Oil spill

"The accidental release of oil, or other petroleum products usually into freshwater or marine ecosystems, and usually in large quantities. It can be controlled by chemical dispersion, combustion, mechanical containment, and absorption." (EEA, 2022)

Sources

European Environmental Agency (EEA). "Water Glossary". Water and Marine Environment. (2022). Link: https://www.eea.europa.eu/themes/water/glossary

Related Content

Article

Utilizando tecnologías espaciales para monitorear la contaminación marina por petróleo

Oil spills are a critical form of environmental pollution that have far-reaching negative impacts. They severely degrade marine ecosystems, introducing toxic chemicals into the oceans and harming sea life. They also have significant financial impacts through the diminishment of ecotourism as well as the killing of commercially viable species. Despite these negative impacts, oil spills are notoriously difficult to track and monitor given the general lack of surveillance over the vastness of the Earth’s oceans. Space-based technologies are evolving as a tool to aid in the detection of oil spills worldwide. Two primary technologies have been optimized for oil spill monitoring: optical satellite imagery and synthetic aperture radar (SAR). Optical satellite imagery functions somewhat like taking a photograph of the Earth’s surface and requires clear skies and daylight to produce imagery. SAR imagery, on the other hand, relies on microwaves to produce images, and therefore can function regardless of weather, as well as at night. The combination of these two technologies has allowed scientists an increased ability to monitor where and when oil pollution is happening, providing an eye-in-the-sky to survey marine activities. While these space-based technologies are aiding in the detection of a variety of oil spill incidents, they are particularly helpful to monitor the illegal dumping of oil and effluent from shipping vessels as ships are no longer able to dump oily bilgewater into the ocean under the veil of darkness. Unfortunately, the enforcement of environmental and marine law remains an issue and ships are rarely prosecuted. It will be important for space-based technologies to continue to evolve and provide evidence of marine pollution in the effort to provide protection for Earth’s marine ecosystems.

Using space-based technologies to monitor marine oil pollution

Oil spills are a critical form of environmental pollution that have far-reaching negative impacts. They severely degrade marine ecosystems, introducing toxic chemicals into the oceans and harming sea life. They also have significant financial impacts through the diminishment of ecotourism as well as the killing of commercially viable species. Despite these negative impacts, oil spills are notoriously difficult to track and monitor given the general lack of surveillance over the vastness of the Earth’s oceans. Space-based technologies are evolving as a tool to aid in the detection of oil spills worldwide. Two primary technologies have been optimized for oil spill monitoring: optical satellite imagery and synthetic aperture radar (SAR). Optical satellite imagery functions somewhat like taking a photograph of the Earth’s surface and requires clear skies and daylight to produce imagery. SAR imagery, on the other hand, relies on microwaves to produce images, and therefore can function regardless of weather, as well as at night. The combination of these two technologies has allowed scientists an increased ability to monitor where and when oil pollution is happening, providing an eye-in-the-sky to survey marine activities. While these space-based technologies are aiding in the detection of a variety of oil spill incidents, they are particularly helpful to monitor the illegal dumping of oil and effluent from shipping vessels as ships are no longer able to dump oily bilgewater into the ocean under the veil of darkness. Unfortunately, the enforcement of environmental and marine law remains an issue and ships are rarely prosecuted. It will be important for space-based technologies to continue to evolve and provide evidence of marine pollution in the effort to provide protection for Earth’s marine ecosystems.

Interview with Shaima Almeer, Senior Space Data Analyst at Bahrain National Space Science Agency

Shaima Almeer is a young Bahraini lady that works as a senior space data analyst at the National Space Science Agency. At NSSA she is responsible for acquiring data from satellite images and analyzing them into meaningful information aiming to serve more than 21 governmental entities. Shaima is also committed to publishing scientific research papers, aiming to support and spread the knowledge to others. In addition, she has recently graduated from a fellowship program at Bahrain’s Prime Minister’s Office. Shaima was selected among more than 1000 individuals to spend a year working as full-time research fellow, benefiting from advanced training in writing skills, research methods and policy analysis. The fellowship forms a core pillar of HRH the CP and PM initiative to improve national skills and support the Kingdom’s growing cadre of young government professionals. Part of the fellowship program is to work as a supervisor at the COVID-19 War Room. Shaima has obtained her bachelor’s degree in the field of Information and Communication Technology from Bahrain Polytechnic and is currently pursuing her Msc. degree in Management Information System from the University College of Bahrain. Prior to obtaining her bachelor’s degree, Shaima was titled as the first robotics programmer in the Kingdom of Bahrain and also won the title “Pioneering Women in Technology”. She has recently also won the “Women Innovator of the Year 2023 Award” in New Dehli.

Interview with Shaima Almeer, Senior Space Data Analyst at Bahrain National Space Science Agency

Shaima Almeer is a young Bahraini lady that works as a senior space data analyst at the National Space Science Agency. At NSSA she is responsible for acquiring data from satellite images and analyzing them into meaningful information aiming to serve more than 21 governmental entities. Shaima is also committed to publishing scientific research papers, aiming to support and spread the knowledge to others. In addition, she has recently graduated from a fellowship program at Bahrain’s Prime Minister’s Office. Shaima was selected among more than 1000 individuals to spend a year working as full-time research fellow, benefiting from advanced training in writing skills, research methods and policy analysis. The fellowship forms a core pillar of HRH the CP and PM initiative to improve national skills and support the Kingdom’s growing cadre of young government professionals. Part of the fellowship program is to work as a supervisor at the COVID-19 War Room. Shaima has obtained her bachelor’s degree in the field of Information and Communication Technology from Bahrain Polytechnic and is currently pursuing her Msc. degree in Management Information System from the University College of Bahrain. Prior to obtaining her bachelor’s degree, Shaima was titled as the first robotics programmer in the Kingdom of Bahrain and also won the title “Pioneering Women in Technology”. She has recently also won the “Women Innovator of the Year 2023 Award” in New Dehli.

Project / Mission / Initiative / Community Portal

Oil Spill Detection System in the Arabian Gulf Region: An Azure Machine-Learning Approach

Locating oil spills is a crucial portion of an effective marine contamination administration. In this project, we address the issue of oil spillage location exposure within the Arabian Gulf region, by leveraging a Machine-Learning (ML) workflow on a cloud-based computing platform: Microsoft Azure Machine-Learning Service (Custom Vision). Our workflow comprises a virtual machine, a database, and four modules (an Information Collection Module, a Discovery Show, an Application Module, and a Choice Module).

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Photo of Shaima Almeer

Shaima Almeer

Senior Space Data Analyst National Space Science Agency

Shaima Almeer is a young Bahraini lady that works as a senior space data analyst at the National Space Science Agency. At NSSA she is responsible for acquiring data from satellite images and analyzing them into meaningful information aiming to serve more than 21 governmental entities. Shaima is also committed to publishing scientific research papers, aiming to support and spread the knowledge to others.