Holocene Relative Sea Level Changes along the Seattle Fault at Restoration Point, Washington

Sherrod, Brian L.; Bucknam, Robert C.; Leopold, Estella B.

doi:10.1006/qres.2000.2180

Cited by 64 publications

(57 citation statements)

References 13 publications

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“…Coastal bluff formation in the area has been driven by sea-level rise (Downing, 1983;Booth, 1987;Terich, 1987;Shipman, 2004;Schulz, 2004Schulz, , 2005Schulz, , 2007. Sea level in the Seattle area rose rapidly following retreat of glacial ice; about 6-10 m of rise has occurred during the past 5000 years (Booth, 1987, Figure 7;Sherrod et al, 2000). Although sea level rise continues, this rise no longer results in erosion of most Seattle bluff toes due to construction of shoreline protection, but the effects of bluff-toe erosion are still apparent in the distributions of colluvium and landslides, including very recent landslides (Schulz, 2005(Schulz, , 2007.…”

Section: Conceptual Model Of the Spatial Distribution Of Colluviummentioning

confidence: 99%

Modeling the spatial distribution of landslide‐prone colluvium and shallow groundwater on hillslopes of Seattle, WA

Schulz

Lidke

Godt

2007

Earth Surf Processes Landf

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Landslides in partially saturated colluvium on Seattle, WA, hillslopes have resulted in property damage and human casualties. We developed statistical models of colluvium and shallow-groundwater distributions to aid landslide hazard assessments. The models were developed using a geographic information system, digital geologic maps, digital topography, subsurface exploration results, the groundwater flow modeling software VS2DI and regression analyses. Input to the colluvium model includes slope, distance to a hillslope-crest escarpment, and escarpment slope and height. We developed different statistical relations for thickness of colluvium on four landforms. Groundwater model input includes colluvium basal slope and distance from the Fraser aquifer. This distance was used to estimate hydraulic conductivity based on the assumption that addition of finer-grained material from downsection would result in lower conductivity. Colluvial groundwater is perched so we estimated its saturated thickness. We used VS2DI to establish relations between saturated thickness and the hydraulic conductivity and basal slope of the colluvium. We developed different statistical relations for three groundwater flow regimes. All model results were validated using observational data that were excluded from calibration. Eighty percent of colluvium thickness predictions were within 25% of observed values and 88% of saturated thickness predictions were within 20% of observed values. The models are based on conditions common to many areas, so our method can provide accurate results for similar regions; relations in our statistical models require calibration for new regions. Our results suggest that Seattle landslides occur in native deposits and colluvium, ultimately in response to surface-water erosion of hillslope toes. Regional groundwater conditions do not appear to strongly affect the general distribution of Seattle landslides; historical landslides were equally dispersed within and outside of the area potentially affected by regional groundwater conditions.

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Section: Conceptual Model Of the Spatial Distribution Of Colluviummentioning

confidence: 99%

Modeling the spatial distribution of landslide‐prone colluvium and shallow groundwater on hillslopes of Seattle, WA

Schulz

Lidke

Godt

2007

Earth Surf Processes Landf

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“…microfossil species abundances against elevation), improved computing power and more widely available software (Birks, 1995;. These developments have led to numerous publications from the late 1990s of both diatom-and foraminifera-based transfer function models that use the relationship between the modern distribution of microfossils (Figure 2) to provide quantitative estimates, with error terms, of RSL based on fossil assemblages in coastal sediments ( Figure 1F and 1G) (Barlow et al, 2012;Edwards and Horton, 2000;Edwards et al, 2004a;Gehrels, 1999;Gehrels, 2000;Gehrels et al, 2012;Gehrels et al, 2006;Horton et al, 1999a;Horton et al, 2000;Kemp et al, 2009a;Long et al, 2003;Long et al, 2012;Long et al, 2010;Sawai et al, 2004a;Sawai et al, 2004b;Sherrod et al, 2000;Woodroffe and Long, 2009;Woodroffe and Long, 2010;Zong and Horton, 1999). These records have sometimes been termed 'high resolution', though high resolution is a relative term (Edwards, 2007), and rarely defined.…”

mentioning

confidence: 99%

Salt marshes as late Holocene tide gauges

Barlow

Shennan

Long

et al. 2013

Global and Planetary Change

106

101

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. (2013) 'Salt marshes as late Holocene tide gauges. ', Global and planetary change.,[106][107][108][109][110] Further information on publisher's website:http://dx.doi.org/10.1016/j.gloplacha.2013.03.003Publisher's copyright statement: NOTICE: this is the author's version of a work that was accepted for publication in Global and planetary change. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reected in this document. Changes may have been made to this work since it was submitted for publication. A denitive version was subsequently published in Global and planetary change, 106, 2013Global and planetary change, 106, , 10.1016Global and planetary change, 106, /j.gloplacha.2013 Additional information:The north west Scotland modern diatom dataset presented in the paper is available for download from: http://www.dur.ac.uk/geography/qec/researchgroups/slru/sea l evel d ata/ Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details. Keywords:Relative sea-level change; salt marsh; transfer function; diatoms; foraminifera; reconstruction; trends; Holocene; errors 2 AbstractUnderstanding late Holocene to present relative sea-level changes at centennial or sub-centennial scales requires geological records that dovetail with the instrumental era. Salt marsh sediments are one of the most reliable geological tide gauges.In this paper we review the methodological and technical advances that promoted research on 'high resolution' late Holocene sea-level change. We work through an example to demonstrate different pathways to quantitative reconstructions of relative sea level based on salt marsh sediments. We demonstrate that any reconstruction is in part a result of the environment from which the record is taken, the modern dataset used to calibrate the fossil changes, statistical assumptions behind calibrating microfossil assemblages and choices made by the researchers. With the error term of typical transfer function models ~10-15% of the tidal range, micro-tidal environments should produce the most precise sea-level reconstructions. Sampled elevation range of the modern dataset also has a strong influence on model predictive ability. Model-specific errors may under represent total uncertainty which comes from field practices, sedimentary environment, palaeo-tidal changes and sediment compaction as well as statistical uncertainties. Geological tide gauges require a detailed chronology but we must be certain that apparent relative s...

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“…The most dramatic of these is a 5-to 7-m vertical displacement of the marine platform in central Puget Sound that has been dated to around 900 to 930 AD (Bucknam et al 1992, Atwater 1999. Other displacements on this fault and on Whidbey Island within the past 3,500 years were between 1 m and 2 m (Sherrod et al 2000, Kelsey et al 2004. There are ongoing investigations into vertical displacements in other locations.…”

Section: Sea-level History and Neo-tectonicsmentioning

confidence: 88%

“…In contrast, relative sea level in south Puget Sound has risen more or less monotonically from about 40 m below present levels (Thorson 1980). By about 5,000 cal yr BP, sea level was within 2 m to 3 m of present and has been rising at a rate of 2 mm yr -1 to 3 mm yr -1 since (Sherrod et al 2000, Kelsey et al 2004. The modern marine platform is no more than 5,000 years old throughout the Sound, representing an entirely transgressive sea-level history in the south, while in the north the current platform was previously (if briefly) under wave action 10, 000 years ago.…”

Section: Sea-level History and Neo-tectonicsmentioning

confidence: 99%

Measurements and Modeling of Gravel Transport under Wind Waves, Vessel-Generated Waves, and Tidal Currents

Osborne

MacDonald²,

Curtiss

2011

Journal of Coastal Research

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Holocene Relative Sea Level Changes along the Seattle Fault at Restoration Point, Washington

Cited by 64 publications

References 13 publications

Modeling the spatial distribution of landslide‐prone colluvium and shallow groundwater on hillslopes of Seattle, WA

Modeling the spatial distribution of landslide‐prone colluvium and shallow groundwater on hillslopes of Seattle, WA

Salt marshes as late Holocene tide gauges

Measurements and Modeling of Gravel Transport under Wind Waves, Vessel-Generated Waves, and Tidal Currents

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