1 / 27

Modifying Fishing Gears to Achieve Ecosystem Objectives

Modifying Fishing Gears to Achieve Ecosystem Objectives. John Willy Valdemarsen, FAO & Petri Suuronen, Finland. Removal of organisms that, for various reasons should not been taken (e.g. juveniles, threaten species) Alteration of the habitat that may be negative to the organisms living there

kin
Download Presentation

Modifying Fishing Gears to Achieve Ecosystem Objectives

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Modifying Fishing Gears to Achieve Ecosystem Objectives John Willy Valdemarsen, FAO & Petri Suuronen, Finland

  2. Removal of organisms that, for various reasons should not been taken (e.g. juveniles, threaten species) Alteration of the habitat that may be negative to the organisms living there Injure benthic organisms Reduce habitat complexities Reduce biodiversity How fishing gears affect the ecosystem

  3. Harvesting pattern of Baltic Cod today: Mortality other than fishery (M) Too few spawners! Spawning stock size Catch consisting mainly of small fish and … large part of them are discarded! (estimated discard rate 12-20% in numbers)

  4. Turtle Excluder Device (TED) Shrimp-fish separators Size selective grids Square mesh windows Medina panel/ “Backdown” principle to avoid dolphins in tuna purse seining Bird scaring lines in longline fishing Selective trap nets Examples of gear modifications that reduce unwanted by-catch

  5. Turtle Excluder Device for Shrimp trawls • Releases Turtles • Retains target shrimps • Debris blocking the grid can cause some loss of catch • TEDs are mandatory in many tropical shrimp fisheries • Further developments are directed to also avoid fish bycatch

  6. Nordmøre grid for separating shrimp and fish • Retains shrimp • Releases fish by-catch • Improves quality of target catch • Reduces sorting work onboard • Increases yields of non-targets for other fisheries • Mandatory in a number of fisheries

  7. Size sorting grid • Small, juvenile fish are released • Size sorting with grids is less dependant on high catch rates than meshes • Properly designed and used size sorting grids may allow fishing to continue in areas where the abundance of young fish is high

  8. Square mesh window to release small fish • Square meshes stay open during towing • Square mesh panels are cheap and simple size selective devices • Square mesh windows are mandatory in some fisheries

  9. Incidental catch of dolphins while purse seining for tuna species (350 000 taken in the Pacific fisheries in the 60ies) Capture of juvenile tuna and other non-target fish while fishing with Fish Aggregating Devices (FADs) By-catch while purse seining

  10. Medina Panel and backdown principle to release dolphins

  11. Modified salmon trap to avoid seal capture • Grid in the entrance prevents seals from entering the trap • Strong outside netting also prevents seals from breaking into the trap • The captured salmon is safe from seal attack and seals are not trapped

  12. Bird-Scaring line to reduce seabird capture during longline fishing • Seabirds try to take bait from hooks during setting of longlines and might self be hooked • This is particularly a problem for albatrosses and petrels in Southern Oceans • Mitigations tools such as scaring lines significantly reduce the problem

  13. Alteration of the habitat that may be negative to the organisms living there Injure benthic organisms Reduce habitat complexities Reduce biodiversity How fishing gears impact the ecosystem

  14. Three examples of bottom habitats Coral bottom Sandy/stony bottom Muddy bottom

  15. Bottom otter trawls (---) Beam trawls (----) Dredges (-----) Demersal seines (--) Bottom-set gillnets (-) Demersal longlines (-) Traps and pots (-) Overall effect of various fishing gears on bottom habitats

  16. Lifting gear parts off the bottom Use electrical stimuli to scare target objects off the bottom Possible technicalgear modifications

  17. Trawldoor track on sandy/stony bottom

  18. “Smart trawling technology” • Reduced bottom impact of trawl gears can be achieved by; • Lifting the trawl doors from bottom • Using dropper chain instead of roller gear to keep bottom contact • Other ground gear designs (size, material, and construction of rollers)

  19. Close the most sensitive areas for fishing (Monitor activity with VMS) Concentrating fishing effort where density of fishing objects are highest (High CPUE) Replace harmful fishing gears with gears that are less harmful to the bottom habitat, like a fish pot!!! Change of fishing practise

  20. Fish pot

  21. Modifications of fishing gears has significantly helped to reduce by-catches Techniques that are not practical or increase costs will most likely fail Economic rewards should be offered for the creation and use of gear modifications that reduce by-catches and minimize impacts on habitats Co-operation between fishing industry, scientists and other stake holders is fundamental Conclusions (1)

  22. Characteristics of various trawls grounds should be better known to focus the development and implementation of proper technologies and practises Reduction of impact on grounds that has a “rich” biodiversity should be given highest priority Areas with a complex biodiversity, like corals, should be closed for sensitive fishing like trawling and dredging Fishing practice that has reduced bottom interaction should be promoted on grounds with an intermediate type of biodiversity Conclusions (2)

  23. THANK YOU

More Related