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Investigating Shipping Pollution Violations

This module explores surveillance systems to detect shipping pollution incidents. Topics include reporting procedures, aerial surveillance, vessel tracking, and satellite monitoring. Learn to identify and report illegal discharges effectively.

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Investigating Shipping Pollution Violations

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  1. Investigating Shipping Pollution Violations Pacific Module 10: Detection of Illegal Discharges

  2. Aim • To provide information on surveillance systems in detecting shipping pollution incidents

  3. Module Overview • General • Reporting Pollution Procedures • Shore-based Surveillance • Specialised programs • Vessel Surveillance • Aerial Surveillance • Satellite Surveillance • Vessel Tracking Systems

  4. Pollution Reporting Procedures • Most Countries have a system for receiving pollution reports • Reports of pollution incidents received by an Authority • Reports from the polluting ship (MARPOL) • Other vessels (sight pollution at sea) • Aerial surveillance or civil aviation • General public • Whistleblower allegations • Satellite remote sensing • Maritime casualty (grounding, collision etc) • Port State Control inspections • Referrals from port or coastal States

  5. Shore-based Surveillance • Some countries have regular beach surveillance programs • Can detect “mystery spills” that are out at sea or have come ashore

  6. Specialised Surveillance Programs • Dedicated surveillance programs both for pollution and other issues (customs, security, illegal drug activity, illegal immigration illegal fishing, pollution etc) • Maritime areas are targeted for surveillance (electronic or visual) utilising • Vessels • Aircraft

  7. Vessel Surveillance • Countries may use government authorised vessels to conduct routine surveillance over the area of jurisdiction • This presence is a deterrent value • Obtain pollution samples from the sea

  8. Vessel Surveillance • Overall effectiveness of vessel surveillance for pollution detection is generally constrained by various factors: • Restricted by angle of observation, operational range, response time and stealth capability

  9. Aerial Surveillance • Aerial operations provide extremely effective platforms for detecting oil discharges • Highly manoeuvrable • Extensive range • Fast response time • High stealth factor • Pollution detection • Visual observations • Specialised aircraft sophisticated instrumentation capability Side Looking Airborne Radar), IR/UV Line Scanner

  10. Oil Visibility at Sea • Legally discharge oily mixtures less than 15 parts of oil to one million parts of water (ppm) • Internationally accepted that an oily mixture with a concentration of 15 ppm cannot be observed visually or with remote sensing equipment • First traces that can be visually observed 50ppm • IMO MEPC Resolution 61(34)

  11. Visibility of oil at sea

  12. Aerial surveillance

  13. Aerial Visual Observations • Experienced and trained observers • Provide information about the oil slick • Location and Size • Appearance • Coverage • Take photographic or video imagery • Use of international/national guidelines for observations

  14. Aerial Imagery Parameters • Photographs and video imagery should be taken: • at a recorded altitude • sun over shoulder (not into the sun) • positioned above the slick • Optimum incidence angle is usually ~30° • Comprehensive notes are essential • using common terminology and recognized descriptions

  15. Aerial observation of oil • Appearance of oil described in terms of texture, colour, appearance • Windrows • Pancakes • Streamers • Single mass or patches • Rainbow or silver sheen • Black or brown (or other colour) • Hydrocarbon appearance

  16. Bonn Agreement Oil Appearance Code

  17. Aerial Imagery as Evidence ● Observer needs to provide a Witness Statement and attach all relevant imagery • Images should to be analysed by an independent expert • Could be the observer or an independent person

  18. Satellite Surveillance • Satellite based sensors are a reliable tool to provide surveillance over vast areas of ocean or within harbour confines • Either dedicated surveillance program or chance images • Allows for additional monitoring during daylight, hours of darkness, time of reduced visibility during unfavourable weather conditions • National Government providers or Commercial service providers

  19. Satellite Surveillance

  20. Commercial Satellite Providers • Can provide programmed remote sensing by tasking of areas of interest at specific time • Indentify relevant commercial providers • Provide request to provider • Purpose of the imagery (target detection , pollution etc) • Area of interest (Long/lat) • Time of interest (UTC) • Expected meteorological conditions

  21. Satellite imagery as evidence • A trained analyst that interprets satellite imagery should make a Witness Statement to explain how satellites work and what information has been extracted to provide evidence for the particular pollution incident

  22. Other potential detections • Whistleblower information • Anonymous • Need evidence • US rewards • Port State Control Inspections • Discovery of inoperable equipment, bypass equipment, false records etc

  23. Vessel Tracking Systems • Your country’s maritime or transport agency should have access to vessel tracking systems in your maritime area of jurisdiction • Vessel tracking systems can assist in identifying the vessels that were in the vicinity of the oil pollution • Identifying vessels for boarding and investigation and/or sampling

  24. Automated Identification Systems • AIS acts like VHF transponder capable of processing ≥ 4,500 reports per minute • Identifies ships by unique Maritime Mobile Service Identity (MMSI) number • Range is limited to ~ 20 nautical miles • Repeater stations can be deployed in order to increase effective range of AIS • AIS is very effective tool for aerial marine surveillance • Mandatory for most ships since 2004

  25. Long-Range Identification & Tracking • IMO Resolution MSC.202(81) established LRIT as an international system in 2006 • Applies to all passenger ships and cargo ships of 300 gross tonnage and greater • Applicable ships must automatically report their position at least 4 times daily to their Flag State administration • Satellite-based system solves problems with AIS range limitations

  26. Integrated Surveillance Techniques Graphic of integrated AIS/ EO imagery

  27. Vessel Tracking Evidence • An expert in vessel tracking system needs to provide a Witness Statement to explain how these systems work and identify the information that has been extracted for use as evidence for the particular pollution incident • Provide explanation of what the VTS information is showing about the particular vessel

  28. Questions?

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