The proposed study focuses on the reported oil spill detection and assessments of oil impacts on marine ecosystems.Five selected oil spills,including those in East China Sea,Balikpapan Bay,Red Sea,Mauritius coast,and ...The proposed study focuses on the reported oil spill detection and assessments of oil impacts on marine ecosystems.Five selected oil spills,including those in East China Sea,Balikpapan Bay,Red Sea,Mauritius coast,and Colombo coast were detected using the Sentinel-1 satellite dataset.Sentinel-2/Landsat 8,and Sentinel-5Precursor(S-5P)satellite datasets were utilized to observe the impacts of oil spills on vegetation cover and air quality respectively.Synthetic aperture radar-based oil spill detection techniques are effective in monitoring oil pollution.Impacts of oil spills on vegetation are monitored via different vegetation indices.The East China Sea spill moved around 190 km from the source point.The area of vegetation cover impacted by the Balikpapan Bay oil spill was 118 km~2.Near real-time data of different toxic gases from S-5P were analyzed for Sri Lanka and the Red Sea using the Google Earth Engine.It is concluded that wind speed was between the range of 3 m/s to 9 m/s that is favorable for the oil spill detection,and it is also observed that wind direction had impacts on oil spill movement as well.Vegetation Indices provide highly reliable results for the four events but the Red Sea oil spill findings were not satisfactory due to low vegetation cover in this area.展开更多
文摘The proposed study focuses on the reported oil spill detection and assessments of oil impacts on marine ecosystems.Five selected oil spills,including those in East China Sea,Balikpapan Bay,Red Sea,Mauritius coast,and Colombo coast were detected using the Sentinel-1 satellite dataset.Sentinel-2/Landsat 8,and Sentinel-5Precursor(S-5P)satellite datasets were utilized to observe the impacts of oil spills on vegetation cover and air quality respectively.Synthetic aperture radar-based oil spill detection techniques are effective in monitoring oil pollution.Impacts of oil spills on vegetation are monitored via different vegetation indices.The East China Sea spill moved around 190 km from the source point.The area of vegetation cover impacted by the Balikpapan Bay oil spill was 118 km~2.Near real-time data of different toxic gases from S-5P were analyzed for Sri Lanka and the Red Sea using the Google Earth Engine.It is concluded that wind speed was between the range of 3 m/s to 9 m/s that is favorable for the oil spill detection,and it is also observed that wind direction had impacts on oil spill movement as well.Vegetation Indices provide highly reliable results for the four events but the Red Sea oil spill findings were not satisfactory due to low vegetation cover in this area.
