{ "tag": 12684, "title": "Photographs of vibracores collected during a Monterey Bay Aquarium Research Institute cruise in November 2019 offshore of south-central California (USGS FAN 2019-667-FA)", "pubdate": "20211016", "sername": null, "series_name": null, "issue": "DOI:10.5066\/P9E2OP35", "publish": null, "publisher_name": null, "onlink": "https:\/\/cmgds.marine.usgs.gov\/catalog\/pcmsc\/DataReleases\/CMGDS_DR_tool\/DR_P9E2OP35\/2019-667-FA_Nov2019vibracore_metadata.faq.html", "format": null, "email": null, "descript": "This dataset includes photographs of 49 vibracores that were collected by the Monterey Bay Aquarium Research Institute (MBARI) in November 2019 aboard the R\/V Western Flyer using the remotely operated vehicle (ROV) Doc Ricketts. The collection of these cores was funded entirely by MBARI, and the cores have been donated to the U.S. Geological Survey (USGS). The cores were collected in collaboration with the USGS and the Bureau of Ocean Energy Management (BOEM) and are located in the same study area as the collaborative California Deepwater Investigations and Groundtruthing (Cal DIG I) project. The purpose of the overall Cal DIG I study is to assess shallow geohazards, benthic habitats, and thereby the potential for alternative energy infrastructure (namely floating wind turbines) offshore south-central California due to the study area's proximity to power grid infrastructure associated with the Morro Bay power plant. These data provide information about the geology of the seafloor and shallow subsurface offshore of the south-central California coast.", "lang": null, "journal": null, "pwid": null, "originator": [ { "name": "Kennedy, Daniel J.", "role": "Author" }, { "name": "Walton, Maureen A. L.", "role": "Author" }, { "name": "Cochrane, Guy R.", "role": "Author" }, { "name": "Paull, Charles K.", "role": "Author" }, { "name": "Gwiazda, Roberto", "role": "Author" }, { "name": "Lundsten, Eve M.", "role": "Author" }, { "name": "Kuhnz, Linda A.", "role": "Author" }, { "name": "Lorenson, Thomas D.", "role": "Author" }, { "name": "McGann, Mary L.", "role": "Author" }, { "name": "Nieminski, Nora M.", "role": "Author" }, { "name": "Addison, Jason A.", "role": "Author" } ], "index_term": [ { "thcode": 2, "code": "1799", "name": "coastal processes", "scope": "Processes unique to coastal areas including longshore transport, beach erosion, storm surge, shoreline change, delta formation, barrier island migration, beach stabilization by vegetation" }, { "thcode": 2, "code": "212", "name": "core analysis", "scope": "Study of the composition and layers of cylindrical samples of rocks, trees, ice, and other materials extracted by drilling into a mass. Intended for broad use for the analysis of all types of core samples. The combination of this term with other terms will convey the context of the activity." }, { "thcode": 2, "code": "531", "name": "hazards", "scope": "Potential dangers from both natural processes (e.g., earthquakes, floods, and climate change) and human impacts on the environment." }, { "thcode": 15, "code": "008", "name": "geoscientificInformation", "scope": "Information pertaining to earth sciences, for example geophysical features and processes, geology, minerals, sciences dealing with the composition, structure and origin of the earth's rocks, risks of earthquakes, volcanic activity, landslides, gravity information, soils, permafrost, hydrogeology, groundwater, erosion" }, { "thcode": 23, "code": "7", "name": "Nonliving Resources", "scope": "Data are about chemical, physical, or geological features that are of use or importance to humans or ecologies." }, { "thcode": 23, "code": "20", "name": "Physical\/Chemical Features", "scope": "Geological, chemical, or hydrodynamic features that are ecologically important or influence patterns of human uses of the ocean. Examples include seamounts, persistent upwelling zones, areas of low dissolved oxygen, and areas of reduced pH. Distributions are recorded observations of parameters and features, often as a function of time as well as place, also including maps and three-dimensional predictions of distributions based on combinations of observations and theory. Distributions of physical and chemical features (for example, physical habitat, substrate, or bathymetry) are often used as data to support habitat-biota models. Assessments provide information about the value, impact, drivers, connections, or functions of a feature in its present distributions, or they evaluate the effects of physical\/chemical features on ecology or suitability for use. Assessments can include climate change models that project environmental effects of climate change and acidification. Larger assessments that combine physical\/chemical features with other Resources and Uses categories can appropriately be included here and also in the other related Resources or Uses categories. Predictions are the results of models or projections of future distributions, values, or impacts, which include anticipated changes produced by natural and human processes, and they are also the results of scenario-testing models for comparing outcomes of different management actions." }, { "thcode": 23, "code": "21", "name": "Physical Habitats and Geomorphology", "scope": "Includes measures of the geologic and structural characteristics of the coast or sea floor, such as the features defined in the Geoform Component of CMECS. Distributions are detailed topographic and bathymetric maps, geolocated photographs, or sea-floor descriptions; Distributions includes maps that interpret observations to categorize areas on the basis of geoform types such as those in CMECS. Assessment types include evaluations of ecological or human use value and can include models that project environmental or economic effects of erosion, climate change, dredging, and other stressors. Predictions are the results of models or projections of future distributions, values, or ecological impacts of physical habitats, including predicted changes due to natural and human forces; they are also from scenario-based models of resource losses, gains, or impacts on ecological or economic values under different management strategies (for example, mining, removal, relocation, or the building of structures)." }, { "thcode": 23, "code": "23", "name": "Substrate", "scope": "Represents the character and composition of the surface and near surface of the sea floor in subtidal or intertidal areas, as defined in the Substrate Component of CMECS or in similar classification systems. Distributions are records of substrate characteristics based on visual or photographic inspection or on analysis of samples and cores, and they also include interpretive maps classifying areas on the basis of combinations of observations, hydrodynamic models, or geological models. Assessments include evaluations of present ecological or economic values of substrate distributions, drivers of substrate change, and functions of substrates. Predictions are the results of models or projections of future substrate distributions, values, or ecological impacts, including predicted substrate changes due to natural and human forces including erosion, accretion, sea-level change, extraction, trawling, or other factors; and they are the results of scenario-based models of substrate changes on ecological or economic values under different management strategies or other human alterations." }, { "thcode": 61, "code": "220", "name": "sediment", "scope": "unconsolidated weathering products that have been eroded, transported, and deposited in another location." }, { "thcode": 61, "code": "350", "name": "submarine landslides", "scope": "underwater slope failures, often triggered by rapid accumulation of sediments (\"overpressure\") or seismic shaking." } ], "place_term": [], "image": [], "fan": [ "2019-667-FA" ] }