Bottom trawling explained

Bottom trawling is trawling (towing a trawl, which is a fishing net) along the seafloor. It is also referred to as "dragging". The scientific community divides bottom trawling into benthic trawling and demersal trawling. Benthic trawling is towing a net at the very bottom of the ocean and demersal trawling is towing a net just above the benthic zone. Bottom trawling can be contrasted with midwater trawling (also known as pelagic trawling), where a net is towed higher in the water column. Midwater trawling catches pelagic fish such as anchovies and mackerel, whereas bottom trawling targets both bottom-living fish (groundfish) and semi-pelagic species such as cod, squid, shrimp, and rockfish.

Trawling is done by a trawler, which can be a small open boat with only 30hp or a large factory trawler with 10000hp. Bottom trawling can be carried out by one trawler or by two trawlers fishing cooperatively (pair trawling).

Global catch from bottom trawling has been estimated at over 30 million tonnes per year, an amount larger than any other fishing method.[1] Concerns about the environmental impacts of bottom trawling have led to changes in gear design, such as the addition of turtle excluder devices to reduce bycatch, and limitations on locations where bottom trawling is allowed, such as marine protected areas.[2] A 2021 paper estimated that bottom trawling contributed between 600 and 1500 million tons of carbon dioxide a year by disturbing carbon dioxide in the sea floor – emissions approximately equivalent to those of Germany, or the aviation industry.[3] [4] [5] However, these values are highly uncertain and have been criticized as overestimates.[6] [7] International attempts to limit bottom trawling have been ineffective.

History

An early reference to fishery conservation measures comes from a complaint about a form of trawling dating from the 14th century, during the reign of Edward III.[8] A petition was presented to Parliament in 1376 calling for the prohibition of a "subtlety contrived instrument called the wondyrchoum". This was an early beam trawl with a wooden beam, and consisted of a net 6 m (18 ft) long and 3 m (10 ft) wide,

of so small a mesh, no manner of fish, however small, entering within it can pass out and is compelled to remain therein and be taken...by means of which instrument the fishermen aforesaid take so great abundance of small fish aforesaid, that they know not what to do with them, but feed and fatten the pigs with them, to the great damage of the whole commons of the kingdom, and the destruction of the fisheries in like places, for which they pray remedy.[9] [10]
Another source describes the wondyrchoum as:
three fathom long and ten men's feet wide, and that it had a beam ten feet long, at the end of which were two frames formed like a colerake, that a leaded rope weighted with a great many stones was fixed on the lower part of the net between the two frames, and that another rope was fixed with nails on the upper part of the beam, so that the fish entering the space between the beam and the lower net were caught. The net had maskes of the length and breadth of two men's thumbs[11]
The response from the Crown was to "let Commission be made by qualified persons to inquire and certify on the truth of this allegation, and thereon let right be done in the Court of Chancery". Thus, already back in the Middle Ages, basic arguments about three of the most sensitive current issues surrounding trawling - the effect of trawling on the wider environment, the use of small mesh size, and of industrial fishing for animal feed - were already being raised.

Until the late 18th century sailing vessels were only capable of towing small trawls. However, in the closing years of that century a type of vessel emerged that was capable of towing a large trawl, in deeper waters. The development of this type of craft, the sailing trawler, is credited to the fishermen of Brixham in Devon. The new method proved to be far more efficient than traditional long-lining. At first its use was confined to the western half of the English Channel, but as the Brixham men extended their range to the North Sea and Irish Sea it became the norm there too.

By the end of the 19th century there were more than 3,000 sailing trawlers in commission in UK waters and the practice had spread to neighbouring European countries. Despite the availability of steam, trawling under sail continued to be economically efficient, and sailing trawlers continued to be built until the middle of the 1920s. Some were still operating in UK waters until the outbreak of World War II, and in Scandinavia and the Faroe Islands until the 1950s.

English commissions in the 19th century determined that there should be no limitation on trawling. They believed that bottom trawling, like tilling of land, actually increased production. As evidence, they noted that a second trawler would often follow a first trawler, and that the second trawler would often harvest even more fish than the first. The reason for this peculiarity is that the destruction caused by the first trawl resulted in many dead and dying organisms, which temporarily attracted a large number of additional species to feed on this moribund mass.

Bottom trawling does not only have a long tradition in European waters. It was also recognized in 1704 during the Edo era in Japan as a common fishing method. A slightly different approach was developed where the "Utase Ami" or "trawled bottom net" was deployed from a sideways sailing boat.[12]

Bottom trawling has been widely implicated in the population collapse of a variety of fish species, locally and worldwide, including orange roughy, barndoor skate, shark, and many others.[13]

Fishing gear

The design requirements of a bottom trawl are relatively simple, a mechanism for keeping the mouth of the net open in horizontal and vertical dimensions, a "body" of net which guides fish inwards, and a "cod-end" of a suitable mesh size, where the fish are collected. The size and design of net used is determined by the species being targeted, the engine power and design of the fishing vessel and locally enforced regulations.

Beam trawling

The simplest method of bottom trawling, the mouth of the net is held open by a solid metal beam, attached to two "shoes", which are solid metal plates, welded to the ends of the beam, which slide over and disturb the seabed. This method is mainly used on smaller vessels, fishing for flatfish or prawns, relatively close inshore.

Otter trawling

Otter trawling derives its name from the large rectangular otter boards which are used to keep the mouth of the trawl net open. Otter boards are made of timber or steel and are positioned in such a way that the hydrodynamic forces, acting on them when the net is towed along the seabed, push them outwards and prevent the mouth of the net from closing. They also act like a plough, digging up to 15cm (06inches) into the seabed, creating a turbid cloud, and scaring fish towards the net mouth.

The net is held open vertically on an otter trawl by floats and/or kites attached to the "headline" (the rope which runs along the upper mouth of the net), and weighted "bobbins" attached to the "foot rope" (the rope which runs along the lower mouth of the net). These bobbins vary in their design depending on the roughness of the sea bed which is being fished, varying from small rubber discs for very smooth, sandy ground, to large metal balls, up to 0.5m (01.6feet) in diameter, for very rough ground. These bobbins can also be designed to lift the net off the seabed when they hit an obstacle. These are known as "rock-hopper" gear.

Body of the trawl

The body of the trawl is funnel-like, wide at its "mouth" and narrowing towards the cod end, and usually is fitted with wings of netting on both sides of the mouth. It is long enough to assure adequate flow of water and prevent fish from escaping the net, after having been caught. It is made of diamond-meshed netting, the size of the meshes decreasing from the front of the net towards the codend. Into the body, fish and turtle escape devices can be fitted. These can be simple structures like "square mesh panels", which are easier for smaller fish to pass through, or more complicated devices, such as bycatch grills.

Cod end

The cod end is the trailing end of the net where fish are finally "caught". The size of mesh in the cod end is a determinant of the size of fish which the net catches. Consequently, regulation of mesh size is a common way of managing mortality of juvenile fishes in trawl nets.

Environmental damage

See also: Environmental impact of fishing, environmental damage and Marine conservation. Trawling gear produces acute impacts on biota and the physical substratum of the seafloor by disrupting the sediment column structure, overturning boulders, re-suspending sediments and imprinting deep scars on muddy bottoms.[14] Also, the repetitive passage of trawling gear over the same areas creates long-lasting, cumulative impacts that modify the cohesiveness and texture of sediments. It can be asserted nowadays that due to its recurrence, mobility and wide geographical extent, industrial trawling has become a major force driving seafloor change and affecting not only its physical integrity on short spatial scales but also imprinting measurable modifications to the geomorphology of entire continental margins.[15]

Bottom fishing has operated for over a century on heavily fished grounds such as the North Sea and Grand Banks. While overfishing has long been recognised as causing major ecological changes to the fish community on the Grand Banks, concern has been raised more recently about the damage which benthic trawling inflicts upon seabed communities.[16] A species of particular concern is the slow growing, deep water coral Lophelia pertusa. This species is home to a diverse community of deep sea organisms, but is easily damaged by fishing gear. On 17 November 2004, the United Nations General Assembly urged nations to consider temporary bans on high seas bottom trawling. A global analysis of the impacts of bottom trawling found that the impact on seabed biota was strongly dependent on the type of gear used, with otter trawls estimated as having the smallest impact and removing 6% of biota per pass while hydraulic dredges had the largest impact and removed 41% of biota per pass.[17] Other research found trawled canyon sediments contained 52 percent less organic matter than the undisturbed seafloor. There were 80 percent fewer sea worms in the trawled region and only half as much diversity of species in the trawled seafloor.[18]

Resuspension and biogeochemistry

Bottom trawling stirs up the sediment at the bottom of the sea. The suspended solid plumes can drift with the current for tens of kilometres from the source of the trawling, increasing sedimentation rates in deep environments [19] Bottom trawling-induced resuspended sediment mass on the world's continental shelves has been estimated at 22 gigatonnes per year, approximately the same as the sediment mass supplied to the continental shelves through the world's rivers.[20] These plumes introduce a turbidity which decreases light levels at the bottom and can affect kelp reproduction.

Bottom trawling can both resuspend and bury biologically recyclable organic material, changing the flow of nutrients and carbon through the food web and thereby alter geomorphological landscapes.[15] Ocean sediments are the sink for many persistent organic pollutants, usually lipophilic pollutants like DDT, PCB and PAH. Bottom trawling mixes these pollutants into the plankton ecology where they can move back up the food chain and into our food supply.[21]

Phosphorus is often found in high concentration in soft shallow sediments.[22] Resuspending nutrient solids like these can introduce oxygen demand into the water column, and result in oxygen deficient dead zones.[23] Even in areas where the bottom sediments are ancient, bottom trawling, by reintroducing the sediment into the water column, can create harmful algae blooms.[24] [25] More suspended solids are introduced into the oceans from bottom trawling than any other man-made source.[26]

Multiple large-scale reviews on bottom trawling have noted that there is a great need for further studies that properly examine the effects of nutrient and toxin remobilization as well as carbon cycling,[27] [28] in order to better estimate greenhouse gas emissions and hence the impact on climate change.[29]

Deep sea damage

The Secretary General of the United Nations reported in 2006 that 95 percent of damage to seamount ecosystems worldwide is caused by deep sea bottom trawling.[30] [31] A study published in Current Biology suggests a cutoff of 600m (2,000feet) is a point which ecological damage increases significantly.[32]

Carbon release

An estimated 370 million tonnes a year of carbon dioxide stored in seafloor sediment is released by bottom-trawling fishing.[33] Most carbon released into the sea enters the atmosphere within a decade.[34] Banning bottom trawling in marine protected areas has been suggested.[35]

Current restrictions

Today, some countries regulate bottom trawling within their jurisdictions:[36]

Lack of regulation

Beyond national jurisdictions, most bottom trawling is unregulated either because there is no Regional Fisheries Management Organisation (RFMO) with competence to regulate, or else what RFMOs that do exist have not actually regulated. The major exception to this is in the Antarctic region, where the Convention for the Conservation of Antarctic Marine Living Resources regime has instituted extensive bottom trawling restrictions.[47]

The North East Atlantic Fisheries Commission (NEAFC) also recently closed four seamounts and part of the mid-Atlantic Ridge from all fishing, including bottom trawling, for three years. This still leaves most of international waters completely without bottom trawl regulation.

As of May 2007 the area managed under the South Pacific Regional Fisheries Management Organisation (SPRFMO) has gained a new level of protection. All countries fishing in the region (accounting for about 25 percent of the global ocean) agreed to exclude bottom trawling on high seas areas where vulnerable ecosystems are likely or known to occur until a specific impact assessment is undertaken and precautionary measures have been implemented. Observers will also be required on all high seas bottom trawlers to ensure enforcement of the regulations.

Failed United Nations ban

Palau President Tommy Remengesau has called for a ban on destructive and unregulated bottom trawling beyond national jurisdictions. Palau has led the effort at the United Nations and in the Pacific to achieve a consensus by countries to take this action at an international level.[48] [49] Palau has been joined by the Federated States of Micronesia, the Republic of the Marshall Islands, and Tuvalu in supporting an interim bottom trawling ban at the United Nations.[50] The proposal for this ban did not result in any actual legislation and was blocked.[51]

In 2006, New Zealand Fisheries Minister Jim Anderton promised to support a global ban on bottom trawling if there was sufficient support to make that a practical option. Bottom trawling has been banned in a third of New Zealand's waters (although a large percentage of these areas were not viable for bottom trawling in the first place) [38]

See also

References

Further reading

External links

Notes and References

  1. Watson. Reg A.. Tidd. A.. 2018-07-01. Mapping nearly a century and a half of global marine fishing: 1869–2015. . en. 93. 171–177. 10.1016/j.marpol.2018.04.023. 158305071 . 0308-597X.
  2. Web site: Fishing and Farming Methods from the Seafood Watch Program at the Monterey Bay Aquarium. www.seafoodwatch.org. en. 2018-08-23.
  3. Sala. Enric. Mayorga. Juan. Bradley. Darcy. Cabral. Reniel B.. Atwood. Trisha B.. Auber. Arnaud. Cheung. William. Costello. Christopher. Ferretti. Francesco. Friedlander. Alan M.. Gaines. Steven D.. 2021-03-17. Protecting the global ocean for biodiversity, food and climate. Nature. 592. 7854. en. 397–402. 10.1038/s41586-021-03371-z. 33731930. 2021Natur.592..397S. 232301777 . 1476-4687.
  4. News: Einhorn. Catrin. 2021-03-17. Trawling for Fish May Unleash as Much Carbon as Air Travel, Study Says. en-US. The New York Times. 2021-03-18. 0362-4331.
  5. Web site: 2021-03-17. Bottom trawling releases as much carbon as air travel, landmark study finds. 2021-03-20. The Guardian. en.
  6. Hiddink . Jan Geert . van de Velde . Sebastiaan J. . McConnaughey . Robert A. . De Borger . Emil . Tiano . Justin . Kaiser . Michel J. . Sweetman . Andrew K. . Sciberras . Marija . 2023 . Quantifying the carbon benefits of ending bottom trawling . Nature . en . 617 . 7960 . E1–E2 . 10.1038/s41586-023-06014-7 . 1476-4687.
  7. Hilborn . Ray . Kaiser . Michel J. . 2022 . A path forward for analysing the impacts of marine protected areas . Nature . en . 607 . 7917 . E1–E2 . 10.1038/s41586-022-04775-1 . 1476-4687.
  8. Jones . Peter . May 2018 . The long 'lost' history of bottom trawling in England, c.1350–1650 . International Journal of Maritime History . en . 30 . 2 . 201–217 . 10.1177/0843871418766765 . 134879666 . 0843-8714.
  9. March, Page 33
  10. Web site: Collins . J.W. . 1887 . The Beam Trawl Fishery of Great Britain with Notes on Beam-Trawling in Other European Countries . 17 March 2017 . . 292 . 100 MegaByte PDF.
  11. Davis, F (1958) An Account of the Fishing Gear of England and Wales. 4th edition, HMSO.
  12. Nakamoura E, Ourakami T (1900) Histoire de l’industrie de la pêche maritime etfluviale ouJapon. (Translated from the Japanese into French). Bureau des produits maritimes etfleuviauxdu ministère d’agriculture et commerce, Tokyo
  13. Roberts, Callum (2007). The Unnatural History of the Sea, Island Press, p. 238
  14. News: Urbina. Ian. July 28, 2015. A Renegade Trawler, Hunted for 10,000 Miles by Vigilantes.. The New York Times. November 20, 2020.
  15. Oberle et al. (2018), “Submarine Geomorphology: Bottom Trawling and other Fishing Activities”, Book: Submarine Geomorphology Chapter 25, Springer, doi: 10.1007/978-3-319-57852
  16. Web site: Beam trawling on the North Sea . Greenpeace . 2009-01-12 . dead . https://web.archive.org/web/20081210112607/http://archive.greenpeace.org/comms/cbio/beam.html . 2008-12-10 .
  17. Hiddink. Jan Geert. Jennings. Simon. Sciberras. Marija. Szostek. Claire L.. Hughes. Kathryn M.. Ellis. Nick. Rijnsdorp. Adriaan D.. McConnaughey. Robert A.. Mazor. Tessa. 2017-07-14. Global analysis of depletion and recovery of seabed biota after bottom trawling disturbance. . 114. 31. en. 8301–8306. 10.1073/pnas.1618858114. 0027-8424. 28716926. 5547586. 2017PNAS..114.8301H . free.
  18. Web site: In Brief: Deep-sea Trawling Has "Devastating" Impact, Study Finds. https://web.archive.org/web/20200920075127/https://www.nationalgeographic.com/news/2014/5/140519-bottom-trawling-seafloor-oceans-damage-science/ . dead . September 20, 2020 . . 2014-05-19.
  19. 10.1038/srep43332. Bottom-trawling along submarine canyons impacts deep sedimentary regimes. 2017. Paradis. Sarah. Puig. Pere. Masqué. Pere. Juan-Díaz. Xènia. Martín. Jacobo. Palanques. Albert. Scientific Reports. 7. 43332. 28233856. 5324136. 2017NatSR...743332P.
  20. Oberle. Ferdinand K.J.. Storlazzi. Curt D.. Hanebuth. Till J.J.. 2016. What a drag: Quantifying the global impact of chronic bottom trawling on continental shelf sediment. Journal of Marine Systems. en. 159. 109–119. 10.1016/j.jmarsys.2015.12.007. 2016JMS...159..109O.
  21. 10.1016/j.envpol.2012.06.019. 22842052. Bottom trawling resuspends sediment and releases bioavailable contaminants in a polluted fjord. Environmental Pollution. 170. 232–241. 2012. Bradshaw. C.. Tjensvoll. I.. Sköld. M.. Allan. I.J.. Molvaer. J.. Magnusson. J.. Naes. K.. Nilsson. H.C.. 2012EPoll.170..232B .
  22. Book: 10.1016/B0-08-043751-6/08153-6. The Global Phosphorus Cycle. Treatise on Geochemistry. 585–643. 2003. Ruttenberg. K.C.. 9780080437514.
  23. Web site: US Department of Commerce . National Oceanic and Atmospheric Administration . What is a dead zone? . oceanservice.noaa.gov . 16 October 2020 . EN-US.
  24. Giannakourou, A., Orlova, T.Y., Assimakopoulou, G., Pagou, K. (2005) Dinoflagellate cysts in recent marine sediments from Thermaikos Gulf, Greece. Continental Shelf Research 25, 2585-2596.
  25. Weaver, Dallas E (2007) Remote Impacts of Bottom Trawling .
  26. Palanques . A. . Guillén . J. . Puig . P. . Impact of bottom trawling on water turbidity and muddy sediment of an unfished continental shelf . Limnology and Oceanography . July 2001 . 46 . 5 . 1100–1110 . 10.4319/lo.2001.46.5.1100 . 2001LimOc..46.1100P . free . 10261/244111 . free .
  27. NRC (2002) (National Research Council) Effects of trawling and dredging on seafloor habitat. National Academies Press, Washington, DC
  28. ICES (2006) International Council for the Exploration of the Sea (ICES): report of the WorkingGroup on Ecosystem Effects of Fishing Activities. ACE 05:1 179
  29. 2019-02-01. Quantifying and valuing carbon flows and stores in coastal and shelf ecosystems in the UK. Ecosystem Services. en. 35. 67–76. 10.1016/j.ecoser.2018.10.013. 2212-0416. free. Luisetti. Tiziana. Turner. R. Kerry. Andrews. Julian E.. Jickells. Timothy D.. Kröger. Silke. Diesing. Markus. Paltriguera. Lucille. Johnson. Martin T.. Parker. Eleanor R.. Bakker. Dorothee C.E.. Weston. Keith.
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  32. News: Drawing the line. The Economist. 2015-09-18. 0013-0613.
  33. News: McVeigh . Karen . 2024-01-18 . Carbon released by bottom trawling 'too big to ignore', says study . 2024-03-13 . The Guardian . en-GB . 0261-3077.
  34. Atwood . Trisha B. . Romanou . Anastasia . DeVries . Tim . Lerner . Paul E. . Mayorga . Juan S. . Bradley . Darcy . Cabral . Reniel B. . Schmidt . Gavin A. . Sala . Enric . 2024 . Atmospheric CO2 emissions and ocean acidification from bottom-trawling . Frontiers in Marine Science . 10 . 10.3389/fmars.2023.1125137 . free . 2296-7745.
  35. Web site: 2024-03-13 . Bottom trawling is huge source of carbon emissions, new study reveals . 2024-03-13 . Environment . en.
  36. http://www.savethehighseas.org/recentaction.cfm
  37. News: West Coast fishery rebounds in a rare conservation 'home run'. Associated Press. 2019-12-26. Los Angeles Times. en-US. 2019-12-27. mdy-all.
  38. Web site: NZ to close 30pc of waters to trawling - National - NZ Herald News . Nzherald.co.nz . 2006-02-14 . 2013-09-09.
  39. Web site: New Zealand, world, sport, business & entertainment news on Stuff.co.nz . 2006-08-16 . https://web.archive.org/web/20070930041505/http://www.stuff.co.nz/stuff/0,2106,3766013a6160,00.html . 2007-09-30 . dead .
  40. http://www.savethehighseas.org/display.cfm?ID=104
  41. News: Kiribati creates world's first deep-sea marine reserve - World . smh.com.au . 2006-03-30. 2013-09-09.
  42. Mendoza. Jeremy. Rise and fall of Venezuelan industrial and artisanal marine fisheries : 1950-2010 . Fisheries Centre the University of British Columbia Working Paper Series. 141051731.
  43. Fischer. Johanne. 2010. Review of the implementation of the international plan of action for the conservation and management of sharks. FAO Fisheries and Aquaculture Circular. 1076.
  44. Web site: Facts About the Trawling Ban in Hong Kong Waters. WWF Hong Kong. 27 July 2016.
  45. Web site: AFCD officers intercept illegal trawler (with photo). Hong Kong Government. 26 July 2016.
  46. News: Muiz . Sarah . Sri Lankan seas still disturbed by Indian bottom trawling menace . 9 July 2024 . Daily Mirror . 4 October 2023.
  47. http://www.ccamlr.org/pu/E/e_pubs/am/man-ant/p4.htm
  48. http://www.palauun.org/news_archive.cfm?news_id=76
  49. Web site: Earth Negotiations Bulletin - ENB SUMMARY OF THE WORKING GROUP ON MARINE BIODIVERSITY BEYOND AREAS OF NATIONAL JURISDICTION - MONDAY, 20 FEBRUARY 2006 . Iisd.ca . 2013-09-09 . 2012-07-22 . https://web.archive.org/web/20120722004448/http://www.iisd.ca/vol25/enb2525e.html . dead .
  50. Web site: Pacific Leaders Back Bottom Trawling Ban | Scoop News . Scoop.co.nz . 2013-09-09.
  51. News: Science/Nature | Ban on 'brutal' fishing blocked . BBC News . 2006-11-24 . 2013-09-09.