to estimate paleoearthquake magnitudes from paleoliquefaction data. This study proposes New Zealand-based magnitude-bound curves that are developed using (a) liquefaction field observations and (b) a newly proposed back-calculation approach that combines the simplified liquefaction evaluation procedure with a regionally appropriate ground motion prediction equation. For (b) both deterministic and probabilistic frameworks are proposed. The magnitude bound … Show more

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Cited by 27 publications
(31 citation statements)
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“…These results suggest high probabilities (16%-93% and 31%, respectively) that sources within a 60 km radius of Lincoln as well as the much more distant (135 km) Alpine fault can produce extensive liquefaction. Maurer et al (2015) show similar results for a site in eastern Christchurch.…”
Section: Paleoliquefactionsupporting
confidence: 65%
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“…These results suggest high probabilities (16%-93% and 31%, respectively) that sources within a 60 km radius of Lincoln as well as the much more distant (135 km) Alpine fault can produce extensive liquefaction. Maurer et al (2015) show similar results for a site in eastern Christchurch.…”
Section: Paleoliquefactionsupporting
confidence: 65%
“…As a first approximation to excluding some of these seismic-source candidates, we used a PGA 7:5 threshold approach (e.g., Quigley et al, 2013;Santucci de Magistris et al, 2013) and the new magnitude-bound relations developed from historic New Zealand liquefaction data (Maurer et al, 2015). For the PGA 7:5 threshold approach, we used two different ground-motion prediction equations (GMPEs, McVerry et al, 2006;Bradley, 2013) to calculate the PGA 7:5 (magnitude weighted; Youd et al, 2001) at our site from modeled ruptures of each fault (Table 1).…”
Section: Paleoliquefactionmentioning
confidence: 99%
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