Measuring Floating Thick Seep Oil from the Coal Oil Point Marine Hydrocarbon Seep Field by Quantitative Thermal Oil Slick Remote Sensing

Abstract: Remote sensing techniques offer significant potential for generating accurate thick oil slick maps critical for marine oil spill response. However, field validation and methodology assessment challenges remain. Here, we report on an approach to leveraging oil emissions from the Coal Oil Point (COP) natural marine hydrocarbon seepage offshore of southern California, where prolific oil seepage produces thick oil slicks stretching many kilometers. Specifically, we demonstrate and validate a remote sensing approac… Show more

“…The approach combines sea surface and airborne measurements as part of the Seep Assessment Study (SAS), described in Leifer et al. [1] . The study collected thermal infrared (TIR) and visible (VIS) spectrum imagery, as well as viewing position and orientation data of a targeted oil slick segment by the oil spill mapping science package, SeaSpires™.…”

“…Alternatively, multiple different remote sensing approaches can be combined, e.g., radar, thermal, ultraviolet, etc. [1 , 13 , 14] – different spectral regimes exhibit different lookalike signatures. Another approach considers ancillary data such as winds [15] .…”

“…Leifer et al. [1] describes the underlying theory. In brief, the oil slick absorbs a portion of the downwelling radiation.…”

“…The SAS is described in Leifer et al. [1] and investigated TIR oil slick thickness remote sensing. The SAS was applied to the perennial and continuous thick oil slicks from the Coal Oil Point seep field.…”

“…Leifer et al. [1] found that for Coal Oil Point oil, the transition from thin to thick oil based on the optical and thermal characteristics was 500–1000 µm. This definition differs from the Bonn Agreement, which is based on visible appearance.…”

An inverse planned oil release validation method for estimating oil slick thickness from thermal contrast remote sensing by in-scene calibration

“…The approach combines sea surface and airborne measurements as part of the Seep Assessment Study (SAS), described in Leifer et al. [1] . The study collected thermal infrared (TIR) and visible (VIS) spectrum imagery, as well as viewing position and orientation data of a targeted oil slick segment by the oil spill mapping science package, SeaSpires™.…”

“…Alternatively, multiple different remote sensing approaches can be combined, e.g., radar, thermal, ultraviolet, etc. [1 , 13 , 14] – different spectral regimes exhibit different lookalike signatures. Another approach considers ancillary data such as winds [15] .…”

“…Leifer et al. [1] describes the underlying theory. In brief, the oil slick absorbs a portion of the downwelling radiation.…”

“…The SAS is described in Leifer et al. [1] and investigated TIR oil slick thickness remote sensing. The SAS was applied to the perennial and continuous thick oil slicks from the Coal Oil Point seep field.…”

“…Leifer et al. [1] found that for Coal Oil Point oil, the transition from thin to thick oil based on the optical and thermal characteristics was 500–1000 µm. This definition differs from the Bonn Agreement, which is based on visible appearance.…”

An inverse planned oil release validation method for estimating oil slick thickness from thermal contrast remote sensing by in-scene calibration

Treatment of hydrocarbon marine pollution with cloud point extraction

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