full catch documentation based on e-logbook and e-monitoring€¦ · full catch documentation based...
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Full Catch documentation based on E-logbook and E-monitoring By Søren Palle Jensen1, Clara Ulrich2, Hans Jakob Olesen2, Josefine Egekvist2, Jørgen Dalskov2
1 Danish AgriFish Agency and 2 Danish National Institute for Aquatic Resources (DTU Aqua)
How to use E-logbook and Electronic monitoring tools to monitor fisheries
• In 2008/2009 DTU Aqua conducted a catch quota trial using EM / CCTV
• 2010 - > Danish AgriFish Agency and DTU Aqua conducted trials
• 2012 -> Danish AgriFish Agency is using E-monitoring on mussels dredgers fishing inside Marine Protected Areas (MPA’s)
• Aim: to test whether Remote Electronic Monitoring (REM) by using sensor and CCTV cameras can be used by fishers as a reliable tool to fully document their fishing
• Aim: to test whether fully documented fishery and a catch quota management could be implemented as a reliable catch accounting tool
• Aim: to control and document the fishery inside MPA´s and collect data for impact analysis
The philosophy behind a new fisheries managment system
• The reporting in details on how the fishery is carried out and what has been caught (the amount in weight by species) should be done in the e-logbook and the obligation lies with the skipper
• The fishing industry is given the obligation to report and document their fishing in a reliable way. Further, they should be accountable for what they are catching and not only what they are landing.
• The skipper is also responsible for providing an independent documention of his recordings in the logbook
• An trustworthy independent documentation can be made by the use of an independent observer or by the use of electronic monitoring tools (EM).
• The idea is to “reverse the burden of proof”. The documentation observer of EM should be used to verify the skippers logbook recordings.
Technical setup
Trawler
Danish Seiner Gillnetter
Flyshooter
Technical Implementation Different types of vessels in the Danish CQM trial
Sensor data – Trawl
Hauls from E-log
VMS data
Sensor data
Fisher estimate of discards versus estimate using video footage
Change in fishing and landing pattern
Change in fishing and landing pattern
Size grade distribution of cod 2010-2012
Experience gained on the use of Remote Electronic Monitoring 2010-2012
2010 2011 2012
Other vessel
Trial vessels
Other vessel
Trial vessels
Other vessel
Trial vessels
North Sea trawlers (120mm - >)
9.6 % 0.4 % 13.7 % 1.5 % 22.9 % 0.9 %
Skagerrak trawlers (90mm - >)
41.7 % 1.2 % 55.7 % 1.5 % 40.1 % 2.5 %
North Sea gill netters - 0.0 % 2.2 % 0.0 % 3.6 % 0.0 %
Skagerrak gillnetters 4.1 % 0.0 % 4.0 % 0.0 % 2.3 % 0.2 %
Discard % of cod by trial vessels versus non trial vessels
What have we learned
• REM system data (sensor data and video footage) can be used to verify fisher logbook recordings.
• Ensuring reliable management of the fisheries and provide high quality data for the scientific advisory work.
• In a landing obligation management system (discard ban) REM system can be used to document whether discarding takes place.
• Ensuring reliability of the discard ban.
• REM data can be used when managing NATURE2000 sites, MSFD sites and other special marine habitat areas. Precautionary safety zone around the sites can be minimized.
• A large number of rules can be repealed. −Simplification and responsibility back to the industry – “reverse the burden of
proof”.
• A sanction system for not complying with the rules has to be in place.
• The cost for using a REM is cheap compared to the use of at sea observers.
Sensor systems used by the mussel fishers (Anchor Lab. Black Box R100 and data analysis tool)
Copyright 2012 AnchorLab
Black Box R100 data analysis software
Thank you for your attention!
Detailed information on CQM and FDF can be found at:
The projects have been carried out by the support of The Ministry for Food, Agriculture & Fisheries and the European Fisheries Fund
Thanks to all involved colleagues and participating skippers and crews on the trial vessels
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