Abstract
ABSTRACTShipping is a growing source of air pollutants and greenhouse gases, which are emitted mainly over an international territory, the seas, for which only shared responsibility by all countries is felt. The international community, in particular the International Maritime Organisation, is called to look for appropriate mitigation of these emissions. This starts with the reporting of emissions in an inventory and its mapping over the international territory to be able to then evaluate the effect of emission reduction policies on the environment. Under the European Monitoring and Evaluation Programme, Member States are required to provide gridded emissions for the different sectors but the spatial allocation of ship emissions requires a supranational setup to avoid transboundary inconsistencies. By using vessel density maps extracted from historical Long Range Identification and Tracking (LRIT) data, accurate high-resolution maps of emissions can be obtained in support of policy development, implementation and monitoring in the interrelated fields of air quality and climate.
Highlights
Under the 1979 Convention of Long-Range Transport of Air pollution (CLRTAP), extended with 8 protocols under which the latest Gothenburg Protocol, the European Commission has been playing an instrumental role in the establishment, functioning and revision of these protocols
In the case of the EDGARv4.3.1 emissions data gridding, a similar approach was used for the relative closed marine areas of the Mediterranean Sea, the Black Sea and the Baltic Sea, because the Long Range Identification and Tracking (LRIT) was only recommended for the European area
In this paper we showed how LRIT data can be used to spatially grid shipping emissions over Europe with a realistic preview of the shipping routes, especially in the European domain
Summary
Under the 1979 Convention of Long-Range Transport of Air pollution (CLRTAP), extended with 8 protocols under which the latest Gothenburg Protocol, the European Commission has been playing an instrumental role in the establishment, functioning and revision of these protocols. Wang et al (2008) combined AMVER and COADS crossed with the fee-access Lloyds Register database that contains detailed ship movements data in order to improve the spatialisation of emission distribution These approaches were recently applied in the Second International Maritime Organization (IMO) GHG study (IMO, 2009). Satellite-based reception of AIS messages is not yet reliable in maritime areas with high traffic volume, whereas LRIT represents the most complete source of data from a spatial coverage point of view, in particular for the Mediterranean basin with busy shipping activities.
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