Technical fixes play a big role in mitigation - measures to improve fuel efficiency and reduce degradation caused by existing technologies. In the context of fisheries, an important strand in mitigation has been improving the fuel efficiency of fishing vessels. IFAD (2014) suggests that this can be achieved through the adoption of lightweight materials and aerodynamic hull shapes, as well as improving the engines themselves. On the 30th October 2014, Finnish marine technology and energy company Wärtsilä announced that they had been contracted by Scottish company Lunar Fishing to provide fuel-efficient engines for two 78m vessels (see below) which will operate in the North Sea upon construction in 2016.
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| Figure 1 - Two trawlers with energy efficient engines, scheduled for completion 2016 (source: Wärtsilä) |
Now while this is a step in the right direction, the bulk of fisheries GHG emissions stem from product transport (FAO 2014). As such, the greatest potential for reducing emissions can be found in reforming transportation practices. The 2014 report by the FAO suggests that an industry-wide shift to bulk sea freight instead of non-bulk sea freight and air freight transportation can considerably reduce the emissions per unit of product. Daw et al. (2009) go so far as to assert that even with fisheries activity forecast to intensify over the coming decades, emissions reductions still be achieved if the above measures are executed.
While this is clearly a viable option in more economically developed parts of the world, it cannot be as easily implemented in the Global South where much fishing is carried out on the localised subsistence level. In this case, where individual fishermen try to feed their families, the bulk freight approach is fundamentally incompatible. In this case, it might be worth considering local management approaches which take into consideration the livelihoods and knowledge of coastal communities.

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