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<?xml version="1.0" encoding="UTF-8"?> <mods xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://www.loc.gov/mods/v3" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" version="3.4" xsi:schemaLocation="http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-4.xsd"> <titleInfo> <title>Geology: Offshore of Salt Point, California, 2010</title> </titleInfo> <name type="personal"> <namePart>Johnson, Samuel Y.</namePart> <role> <roleTerm type="text" authority="marcrelator">creator</roleTerm> </role> </name> <name type="personal"> <namePart>Hartwell, Stephen R.</namePart> <role> <roleTerm type="text" authority="marcrelator">creator</roleTerm> </role> </name> <name type="personal"> <namePart>Manson, Michael W.</namePart> <role> <roleTerm type="text" authority="marcrelator">creator</roleTerm> </role> </name> <name type="corporate"> <namePart>Pacific Coastal and Marine Science Center</namePart> <role> <roleTerm type="text" authority="marcrelator">creator</roleTerm> </role> </name> <name type="personal"> <namePart>Golden, Nadine E.</namePart> <role> <roleTerm type="text" authority="marcrelator">creator</roleTerm> </role> </name> <typeOfResource>cartographic</typeOfResource> <typeOfResource>software, multimedia</typeOfResource> <genre authority="lcgft" valueURI="http://id.loc.gov/authorities/genreForms/gf2011026297">Geospatial data</genre> <genre authority="rdacontent" valueURI="http://rdvocab.info/termList/RDAContentType/1001">cartographic dataset</genre> <originInfo> <publisher>Geological Survey (U.S.)</publisher> <place> <placeTerm type="text">Santa Cruz, California, US</placeTerm> </place> <dateIssued encoding="w3cdtf" keyDate="yes">2014</dateIssued> <dateValid encoding="w3cdtf" point="start">2006</dateValid> <dateValid encoding="w3cdtf" point="end">2010</dateValid> </originInfo> <language> <languageTerm authority="iso639-2b">eng</languageTerm> </language> <physicalDescription> <form>Shapefile</form> <extent>3.737</extent> <digitalOrigin>born digital</digitalOrigin> </physicalDescription> <subject> <cartographics> <scale>Scale not given.</scale> <projection>Custom projection</projection> <coordinates>(W 123°28ʹ53ʺ--W 123°16ʹ40ʺ/N 38°38ʹ23ʺ--N 38°28ʹ45ʺ)</coordinates> </cartographics> </subject> <abstract displayLabel="Abstract" lang="eng">This shapefile contains geologic features within the offshore area of Salt Point, California. The morphology and the geology of the Offshore of Salt Point map area result from the interplay between local sea-level rise, sedimentary processes, oceanography, and tectonics. The offshore part of the map area extends from the shoreline to water depths of about 90 to 100 m on the mid-continental shelf; the shelfbreak occurs about 20 km farther offshore at water depths of about 200 m. The nearshore and inner shelf (to water depths of about 50 to 60 m) typically dips seaward about 1.0 to 1.5 degrees; the mid to outer shelf dips more gently, generally less than 0.5 degrees. Sea level has risen about 125 to 130 m over about the last 21,000 years (for example, Lambeck and Chappell, 2001; Peltier and Fairbanks, 2005), leading to broadening of the continental shelf, progressive eastward migration of the shoreline and wave-cut platform, and associated transgressive erosion and deposition. Land-derived sediment was carried into this dynamic setting, then subjected to full Pacific Ocean wave energy and strong currents before deposition or offshore transport. Tectonic influences impacting shelf morphology and geology are related to local faulting, folding, uplift, and subsidence (see below). Bedrock of the Eocene and Paleocene German Rancho Formation (unit Tgr) underlies much of the inner shelf, extending to water depths of as much as 60 m. Although onshore coastal outcrops of this unit are well bedded, seafloor outcrops imaged on high-resolution bathymetry have a hackly surface texture and abundant fractures. Embayments in the outer margin of the seafloor bedrock outcrops are commonly paired with the mouths of coastal watersheds and are inferred to have formed by fluvial erosion during the last sealevel lowstand. One of the more prominent embayments occurs about one kilometer north of Salt Point at the mouth of Miller Creek (fig. 1-2). These coastal watersheds are relatively small and steep, extending to a drainage divide just 2 to 3 km east of the shoreline, and are inferred sources of coarse-grained sediments. Immediately east of this onshore topographic divide, drainage along this part of the coast is captured by the northwest-flowing South Fork of the Gualala River (fig. 1-2), which runs parallel to the coast along the trace of the San Andreas fault. Given relatively shallow water depths (0 to about 50 m) and exposure to high wave energy, modern nearshore to mid-shelf sediments are mostly sand (unit Qms) and a mix of sand, gravel, and cobbles (units Qmsc and Qmsd). The more coarse-grained sands and gravels (units Qmsc and Qmsd) are primarily recognized on the basis of bathymetry and high backscatter. Both Qmsc and Qmsd typically have abrupt landward contacts with bedrock (unit Tgr) and form irregular to lenticular exposures that are commonly elongate in the shore-normal direction. Contacts between units Qmsc and Qms are typically gradational. Unit Qmsd forms erosional lags in scoured depressions that are bounded by relatively sharp and less commonly diffuse contacts with unit Qms horizontal sand sheets. These depressions are typically a few tens of centimeters deep and range in size from a few 10's of sq m to more than one sq km. Similar unit Qmsd scour depressions are common along this stretch of the California coast (see, for example, Cacchione and others, 1984; Hallenbeck and others, 2012) where surficial offshore sandy sediment is relatively thin (thus unable to fill the depressions) due to both lack of sediment supply and to erosion and transport of sediment during large northwest winter swells. Such features have been referred to as "rippled-scour depressions" (see, for example, Cacchione and others, 1984) or "sorted bedforms" (see, for example, Goff and others, 2005; Trembanis and Hume, 2011). Although the general areas in which both unit Qmsd scour depressions and surrounding mobile sand sheets occur are not likely to change substantially, the boundaries of the individual Qmsd depressions are likely ephemeral, changing seasonally and during significant storm events. The offshore decrease in slope at mid-shelf water depths (about 60 m) approximately coincides with a transition to more fine-grained marine sediments (unit Qmsf), which extends to the outer (3-nautical-mile) limit of California's State Waters. Unit Qmsf consists primarily of mud and muddy sand and is commonly extensively bioturbated. These fine-grained sediments are inferred to have been derived from from the Russian River, which has its mouth about 15 km south of the map area. Both Drake and Cacchione (1985) and Sherwood and others (1994) have documented seasonal, mid-shelf, northwest-directed, bottom currens capable of transporting fine-grained, suspended sediment from the Russian River to the Offshore of Salt Point map area. Map unit polygons were digitized over underlying 2-meter base layers developed from multibeam bathymetry and backscatter data (see Bathymetry--Offshore Salt Point, California and Backscattter--Offshore Salt Point, California, DS 781, for more information). The bathymetry and backscatter data were collected between 2006 and 2010. A map that shows these data is published in Open-File Report 2015–1098, "California State Waters Map Series- Offshore of Salt Point, California." This layer is a part of USGS DS 781.</abstract> <abstract displayLabel="Purpose" lang="eng">In 2007, the California Ocean Protection Council initiated the California Seafloor Mapping Program (CSMP) to create a comprehensive seafloor map of high-resolution bathymetry, marine benthic habitats and geology within the 3-nautical-mile limit of California's State Waters. CSMP has divided coastal California into 110 map blocks, each to be published individually as United States Geological Survey Open-File Reports (OFRs) or Scientific Investigations Maps (SIMs) at a scale of 1:24,000. Maps display seafloor morphology and character, identify potential marine benthic habitats and illustrate both the seafloor geology and shallow (to about 100 m) subsurface geology. Data layers for bathymetry, bathymetric contours, acoustic backscatter, seafloor character, potential benthic habitat and offshore geology were created for each map block, as well as regional-scale data layers for sediment thickness, depth to transition, transgressive contours, isopachs, predicted distributions of benthic macro-invertebrates and visual observations of benthic habitat from video cruises over the entire state. This coverage can be used to to aid in assessments and mitigation of geologic hazards in the coastal region and to provide sufficient geologic information for land-use and land-management decisions both onshore and offshore. These data are intended for science researchers, students, policy makers, and the general public. This information is not intended for navigational purposes.The data can be used with geographic information systems (GIS) software to display geologic and oceanographic information.</abstract> <note displayLabel="Preferred citation" lang="eng">Hartwell, S.R., Johnson, S.Y., and Manson, M.W. (2014). Geology: Offshore of Salt Point, California, 2010. California State Waters Map Series Data Catalog: U.S. Geological Survey Data Series 781. Available at: http://purl.stanford.edu/yj261gz3240.</note> <note displayLabel="Supplemental information">Map political location: San Mateo County, California Compilation scale: 1:24,000 Base maps used are hillshades generated from IfSAR, LiDAR, and multibeam mapping both onshore and offshore (see Bathymetry--Offshore of Salt Point Map Area, California). References Cited Cacchione, D.A., Drake, D.E., Grant, W.D., and Tate, G.B., 1984, Rippled scour depressions of the inner continental shelf off central California: Journal of Sedimentary Petrology, v. 54, p. 1,280-1,291. Drake, D.E., and Cacchione, D.A., 1985, Seasonal variation in sediment transport on the Russian River shelf, California: Continental Shelf Research, v. 14, p. 495-514. Goff, J.A., Mayer, L.A., Traykovski, P., Buynevich, I., Wilkens, R., Raymond, R., Glang, G., Evans, R.L., Olson, H., and Jenkins, C., 2005, Detailed investigations of sorted bedforms or "rippled scour depressions", within the Marthaâs Vineyard Coastal Observatory, Massachusetts: Continental Shelf Research, v. 25, p. 461-484. Hallenbeck, T.R., Kvitek, R.G., and Lindholm, J., 2012, Rippled scour depressions add ecologically significant heterogeneity to soft-bottom habitats on the continental shelf: Marine Ecology Progress Series, v. 468, p. 119-133. Lambeck, K., and Chappell, J., 2001, Sea level change through the last glacial cycle: Science, v. 292, p. 679-686, doi: 10.1126/science.1059549. Manson, M.W., Huyette, C.M., Wills, C.J., Huffman, M.E., Smelser, G.G., Fuller, M.E., Domrose, C., and Gutierrez, C., 2006, Landslides in the Highway 1 corridor between Bodega Bay and Fort Ross, Sonoma County, California: California Geological Survey Special Report 196, 26 p., 2 plates, 38 maps, scale 1:12,000. Peltier, W.R., and Fairbanks, R.G., 2005, Global glacial ice volume and Last Glacial Maximum duration from an extended Barbados sea level record: Quaternary Science Reviews, v. 25, p. 3,322-3,337. Sherwood, C.R., Butman, B., Cacchione, D.A., Drake, D.E., Gross, T.F., Sternberg, R.W., Wiberg, P.L., and Williams, A.J., III, 1994, Sediment transport events on the northern California continental shelf during the 1990-1991 STRESS experiment: Continental Shelf Research, v. 14, p. 1063-1099. Trembanis, A.C., and Hume, T.M., 2011, Sorted bedforms on the inner shelf off northeastern New Zealand-Spatiotemporal relationships and potential paleo-environmental implications: Geo-Marine Letters, v. 31, p. 203-214.</note> <subject> <topic authority="lcsh" authorityURI="http://id.loc.gov/authorities/subjects.html" lang="eng">Geology</topic> </subject> <subject> <topic authority="lcsh" authorityURI="http://id.loc.gov/authorities/subjects.html" lang="eng">Geomorphology</topic> </subject> <subject> <topic authority="lcsh" authorityURI="http://id.loc.gov/authorities/subjects.html" lang="eng">Sediments (Geology)</topic> </subject> <subject> <topic authority="lcsh" authorityURI="http://id.loc.gov/authorities/subjects.html" lang="eng">Marine sediments</topic> </subject> <subject> <topic authority="lcsh" authorityURI="http://id.loc.gov/authorities/subjects.html" lang="eng">Ocean bottom</topic> </subject> <subject> <geographic lang="eng" valueURI="http://sws.geonames.org/3687919/" authority="geonames" authorityURI="http://www.geonames.org/ontology#">California</geographic> </subject> <subject> <geographic lang="eng" valueURI="http://sws.geonames.org/5397100/" authority="geonames" authorityURI="http://www.geonames.org/ontology#">Sonoma County (Calif.)</geographic> </subject> <subject> <geographic lang="eng" valueURI="http://sws.geonames.org/8411083/" authority="geonames" authorityURI="http://www.geonames.org/ontology#">Pacific Ocean</geographic> </subject> <subject> <temporal encoding="w3cdtf">2006-2010</temporal> </subject> <subject> <topic authority="ISO19115TopicCategory" authorityURI="http://www.isotc211.org/2005/resources/Codelist/gmxCodelists.xml#MD_TopicCategoryCode">Geoscientific Information</topic> </subject> <subject> <topic authority="ISO19115TopicCategory" authorityURI="http://www.isotc211.org/2005/resources/Codelist/gmxCodelists.xml#MD_TopicCategoryCode" valueURI="oceans">Oceans</topic> </subject> <location> <url>http://purl.stanford.edu/yj261gz3240</url> </location> <recordInfo> <recordContentSource>Stanford</recordContentSource> <recordIdentifier>edu.stanford.purl:yj261gz3240</recordIdentifier> <recordOrigin>This record was translated from ISO 19139 to MODS v.3 using an xsl transformation.</recordOrigin> <languageOfCataloging> <languageTerm authority="iso639-2b" type="code">eng</languageTerm> </languageOfCataloging> </recordInfo> <extension displayLabel="geo"> <rdf:RDF xmlns:gml="http://www.opengis.net/gml/3.2/" xmlns:dc="http://purl.org/dc/elements/1.1/"> <rdf:Description rdf:about="http://purl.stanford.edu/yj261gz3240"> <dc:format>application/x-esri-shapefile; format=Shapefile</dc:format> <dc:type>Dataset#Polygon</dc:type> <gml:boundedBy> <gml:Envelope gml:srsName="EPSG:4326"> <gml:lowerCorner>-123.481291 38.479861</gml:lowerCorner> <gml:upperCorner>-123.277844 38.639335</gml:upperCorner> </gml:Envelope> </gml:boundedBy> </rdf:Description> </rdf:RDF> </extension> <subject authority="EPSG" valueURI="http://opengis.net/def/crs/EPSG/0/4326" displayLabel="WGS84"> <cartographics> <scale>Scale not given.</scale> <projection>EPSG::4326</projection> <coordinates>W 123°28ʹ53ʺ--W 123°16ʹ40ʺ/N 38°38ʹ22ʺ--N 38°28ʹ47ʺ</coordinates> </cartographics> </subject> <note displayLabel="WGS84 Cartographics">This layer is presented in the WGS84 coordinate system for web display purposes. Downloadable data are provided in native coordinate system or projection.</note> <relatedItem type="host"> <titleInfo> <title>California State Waters Map Series Data Catalog</title> </titleInfo> <location> <url>https://purl.stanford.edu/ng324gh5570</url> </location> <typeOfResource collection="yes"/> </relatedItem> <accessCondition type="useAndReproduction">This item is in the public domain. There are no restrictions on use.</accessCondition> </mods>