Scenarios_Grid

The U.S. Geological Survey has developed a method for estimating the mobility and potential alongshore transport of heavier-than-water sand and oil agglomerates (tarballs or surface residual balls, SRBs). During the Deepwater Horizon spill, some oil that reached the surf zone of the northern Gulf of Mexico mixed with suspended sediment and sank to form sub-tidal mats. If not removed, these mats can break apart to form SRBs and subsequently re-oil the beach. A method was developed for estimating SRB mobilization and alongshore movement. A representative suite of wave conditions was identified from buoy data for April, 2010, until August, 2012, and used to drive a numerical model of the spatially-variant alongshore currents. Potential mobilization of SRBs was estimated by comparing combined wave- and current-induced shear stress from the model to critical stress values for several sized SRBs. Potential alongshore flux of SRBs was also estimated to identify regions more or less likely to have SRBs deposited under each scenario. This methodology was developed to explain SRB movement and redistribution in the alongshore, interpret observed re-oiling events, and thus inform re-oiling mitigation efforts.

Data and Resources

Field Value
accessLevel public
bureauCode {010:12}
catalog_@context https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
catalog_conformsTo https://project-open-data.cio.gov/v1.1/schema
catalog_describedBy https://project-open-data.cio.gov/v1.1/schema/catalog.json
identifier USGS:a58eeb0f-4152-4f8f-9228-a511dde63382
metadata_type geospatial
modified 20201013
old-spatial -88.724419, 29.395074, -85.410772, 30.696090
publisher U.S. Geological Survey
publisher_hierarchy Department of the Interior > U.S. Geological Survey
resource-type Dataset
source_datajson_identifier true
source_hash e032fa57a7431368dde701b9300ca6c152ee63ed
source_schema_version 1.1
spatial {"type": "Polygon", "coordinates": [[[-88.724419, 29.395074], [-88.724419, 30.696090], [ -85.410772, 30.696090], [ -85.410772, 29.395074], [-88.724419, 29.395074]]]}
theme {geospatial}
Groups
  • AmeriGEOSS
  • National Provider
  • North America
Tags
  • alabama
  • alongshore-currents
  • amerigeo
  • amerigeoss
  • atlantic-ocean
  • choctawhatchee-bay
  • ckan
  • cmgp
  • coastal-and-marine-geology-program
  • coastal-processes
  • contaminant-transport
  • current
  • delft3d
  • environment
  • florida
  • fort-pickens
  • geo
  • geoscientificinformation
  • geoss
  • gulf-of-mexico
  • gulf-shores
  • industrial-pollution
  • little-lagoon
  • mathematical-modeling
  • mobile-bay
  • national
  • north-america
  • numerical-modeling
  • ocean-processes
  • oceans
  • oceans-and-coastal
  • oceans-and-estuaries
  • panama-city
  • pensacola-bay
  • petroleum
  • petroleum-spills
  • physical-chemical-features
  • pollution
  • predictions
  • santa-rosa
  • sediment-mobility
  • spcmsc
  • srbs
  • st-petersburg-coastal-and-marine-science-center
  • surf-zone
  • surface-residual-balls
  • tarballs
  • u-s-geological-survey
  • united-states
  • usgs
  • usgs-a58eeb0f-4152-4f8f-9228-a511dde63382
  • wave
  • wave-driven-currents
  • whcmsc
  • woods-hole-coastal-and-marine-science-center
isopen False
license_id notspecified
license_title License not specified
maintainer P. Soupy Dalyander
maintainer_email sdalyander@usgs.gov
metadata_created 2025-11-20T08:36:22.666613
metadata_modified 2025-11-20T08:36:22.666617
notes The U.S. Geological Survey has developed a method for estimating the mobility and potential alongshore transport of heavier-than-water sand and oil agglomerates (tarballs or surface residual balls, SRBs). During the Deepwater Horizon spill, some oil that reached the surf zone of the northern Gulf of Mexico mixed with suspended sediment and sank to form sub-tidal mats. If not removed, these mats can break apart to form SRBs and subsequently re-oil the beach. A method was developed for estimating SRB mobilization and alongshore movement. A representative suite of wave conditions was identified from buoy data for April, 2010, until August, 2012, and used to drive a numerical model of the spatially-variant alongshore currents. Potential mobilization of SRBs was estimated by comparing combined wave- and current-induced shear stress from the model to critical stress values for several sized SRBs. Potential alongshore flux of SRBs was also estimated to identify regions more or less likely to have SRBs deposited under each scenario. This methodology was developed to explain SRB movement and redistribution in the alongshore, interpret observed re-oiling events, and thus inform re-oiling mitigation efforts.
num_resources 2
num_tags 55
title Scenarios_Grid