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Cetacean bycatch (or cetacean by-catch) is the accidental capture of non-target cetaceans such as dolphins, porpoises, and whales by commercial fisheries.^[1] Bycatch can be caused by entanglement in fishing nets and lines, or direct capture by hooks or in trawl nets.

Cetacean bycatch is increasing in intensity and frequency.^[2] This trend is likely to continue due to the pressures of human population growth on the environment, the growing popularity of seafood, and the commercialization of deep-sea fishing as operations expand into waters which were previously protected. These commercial fishing vessels come into both direct and indirect contact with cetaceans. An example of direct contact is the physical contact of cetaceans with fishing nets. Indirect contact occurs through marine food chains, which are destabilized by the commercial fishermen severely reducing local fish populations that cetaceans rely on for food. In commercial fishing practices, cetaceans are captured as bycatch but then retained because of their value as food or bait.^[3]

Bycatch trends

Generally, cetacean bycatch is increasing. Most of the world's cetacean bycatch occurs in gillnet fisheries.^[3] The mean annual bycatch in the U.S. alone from 1990 to 1999 was 6,215 marine mammals, with dolphins and porpoises being the primary cetaceans caught in gillnets.^[3] Based on global bycatch observation of U.S. fisheries, an estimated 653,365 marine mammals, comprising 307,753 cetaceans and 345,611 pinnipeds were caught from 1990 to 1994.^[3]

While gillnets are a principal concern, other types of nets also pose a problem: trawl nets, purse seines, beach seines, longline gear, and driftnets. Driftnets are known for high rates of bycatch and they affect all cetaceans and other marine species.^[4] They are fatal for small toothed whales (Odontocetes) and sperm whales, as well as other marine vertebrates such as sharks, sea birds and sea turtles. Many fisheries routinely use driftnets exceeding the EU size limit of 2.5 km/boat.^[5] This illegal drift-netting is a major issue, especially in important feeding and breeding grounds for cetaceans.

The tuna industry has achieved successes in reversing cetacean bycatch trends. International recognition of the problem of cetacean bycatch in tuna fishing led to the Agreement on the International Dolphin Conservation Program in 1999 and overall there has been a dramatic reduction in death rates.^[6] In particular, dolphin bycatch in tuna fishing in the East Tropical Pacific has dropped from 500,000 per year in 1970 to 100,000 per year in 1990, to 3,000 per year in 1999, and to 1,000 per year in 2006.^[7]

A shark culling program in Queensland, which has killed roughly 50,000 sharks since 1962, has also killed thousands of dolphins as bycatch.^[8]^[9] "Shark control" programs in both Queensland and New South Wales use shark nets and drum lines, which entangle and kill dolphins.^[10] Queensland's "shark control" program has killed more than 1,000 dolphins in recent years,^[9] and at least 32 dolphins have been killed in Queensland since 2014.^[11] A shark culling program in KwaZulu-Natal, South Africa has killed at least 2,310 dolphins.^[12]

Cetaceans at risk

Bycatch is recognized as a primary threat to all cetaceans. The following cetaceans are at high risk for entanglement in gillnets:

Atlantic humpback dolphins

The Atlantic humpback dolphin (Sousa teuszii) is endemic to West Africa. Several stocks have been identified with numbers ranging from tens to a few hundred.^[13] Abundance estimates are lacking. Gaps in the species range and hence distribution are evident. Bycatch is only documented in a few West African countries. Surveys and evaluations need to be conducted to determine the presence/absence of humpback dolphins in their historical range. Conservation measures need to be implemented to save this species. Because many people live off the sea, it is not feasible to have complete gillnet closures. Some areas may be designated as off-limits to gillnet fisheries. Eco-tourism may be implemented successfully because of high species diversity.^[13]

Baleen whales

Baleen whales (Mysticeti) are often taken in gill-nets and in fisheries that use vertical lines to mark traps and pots.^[3] Large cetaceans such as humpback and right whales may carry off gear after entanglement. This explains the large scars borne by whales along the U.S. Atlantic coast.^[14] Analyses show that 50-70% of Gulf of Maine humpback whales (Megaptera novaeangliae) and North Atlantic right whale (Eubalaena glacialis) have been entangled at least once in their lifetime.^[3] The North Atlantic right whale is one of the most endangered large cetaceans; only 300-350 individuals remain.^[15] Minke whales (Balaenoptera acutorostrata) are also at risk.

Burmeister's porpoises

The Burmeister's porpoise (Phocoena spinipinnis) is one of three cetaceans that are most often bycaught in Peru and Chile.^[13] Several thousand porpoises are caught each year in Peru alone.^[13] Bycatch is a frequent occurrence for this species because of the inability to detect them in the water. Surveys have shown that bycatch remains a concern in that area today, and it is unknown whether the population is declining.^[13] Reliable data, conservation measures, and public awareness are all lacking. These porpoises are cryptic, making surveying a challenge.^[13] It is also difficult to estimate the extent of the bycatch, because the sale of porpoise meat is no longer available at markets.

Commerson's dolphins

The expanding trawl fisheries devastated the Commerson's dolphin (Cephalorhynchus commersonii) populations in Patagonia. Trawl fisheries greatly expanded for twenty years until they crashed in 1997.^[13] Pelagic squid fisheries took over, which use pelagic trawls that are harmful to both dusky, short-beaked common dolphins and Commerson's dolphins. There are approximately 21,000 Commerson's dolphins remaining today.^[13] Two stocks have been identified in the population, but genetic information and bycatch levels are unknown. With anchovy fisheries expanding, it is imperative to assess the Commerson's dolphin population before these fisheries grow. The seasonal operation of in-shore gillnet fisheries are known to involve bycatch of cetaceans. Presently, there are no known estimates of gillnet bycatch. The bycatch problem in Argentina is political in nature.^[13] Improvements in fishing technology, public awareness, and a large-scale survey of the impact of bycatch on Commerson's dolphin populations are essential.

La Plata dolphins

The La Plata or Franciscana dolphin (Pontoporia blainvillei) is the most threatened small cetacean in the southwest Atlantic Ocean due to bycatch.^[13] They are only found in the coastal waters of Argentina, Brazil, and Uruguay.^[15] This species has been divided into four ranges (FMU's: Franciscana Management Units) for management and conservation purposes. These populations are genetically different. Mortality rates are 1.6% for FMU 4 and 3.3% for FMU 3, but it is unknown whether these estimates are accurate.^[13] Aerial surveys have proven inconclusive so far as to the population numbers of franciscanas. To rectify this situation, more surveys are needed as well as political commitment, awareness campaigns, and bycatch mitigation techniques.

Harbour porpoises

There is substantial incidental catches in fishing operations.^[16] Often, the harbour porpoise (Phocoena phocoena) is killed by incidental bycatch (10, 11, 12). Gillnets pose a serious threat to the harbour porpoise as they are extremely susceptible to entanglement.^[17] A study by Caswell et al.^[18] in the western North Atlantic combined the mean annual rate of increase of the harbour porpoise with the uncertainty of incidental mortality and population size. It was found that the incidental mortality exceeds critical values, thus showing bycatch is a significant threat to the harbour porpoise.^[18] Harbour porpoises become entangled in nets due to their inability to detect the nets before collision.^[19] In 2001, 80 harbour porpoises were killed in salmon gillnet fisheries in British Columbia, Canada.

Hector's and Maui's dolphins

In New Zealand, these dolphins have a high rate of entanglement. Hector's dolphin (Cephalorhynchus hectori) is endemic to the coastal waters of New Zealand and there are about 7,400 in abundance.^[15] A small population of Hector's dolphins is isolated on the west coast of the island and have been declared a subspecies called Maui's dolphin. Maui's dolphins (Cephalorhynchus hectori maui) are often caught in set nets and pair trawlers resulting in less than 100 left in the wild.^[15] For protection, a section of the dolphin's range on the west coast has been closed to gillnet fisheries.

Indo-Pacific humpback and bottlenose dolphins

Drift and bottom-set gillnets are the biggest conservation threat to these dolphins in the Indian Ocean. There have only been assessments in some areas, such as Zanzibar. Hunting, until 1996, reduced the population and contributed to its decline. Now hunting has been replaced with eco-tourism. It was estimated in 2001 that there are 161 bottlenose dolphins (Tursiops aduncus) and 71 Indo-Pacific humpback dolphin (Sousa chinensis) remaining based on photo-identification mark-recapture techniques.^[13] A study revealed over 160 incidences of bycatch since 2000. Approximately 30% of bycatch is in drift and bottom-set gillnets.^[13] Mortality is about 8% and 5.6% for bottlenose and humpback dolphins, respectively .^[13] The mitigation of bycatch is imperative for these species and for eco-tourism.

Irrawaddy dolphins

Based on a survey in 2001, fewer than 70 Irrawaddy dolphins (Orcaella brevirostris) remain in the upper region of the Malampaya Sound in the Philippines and only 69 individuals in the Mekong River.^[13] They have been severely impacted by lift nets and crab gear, thus critically endangered. It is estimated that mortality from bycatch may be greater than 4.5% in Malampaya Sound and 5.8% in the Mekong River.^[13] The population is declining dramatically. Current bycatch levels are unsustainable, and bycatch reduction measures, as well as long-term systematic monitoring, are urgently required. The elimination of gillnets from areas of high use is needed, and economic incentives need to be provided to the local people.

Spinner and Fraser's dolphins

In the Philippines, tuna driftnet fisheries have a substantial impact on the populations. One tuna fishery alone kills 400 spinner dolphins (Stenella longirostris) and Fraser's dolphins (Lagenodelphis hosei) each year.^[13] Round-haul nets are an even greater concern with a bycatch of up to 3000 dolphins per year.^[13] Dolphins that are bycaught often end up as shark bait for longline fisheries. There is not enough data to conclude the total bycatch for the Philippines. Initial assessment indicates that bycatch is not sustainable. Monitoring of dolphin populations and fisheries is urgently needed.

Yangtze River dolphins and finless porpoises

The Yangtze River or Baiji dolphin (Lipotes vexillifer) is one of the most endangered cetaceans that is only found in the Yangtze River, China. A survey conducted in 1997 found only thirteen dolphins.^[15] A later survey in 2006 found no individuals in their former range, and as such, the species was declared functionally extinct - the first cetacean to become functionally extinct primarily due to bycatch (among other factors). However, there have been various sightings since then.^[20]^[21]^[22]^[23] The Yangtze River finless porpoise (Neophocaena phocaenoides asiaeorientalis) also lives in the Yangtze River. Abundance has declined; there are fewer than 2000 porpoises left.^[15] This may be due, in part, to the construction of the Three Gorges Dam, which covers a significant amount of the dolphin's natural habitat. Both species are often subject to entanglement in gillnets.

Vaquita

The vaquita (Phocoena sinus) is the smallest and most endangered cetacean. Endemic to the upper Gulf of Californiain Mexico, they are killed in both gillnets and trawl nets from commercial fishing and poaching. The vaquita shares its habitat with the totoaba (Totoaba macdonaldi), a highly valued fish in black markets due to the perceived medicinal value of its swim bladder.^[24] As of 2024, there are less than 8 individuals left in the Gulf of California, making the species functionally extinct similar to the baiji.^[15]^[25]

Mitigating bycatch

Acoustic deterrent devices

The use of acoustic alarms to mitigate by-catch and to protect aquaculture sites has been proposed. Acoustic deterrent devices, or pingers, have reduced the number of cetaceans caught in gill nets. Harbour porpoises have been effectively excluded from bottom-set gill nets during many experiments for instance in the Gulf of Maine,^[26] along the Olympic Peninsula,^[27] in the Bay of Fundy,^[28] and in the North Sea.^[29] All of these studies show up to a 90% decrease in harbour porpoise bycatch. Pingers work by producing a sound that is aversive to the cetaceans (20; 15). There has been a recent re-evaluation of the potential benefit of pingers,^[30] and their use in other fisheries has expaneded due to their growing success. An experiment on the California drift gill net fishery demonstrated how acoustic pingers reduce marine mammal bycatch.^[31] It showed that bycatch was significantly reduced for common dolphins and sea lions. Bycatch rates were also lower for other cetacean species, such as the Northern right whale dolphin, Pacific white-sided dolphin, Risso's dolphin, and Dall's porpoise. It is agreed upon that the more pingers on a net, the less bycatch. There was a 12-fold decrease in common dolphin entanglement using a net with 40 pingers.^[31] However, the widespread use of pingers along coastlines effectively excludes cetaceans such as porpoises from their prime habitat and resources.^[32] Cetaceans, extremely sensitive to noise, are effectively driven from their preferred coastal habitats by the use of these acoustic devices. In poorer quality habitats, harbour porpoises are subjected to increased competition for resources. This situation is recognized as range contraction, which can be a result of climate change, anthropogenic activity, or population decline. Large-scale range contractions are considered indicative of impending extinction.^[33] A similar form of deterrent is noise pollution originating from vessel traffic.

Barium sulfate

A promising gillnet that is effective in reducing bycatch for harbor porpoises contains barium sulfate. These nets are detected at a greater distance than conventional nets because the barium sulfate reflects the cetaceans' echolocation signal, thus rendering the nets more detectable by these animals. Barium sulfate makes the nets stiffer if it is added at high concentration. All three factors - echo reflectivity, stiffness, and visibility - may be important in reducing bycatch.^[34]^[35] Echo reflectivity appears to depend on particle size, not density. The denser iron oxide produced no reduction in bycatch. Fish takes in the Bay of Fundy were normal, except for haddock takes, which were down by 3-5%.^[36] The advantage of this approach is that it is passive and thus does not require batteries, and there is no "dinner bell" effect. The potential advantage of these nets is greatest in the artisanal fishery. NOAA is planning further testing to verify the effectiveness of the nets.

Fishing regulations and management

Management and regulation are severely lacking in many fisheries today. Management measures are urgently needed to monitor fisheries (and illegal fisheries) to protect cetaceans. Efforts to document bycatch should focus on gill-net fisheries, because cetaceans are more likely to be caught in gill-nets. Conservation efforts should be directed to areas where marine mammal bycatch is high but where no infrastructure exists to assess the impact.^[3] In general, there is a lack of reporting on a global scale of cetacean bycatch.

In the U.S., the Marine Mammal Protection Act prohibits the use and sale of marine mammals captured by commercial fisheries.^[3] Similar legislations prohibit the use and sale of marine mammals in other countries. A marine mammal mortality monitoring program for commercial fisheries is operating in the U.S., where "Take Reduction Teams" observe the extent of bycatch and then formulate strategies to reduce bycatch, with "Take Reduction Plans" put into place.^[3]

Temporary closure

As another potential mitigation measure, temporary closure of fisheries during the short periods of the year when cetaceans are migrating through the area would significantly decrease bycatch.^[37]

Observers on boat

Another mitigation measure is to use observers on fishing vessels to spot cetaceans in the water in order to avoid bycatch.^[38]

In the U.S.

Some programs like Earth Island Institute's Dolphin Safe Label certification claim to require certification from onboard observers. However, the only fishery in the world where independent scientific observers certify whether a dolphin has been harmed is the Eastern Tropical Pacific, home to the AIDCP Treaty program. For all other tuna fisheries of the world, the efficacy of onboard observer certification has come under increasing scrutiny as such programs have proven indefensible or unmanageable: ^[39]

In an interview with Radio Australia last year, Mark Palmer of EII confirmed that it is mostly the case that EII monitors do not go on board of the vessels, and their organization does not have the kind of resources to put observers on the "many thousands" of ships that are out there catching tuna.^[40]

Additionally, environmental groups have criticized Earth Island Institute's support of U.S. policies that do not require independent, on-board observation and instead only rely on self-certification by fishing captains. Even if there is a requirement of independent observers, the lack of uniformity in tracing and verifying certifications in different countries implies that non-certified products can still become certified if they are taken to a different port.^[41]

Other ways of mitigating bycatch

Implementing gear technology (changes in fishing gear and practices) was documented to mitigate cetacean bycatch.^[42]
Buying tuna and other seafood that has a dolphin safe label.
Buying Sustainable seafood.^[43]
Supporting sustainable seafood companies and restaurants.^[44]
Raising international awareness to assess, monitor, and mitigate bycatch problems.^[45]
Creating legislation on responsible fishing practices.^[45]
Developing and promote industry adoption of "Best Practice Guidelines" for fishing operations.^[45]

References

^ Alverson et al. (1994)
^ Demaster et al. (2001)
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ Read et al. (2006)
^ Silvani et al. (1999)
^ Miragliuolo et al. (2002)
^ "International Affairs | NOAA Fisheries". 25 August 2021.
^ "The Tuna-Dolphin Issue". 22 November 2021.
^ https://www.news.com.au/technology/science/animals/aussie-shark-population-is-staggering-decline/news-story/49e910c828b6e2b735d1c68e6b2c956e Aussie shark population in staggering decline. Rhian Deutrom. December 14, 2018. Retrieved December 26, 2018.
^ ^a ^b http://www.afd.org.au/news-articles/queenslands-shark-control-program-has-snagged-84000-animals Action for Dolphins. Queensland’s Shark Control Program Has Snagged 84,000 Animals. Thom Mitchell. November 20, 2015. Retrieved December 26, 2018.
^ https://web.archive.org/web/20181002102324/https://www.marineconservation.org.au/pages/shark-culling.html "Shark Culling". marineconservation.org.au. Archived from the original on 2018-10-02. Retrieved December 26, 2018.
^ https://hsi.org.au/blog/separating-fact-from-fiction-in-qlds-shark-culling-program Separating fact from fiction in QLD’s shark culling program. Nicola Beynon. October 19, 2018. Retrieved December 26, 2018
^ http://www.sharkangels.org/index.php/media/news/157-shark-nets "Shark Nets". sharkangels.org. Retrieved December 26, 2018.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r Reeves et al. (2005)
^ Knowlton (2003)
^ ^a ^b ^c ^d ^e ^f ^g WWF (2004)
^ Hammond et al. (2002)
^ Jefferson & Curry (1994)
^ ^a ^b Caswell et al. (1998)
^ Kastelein et al. (1999)
^ ""Extinct" white-flag dolphin spotted in Yangtze River". 2009-07-09. Archived from the original on 2009-07-09. Retrieved 2024-09-16.
^ Phillips, Tom (2016-10-11). "China's 'extinct' dolphin may have returned to Yangtze river, say conservationists". The Guardian. ISSN 0261-3077. Retrieved 2024-09-16.
^ "The Search for the Baiji". The World of Chinese. Retrieved 2024-09-16.
^ "中华白鱀豚功能性灭绝十年后疑似重现长江，科考队称拍到两头_绿政公署_澎湃新闻-The Paper". m.thepaper.cn. Retrieved 2024-09-16.
^ Stickney • •, R. (2013-04-24). "Multi-Million Dollar Fish Bladder Factory Uncovered in Calexico". NBC 7 San Diego. Retrieved 2024-09-16.
^ devon11 (2024-06-11). "Vaquita Survey 2024 - Executive Summary". Sea Shepherd Conservation Society. Retrieved 2024-09-16.{{cite web}}: CS1 maint: numeric names: authors list (link)
^ Kraus et al. (1997)
^ Gearin et al. (2000)
^ Trippel et al. (2003)
^ Larsen (1997)
^ Reeves et al. (1996)
^ ^a ^b Barlow & Cameron (2003)
^ Culik et al. (2001)
^ Boughton et al. (2005)
^ Mooney et al (2004)
^ Mooney et al (2007)
^ Trippel et al (2008)
^ Murray et al.(2000)
^ Animal Freedom (2008)
^ "The fairy tale of US "dolphin safe" labeling False claims, unintended consequences" (PDF). July 1, 2012. Retrieved January 9, 2014.
^ "EII On-board Observers, Ghosts?". July 1, 2012. Archived from the original on January 7, 2014. Retrieved January 9, 2014.
^ "Trade Dispute With Mexico Over 'Dolphin-Safe' Tuna Heats Up". NPR.org. July 1, 2012. Archived from the original on 2014-01-07. Retrieved January 9, 2014.
^ Gilman, E; Brothers, N; McPherson, G; Dalzell, P; et al. (2006). "Review of cetacean interactions with longline gear". Journal of Cetacean Research and Management. 8 (2): 215–223. doi:10.47536/jcrm.v8i2.717. S2CID 83811349.
^ "Sustainable Seafood: Consumer Guides", World Wildlife Fund Global 2013
^ "Seafood Watch" Archived January 19, 2013, at the Wayback Machine, Monterey Bay Aquarium 2013
^ ^a ^b ^c Fishing Technology Service (2008)

General references

Alverson, DL, Freeburg, MH, Murawski, SA and JG Pope (1994). A global assessment of fisheries bycatch and discards. Fisheries Technical Paper. Food and Agriculture Organization, Rome. 339 pp.
Animal Freedom (2008) Cetacean Bycatch
Barlow, J & Cameron, GA (2003). Field experiments show that acoustic pingers reduce marine mammal bycatch in the Californian drift gill net fishery. Marine Mammal Science. 19: 265-283.
Boughton, DA, Fish, H, Pipal, K, Goin, J, Watson, F, Casagrande, J, and M Stoecker (2005). Contraction of the southern range limit for anadromous Oncorhynchus mykiss. NOAA Technical Memorandum NMFS. NOAA-TM-NMFS-SWFSC-380. U.S. Department of Commerce.
Caswell, H, Brault, S, Read, AJ, and TD Smith (1998). Harbour porpoise and fisheries: an uncertain analysis of incidental mortality. Ecological Applications. 8(4): 1226–1238.
Culik, BM, Koschinski, S, Tregenza, N, and GM Ellis (2001). Reactions of harbour porpoises Phocoena phocoena and herring Clupea harengus to acoustic alarms. Marine Ecology Progress Series. 211: 155-260.
Demaster, DJ, Fowler, CW, Perry, SL, and ME Richlen (2001). Predation and competition: the impact of fisheries on marine mammal populations over the next one hundred years. Journal of Mammalogy. 82: 641-651.
Fishing Technology Service (2008) Managing bycatch and reducing discards: Taking it to the next level
Gearin, PJ, Gosho, ME, Laake, JL, Cooke, L, DeLong, R, and KM Hughes (2000). Experimental testing of acoustic alarms (pingers) to reduce bycatch of harbor porpoise, Phocoena phocoena, in the state of Washington. Journal of Cetacean Research and Management. 2:1-9.
Hammond, PS, Berggren, P, Benke, H, Borchers, DL, Collet, A, Heide-Jorgensen, MP, Heimlich, S, Hiby, AR, Leopold, MF, and N Oien (2002). Abundance of harbour porpoise and other cetaceans in the North Sea and adjacent waters. Journal of Applied Ecology. 39: 361-376.
Jefferson, TA and Curry, BE (1994). A global review of porpoise (Cetacea: Phocoenidae) mortality in gill nets. Biological Conservation. 67(2): 167-183.
Kastelein, RA, Au, WWL, and de Haan, D (1999). Detection distances of bottom-set gillnets by harbour porpoises (Phocoena phocoena) and bottlenose dolphins (Tursiops truncates). Marine Environmental Research. 49(4): 359-375.
Knowlton, AR et al. (2003). Analysis of scarring on North Atlantic right whales (Eubalaena glacialis): monitoring rates of entanglement interaction. Final report. Northeast Fisheries Science Center, Woods Hole, Massachusetts.
Kraus, S, Read, AJ, Solow, A, Baldwin, K, Spradlin, T, Anderson, E, and J Williamson (1997). Acoustic alarms reduce porpoise mortality. Nature. 388:525.
Larsen, F (1997). Effekten af akustiske alarmer pa bifangst as marsvin i garn. Report number 44-97 (unpublished). Available from the Danish Institute for Fisheries Research, Jaegersborgvei 64-66, DK- 2800 kg. Lyngby, Denmark.
Miragliuolo, A, Mussi, B, and G Bearzi (2002). Observations of driftnetting off the island of Ischia, Italy, with indirect evidence of dolphin bycatch. European Cetacean Research. 4pp.
Monterey Bay Aquarium (2013) Seafood Watch Archived 2013-02-25 at the Wayback Machine
Mooney, TA; Nachtigall, P; Au, WWL (2004). "Target strength of a nylon monofilament and an acoustically enhanced gillnet: predictions of biosonar detection ranges". Aquatic Mammals. 30 (2): 220–26. doi:10.1578/AM.30.2.2004.220.
Mooney, TA, Au, WWL, Nachtigall, P, and Trippel, EA (2007). "Acoustic and stiffness properties of gillnets as they relate to marine mammal bycatch." ICES J. Mar. Sci., 64: 1324–32.
Murray, KT, Read, AJ, and AR Solow. 2000. The use of time/area closures to reduce bycatches of harbour porpoises: lessons from the Gulf of Maine sink gillnet fishery. Journal of Cetacean Research and Management. 2(2): 135-141.
Read, AJ, Drinker, P, and S Northridge (2006). Bycatch of marine mammals in the U.S. and Global Fisheries. Conservation Biology. 20(1): 163-169.
Reeves, RR, Hofman, RJ, Silber, GK, and D Wilkinson (1996). Acoustic deterrence of harmful marine mammal-fishery interactions. Proceedings of a workshop held in Seattle, Washington, 20–22 March 1996. U.S. Department of Commerce, NOAA Technical Memorandum, NMFS-OPR-10 (unpublished). 70 pp. Available from the NMFS Office of Protected Resources, 1335 East/ West Highway, Silver Springs, MD. 20910, USA.
Reeves, RR, Berggren, P, Crespo, EA, Gales, N, Northridge, SP, Sciara, GND, Perrin, WF, Read, AJ, Rogan, E, Smith, BD, and KV Waerebeek (2005). Global priorities for reduction of cetacean bycatch. WWF document. 27 pp.
Silvani, L, Gazo, JM, and A Aguilar (1999). Spanish driftnet fishing and incidental catches in the western Mediterranean. Biological Conservation. 90: 79-85.
Trippel, EA, Strong, MB, Terhune, JM, and JD Conway (1999). "Mitigation of harbour porpoise (Phocoena phocoena) by-catch in the gillnet fishery in the lower Bay of Fundy." Canadian Journal of Fisheries and Aquatic Science, 56: 113-123.
Trippel, EA, Holy, NL, and Shepperd, TD, (2008). "Barium sulphate modified fishing gear as a mitigative measure for cetacean incidental mortalities." J. Cetacean Res. Manage., 10(3):235–246.
World Wildlife Fund Global (2013). Sustainable Seafood: Consumer Guides

External links

[Alverson_(1994)-1] Alverson et al. (1994)

[Demaster_(2001)-2] Demaster et al. (2001)

[Read_(2006)-3] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ Read et al. (2006)

[Silvani_(1999)-4] Silvani et al. (1999)

[Miragliuolo_(2002)-5] Miragliuolo et al. (2002)

[6] "International Affairs | NOAA Fisheries". 25 August 2021.

[7] "The Tuna-Dolphin Issue". 22 November 2021.

[8] ttps://www.news.com.au/technology/science/animals/aussie-shark-population-is-staggering-decline/news-story/49e910c828b6e2b735d1c68e6b2c956e Aussie shark population in staggering decline. Rhian Deutrom. December 14, 2018. Retrieved December 26, 2018.

[afd_cull-9] ttps://www.afd.org.au/news-articles/queenslands-shark-control-program-has-snagged-84000-animals Action for Dolphins. Queensland’s Shark Control Program Has Snagged 84,000 Animals. Thom Mitchell. November 20, 2015. Retrieved December 26, 2018.

[10] ttps://web.archive.org/web/20181002102324/https://www.marineconservation.org.au/pages/shark-culling.html "Shark Culling". marineconservation.org.au. Archived from the original on 2018-10-02. Retrieved December 26, 2018.

[11] ttps://hsi.org.au/blog/separating-fact-from-fiction-in-qlds-shark-culling-program Separating fact from fiction in QLD’s shark culling program. Nicola Beynon. October 19, 2018. Retrieved December 26, 2018

[12] ttps://www.sharkangels.org/index.php/media/news/157-shark-nets "Shark Nets". sharkangels.org. Retrieved December 26, 2018.

[Reeves_(2005)-13] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r Reeves et al. (2005)

[Knowlton_(2003)-14] Knowlton (2003)

[WWF_(2004)-15] ^ ^a ^b ^c ^d ^e ^f ^g WWF (2004)

[Hammond_(2002)-16] Hammond et al. (2002)

[Jefferson_(1994)-17] Jefferson & Curry (1994)

[Caswell_(1998)-18] Caswell et al. (1998)

[Kastelein_(1999)-19] Kastelein et al. (1999)

[20] ""Extinct" white-flag dolphin spotted in Yangtze River". 2009-07-09. Archived from the original on 2009-07-09. Retrieved 2024-09-16.

[21] Phillips, Tom (2016-10-11). "China's 'extinct' dolphin may have returned to Yangtze river, say conservationists". The Guardian. ISSN 0261-3077. Retrieved 2024-09-16.

[22] "The Search for the Baiji". The World of Chinese. Retrieved 2024-09-16.

[23] "中华白鱀豚功能性灭绝十年后疑似重现长江，科考队称拍到两头_绿政公署_澎湃新闻-The Paper". m.thepaper.cn. Retrieved 2024-09-16.

[24] Stickney • •, R. (2013-04-24). "Multi-Million Dollar Fish Bladder Factory Uncovered in Calexico". NBC 7 San Diego. Retrieved 2024-09-16.

[25] von11 (2024-06-11). "Vaquita Survey 2024 - Executive Summary". Sea Shepherd Conservation Society. Retrieved 2024-09-16.{{cite web}}: CS1 maint: numeric names: authors list (link)

[Kraus_(1997)-26] Kraus et al. (1997)

[Gearin_(2000)-27] Gearin et al. (2000)

[Trippel_(2003)-28] Trippel et al. (2003)

[Larsen_(1997)-29] Larsen (1997)

[Reeves_(1996)-30] Reeves et al. (1996)

[Barlow_(2003)-31] Barlow & Cameron (2003)

[Culik_(2001)-32] Culik et al. (2001)

[Boughton_(2005)-33] Boughton et al. (2005)

[34] Mooney et al (2004)

[35] Mooney et al (2007)

[36] Trippel et al (2008)

[37] Murray et al.(2000)

[38] Animal Freedom (2008)

[39] "The fairy tale of US "dolphin safe" labeling False claims, unintended consequences" (PDF). July 1, 2012. Retrieved January 9, 2014.

[40] "EII On-board Observers, Ghosts?". July 1, 2012. Archived from the original on January 7, 2014. Retrieved January 9, 2014.

[41] "Trade Dispute With Mexico Over 'Dolphin-Safe' Tuna Heats Up". NPR.org. July 1, 2012. Archived from the original on 2014-01-07. Retrieved January 9, 2014.

[42] Gilman, E; Brothers, N; McPherson, G; Dalzell, P; et al. (2006). "Review of cetacean interactions with longline gear". Journal of Cetacean Research and Management. 8 (2): 215–223. doi:10.47536/jcrm.v8i2.717. S2CID 83811349.

[43] "Sustainable Seafood: Consumer Guides", World Wildlife Fund Global 2013

[44] "Seafood Watch" Archived January 19, 2013, at the Wayback Machine, Monterey Bay Aquarium 2013

[Fishing_Technology_Service_(2008)-45] Fishing Technology Service (2008)

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@@ Line 1: / Line 1: @@
+{{Short description|Accidental capture of porpoises, whales and dolphins}}
-[[File:Fraser s group.jpg.jpeg|thumb|300px|Group of [[Cetacean bycatch#Spinner and Fraser’s dolphins|Fraser's dolphins]].]]
+[[File:Fraser s group.jpg.jpeg|thumb|300px|Group of [[#Spinner and Fraser's dolphins|Fraser's dolphins]]]]
-'''Cetacean bycatch''' is the [[by-catch|incidental capture]] of non-target [[cetacean]] [[species]] such as [[dolphin]]s, [[porpoise]]s, and [[whale]]s by [[fishery|fisheries]].<ref name="Alverson (1994)">Alverson et al. (1994)</ref> [[Bycatch]] can be caused by entanglement in [[fishing net]]s and [[fishing line|lines]], or direct capture by [[Fish hook|hooks]] or in [[Trawling|trawl nets]].
+'''Cetacean bycatch''' (or '''cetacean by-catch''') is the [[by-catch|accidental capture]] of non-target [[cetacean|cetaceans]] such as [[dolphin]]s, [[porpoise]]s, and [[whale]]s by commercial [[fishery|fisheries]].<ref name="Alverson (1994)">Alverson et al. (1994)</ref> Bycatch can be caused by entanglement in [[fishing net]]s and [[fishing line|lines]], or direct capture by [[Fish hook|hooks]] or in [[Trawling|trawl nets]].
-Cetacean bycatch is increasing in intensity and frequency.<ref name="Demaster (2001)">Demaster et al. (2001)</ref> This is a trend that is likely to continue because of increasing [[Population growth#Human population growth rate|human population growth]] and demand for marine food sources, as well as industrialization of [[fisheries]] which are expanding into new areas. These fisheries come into direct and indirect contact with cetaceans. An example of direct contact is the physical contact of cetaceans with [[fishing net]]s. Indirect contact is through marine trophic pathways where fisheries are severely reducing fish stocks that cetaceans rely on for food. In some fisheries, cetaceans are captured as bycatch but then retained because of their value as food or [[Bait fish|bait]].<ref name="Read (2006)">Read et al. (2006)</ref> In this fashion, cetaceans can become a target of fisheries.
+Cetacean bycatch is increasing in intensity and frequency.<ref name="Demaster (2001)">Demaster et al. (2001)</ref> This trend is likely to continue due to the pressures of human [[Population growth#Population growth rate|population growth]] on the environment, the growing popularity of seafood, and the commercialization of deep-sea fishing as operations expand into waters which were previously protected. These commercial fishing vessels come into both direct and indirect contact with cetaceans. An example of direct contact is the physical contact of cetaceans with [[fishing net]]s. Indirect contact occurs through marine [[Food chain|food chains]], which are destabilized by the commercial fishermen severely reducing local fish populations that cetaceans rely on for food. In commercial fishing practices, cetaceans are captured as bycatch but then retained because of their value as food or [[Bait fish|bait]].<ref name="Read (2006)">Read et al. (2006)</ref>
 == Bycatch trends ==
-[[File:Entangled porpoise.jpg|right|thumb|A [[Dall's Porpoise]] caught in a fishing net]]
+[[File:Entangled porpoise.jpg|right|thumb|A [[Dall's porpoise]] caught in a fishing net]]
-Generally cetacean bycatch is on the increase. Most of the world’s cetacean [[bycatch]] occurs in [[gillnet]] fisheries.<ref name="Read (2006)" /> The mean annual bycatch in the U.S. alone from 1990–1999 was 6,215 marine mammals, with dolphins and porpoises being the primary cetaceans caught in gillnets.<ref name="Read (2006)" /> A study by Read et al.<ref name="Read (2006)" /> estimated global bycatch through observation of U.S. fisheries and came to the conclusion that an annual estimate of 653,365 marine mammals, comprising 307,753 cetaceans and 345,611 [[pinniped]]s were caught from 1990–1994.
+Generally, cetacean bycatch is increasing. Most of the world's cetacean bycatch occurs in [[gillnet]] fisheries.<ref name="Read (2006)" /> The mean annual bycatch in the U.S. alone from 1990 to 1999 was 6,215 marine mammals, with dolphins and porpoises being the primary cetaceans caught in gillnets.<ref name="Read (2006)" /> Based on global bycatch observation of U.S. fisheries, an estimated 653,365 marine mammals, comprising 307,753 [[Cetacea|cetaceans]] and 345,611 [[pinniped]]s were caught from 1990 to 1994.<ref name="Read (2006)" />
-While gillweed nets are a principal concern, other types of nets also pose a problem: [[Trawling|trawl nets]], [[Seine fishing#Purse seine|purse seines]], beach seines, [[longline fishing|longline]] gear, and [[driftnet]]s. Driftnets are known for high rates of bycatch and they affect all cetaceans and other marine species.<ref name="Silvani (1999)">Silvani et al. (1999)</ref> They are fatal for small [[toothed whale]]s (''Odontocetes'') and [[sperm whale]]s, as well as other marine mammals and fish such as [[shark]]s, [[sea bird]]s and [[sea turtle]]s. Many fisheries routinely use driftnets exceeding the EU size limit of 2.5&nbsp;km/boat.<ref name="Miragliuolo (2002)">Miragliuolo et al. (2002)</ref> This illegal drift-netting is a major issue, especially in important feeding and breeding grounds for cetaceans.
+While gillnets are a principal concern, other types of nets also pose a problem: [[Trawling|trawl nets]], [[Seine fishing#Purse seine|purse seines]], beach seines, [[longline fishing|longline]] gear, and [[driftnet]]s. Driftnets are known for high rates of bycatch and they affect all cetaceans and other marine species.<ref name="Silvani (1999)">Silvani et al. (1999)</ref> They are fatal for small [[toothed whale]]s (''Odontocetes'') and [[sperm whale]]s, as well as other marine vertebrates such as [[shark]]s, [[sea bird]]s and [[sea turtle]]s. Many fisheries routinely use driftnets exceeding the EU size limit of 2.5&nbsp;km/boat.<ref name="Miragliuolo (2002)">Miragliuolo et al. (2002)</ref> This illegal drift-netting is a major issue, especially in important feeding and breeding grounds for cetaceans.
-<!-- Deleted image removed: [[File:6144.jpg|thumb|Greenpeace observers pull in dead dolphin bycatch]] -->
-However, the tuna industry has achieved successes in reversing cetacean bycatch trends. International recognition of the problem of cetacean bycatch in tuna fishing led to the Agreement on the International Dolphin Conservation Program in 1999 and overall there has been a dramatic reduction in death rates.<ref>http://www.nmfs.noaa.gov/ia/intlagree/aidcp.htm</ref> In particular, dolphin bycatch in tuna fishing in the East Tropical Pacific has dropped from 500,000 per year in 1970 to 100,000 per year in 1990 to 3,000 per year in 1999 to 1,000 per year in 2006.<ref>{{cite web|url=http://swfsc.noaa.gov/textblock.aspx?Division=PRD&ParentMenuId=228&id=1408|title=The Tuna-Dolphin Issue|publisher=}}</ref>
+The tuna industry has achieved successes in reversing cetacean bycatch trends. International recognition of the problem of cetacean bycatch in tuna fishing led to the [https://www.iattc.org/en-US/AIDCP Agreement on the International Dolphin Conservation Program] in 1999 and overall there has been a dramatic reduction in death rates.<ref>{{Cite web|url=http://www.nmfs.noaa.gov/ia/intlagree/aidcp.htm|title = International Affairs &#124; NOAA Fisheries|date = 25 August 2021}}</ref> In particular, dolphin bycatch in tuna fishing in the East Tropical Pacific has dropped from 500,000 per year in 1970 to 100,000 per year in 1990, to 3,000 per year in 1999, and to 1,000 per year in 2006.<ref>{{cite web|url=http://swfsc.noaa.gov/textblock.aspx?Division=PRD&ParentMenuId=228&id=1408|title=The Tuna-Dolphin Issue|date=22 November 2021}}</ref>
-A [[shark culling]] program in [[Queensland]], which has killed roughly 50,000 sharks since 1962, has also killed thousands of dolphins as bycatch.<ref>https://www.news.com.au/technology/science/animals/aussie-shark-population-is-staggering-decline/news-story/49e910c828b6e2b735d1c68e6b2c956e Aussie shark population in staggering decline. Rhian Deutrom. December 14, 2018. Retrieved December 26, 2018.</ref><ref name="afd_cull"/> "Shark control" programs in both Queensland and [[New South Wales]] use [[shark nets]] and [[drum line (shark control)|drum lines]], which entangle and kill dolphins.<ref>https://web.archive.org/web/20181002102324/https://www.marineconservation.org.au/pages/shark-culling.html "Shark Culling". marineconservation.org.au. Archived from the original on 2018-10-02. Retrieved December 26,2018.</ref> Queensland's "shark control" program has killed more than 1,000 dolphins in recent years,<ref name="afd_cull">http://www.afd.org.au/news-articles/queenslands-shark-control-program-has-snagged-84000-animals Action for Dolphins. Queensland’s Shark Control Program Has Snagged 84,000 Animals. Thom Mitchell. November 20, 2015. Retrieved December 26, 2018.</ref> and at least 32 dolphins have been killed in Queensland since 2014.<ref>https://hsi.org.au/blog/separating-fact-from-fiction-in-qlds-shark-culling-program ''Separating fact from fiction in QLD’s shark culling program.'' Nicola Beynon. October 19, 2018. Retrieved December 26, 2018</ref> A [[shark culling]] program in [[KwaZulu-Natal]] has killed at least 2,310 dolphins.<ref>http://www.sharkangels.org/index.php/media/news/157-shark-nets "Shark Nets". sharkangels.org. Retrieved December 26, 2018.</ref>
+A [[shark culling]] program in [[Queensland]], which has killed roughly 50,000 sharks since 1962, has also killed thousands of dolphins as bycatch.<ref>https://www.news.com.au/technology/science/animals/aussie-shark-population-is-staggering-decline/news-story/49e910c828b6e2b735d1c68e6b2c956e Aussie shark population in staggering decline. Rhian Deutrom. December 14, 2018. Retrieved December 26, 2018.</ref><ref name="afd_cull"/> "Shark control" programs in both Queensland and [[New South Wales]] use [[shark nets]] and [[drum line (shark control)|drum lines]], which entangle and kill dolphins.<ref>https://web.archive.org/web/20181002102324/https://www.marineconservation.org.au/pages/shark-culling.html "Shark Culling". marineconservation.org.au. Archived from the original on 2018-10-02. Retrieved December 26, 2018.</ref> Queensland's "shark control" program has killed more than 1,000 dolphins in recent years,<ref name="afd_cull">http://www.afd.org.au/news-articles/queenslands-shark-control-program-has-snagged-84000-animals Action for Dolphins. Queensland’s Shark Control Program Has Snagged 84,000 Animals. Thom Mitchell. November 20, 2015. Retrieved December 26, 2018.</ref> and at least 32 dolphins have been killed in Queensland since 2014.<ref>https://hsi.org.au/blog/separating-fact-from-fiction-in-qlds-shark-culling-program ''Separating fact from fiction in QLD’s shark culling program.'' Nicola Beynon. October 19, 2018. Retrieved December 26, 2018</ref> A [[shark culling]] program in [[KwaZulu-Natal|KwaZulu-Natal, South Africa]] has killed at least 2,310 dolphins.<ref>http://www.sharkangels.org/index.php/media/news/157-shark-nets "Shark Nets". sharkangels.org. Retrieved December 26, 2018.</ref>
 == Cetaceans at risk ==
@@ Line 19: / Line 19: @@
 === Atlantic humpback dolphins ===
-The [[Atlantic humpback dolphin]] (''Sousa teuszii'') is endemic to West Africa. Several stocks have been identified with numbers ranging from tens to a few hundred.<ref name="Reeves (2005)">Reeves et al. (2005)</ref> Abundance estimates are lacking. Gaps in the species range and hence distribution is evident. Bycatch is only documented in a few West African countries. Surveys and evaluations need to be conducted to determine the presence/ absence of humpback dolphins in their historical range. Conservation measures need to be implemented to save this species. Because many people live off the sea, it is not feasible to have complete gillnet closures. Some areas may be designated as off-limits to gillnet fisheries. [[Eco-tourism]] may be implemented successfully because of high [[species diversity]].<ref name="Reeves (2005)" />
+The [[Atlantic humpback dolphin]] (''Sousa teuszii'') is endemic to West Africa. Several stocks have been identified with numbers ranging from tens to a few hundred.<ref name="Reeves (2005)">Reeves et al. (2005)</ref> Abundance estimates are lacking. Gaps in the species range and hence distribution are evident. Bycatch is only documented in a few West African countries. Surveys and evaluations need to be conducted to determine the presence/absence of humpback dolphins in their historical range. Conservation measures need to be implemented to save this species. Because many people live off the sea, it is not feasible to have complete gillnet closures. Some areas may be designated as off-limits to gillnet fisheries. [[Eco-tourism]] may be implemented successfully because of high [[species diversity]].<ref name="Reeves (2005)" />
 === Baleen whales ===
-[[File:Eubalaena glacialis with calf.jpg|thumb|right|North Atlantic Right Whale mother and calf.]]
+[[File:Eubalaena glacialis with calf.jpg|thumb|right|North Atlantic right whale mother and calf]]
-[[Baleen whale]]s, ''Mysticeti'', are often taken in gill-nets and in fisheries that use vertical lines to mark traps and pots.<ref name="Read (2006)" /> Large cetaceans such as humpback and right whales may carry off gear after entanglement. This explains the large scars borne by whales along the U.S. Atlantic coast.<ref name="Knowlton (2003)">Knowlton (2003)</ref> Analyses show that 50-70% of [[Gulf of Maine]] [[humpback whales]], ''Megaptera novaeangliae'', and [[North Atlantic Right Whale]], ''Eubalaena glacialis'', have been entangled at least once in their lifetime.<ref name="Read (2006)" /> The North Atlantic right whale is one of the most endangered large cetaceans and only 300-350 individuals remain.<ref name="WWF (2004)">WWF (2004)</ref> [[Minke Whales]], ''Balaenoptera acutorostrata'', are also at risk.
+[[Baleen whale]]s (''Mysticeti'') are often taken in gill-nets and in fisheries that use vertical lines to mark traps and pots.<ref name="Read (2006)" /> Large cetaceans such as humpback and right whales may carry off gear after entanglement. This explains the large scars borne by whales along the U.S. Atlantic coast.<ref name="Knowlton (2003)">Knowlton (2003)</ref> Analyses show that 50-70% of [[Gulf of Maine]] [[humpback whales]] (''Megaptera novaeangliae'') and [[North Atlantic right whale]] (''Eubalaena glacialis'') have been entangled at least once in their lifetime.<ref name="Read (2006)" /> The North Atlantic right whale is one of the most endangered large cetaceans; only 300-350 individuals remain.<ref name="WWF (2004)">WWF (2004)</ref> [[Minke whales]] (''Balaenoptera acutorostrata'') are also at risk.
-=== Burmeister’s porpoises ===
+=== Burmeister's porpoises ===
-The [[Burmeister's porpoise]] (''Phocoena spinipinnis'') is one of three cetaceans that are most often bycaught in [[Peru]] and [[Chile]].<ref name="Reeves (2005)" /> Several thousand porpoises are caught each year in Peru alone.<ref name="Reeves (2005)" />  Bycatch is a frequent occurrence for this species because of the inability to detect them in the water. Surveys have shown that bycatch remains a concern in that area today and it is unknown whether or not the population is declining.<ref name="Reeves (2005)" /> Data, conservation measures and awareness are lacking. These porpoises are [[Crypsis|cryptic]] making surveying a challenge .<ref name="Reeves (2005)" /> It is also difficult to estimate bycatch because the sale of porpoise meat is no longer available at markets.
+The [[Burmeister's porpoise]] (''Phocoena spinipinnis'') is one of three cetaceans that are most often bycaught in [[Peru]] and [[Chile]].<ref name="Reeves (2005)" /> Several thousand porpoises are caught each year in Peru alone.<ref name="Reeves (2005)" /> Bycatch is a frequent occurrence for this species because of the inability to detect them in the water. Surveys have shown that bycatch remains a concern in that area today, and it is unknown whether the population is declining.<ref name="Reeves (2005)" /> Reliable data, conservation measures, and public awareness are all lacking. These porpoises are [[Crypsis|cryptic]], making surveying a challenge.<ref name="Reeves (2005)" /> It is also difficult to estimate the extent of the bycatch, because the sale of porpoise meat is no longer available at markets.
-=== Commerson’s dolphins ===
+=== Commerson's dolphins ===
-[[File:Commdolph01.jpg|thumb|right|A Commerson's Dolphin in an aquarium.]]
+[[File:Commdolph01.jpg|thumb|right|A Commerson's dolphin in an aquarium]]
-The expanding trawl fisheries devastated the [[Commerson's dolphin]] (''Cephalorhynchus commersonii'') populations in [[Patagonia]]. Trawl fisheries greatly expanded for twenty years until they crashed in 1997.<ref name="Reeves (2005)" /> [[Pelagic zone|Pelagic]] [[squid]] [[fisheries]] took over which use [[Midwater trawling|pelagic trawls]] that are harmful to dusky, short-beaked common dolphins, and Commerson’s dolphins. There are approximately 21,000 Commerson’s dolphins remaining today.<ref name="Reeves (2005)" /> Two stocks have been identified in the population but [[Genetics|genetic]] information and bycatch levels are unknown. With [[anchovy]] fisheries expanding, it is imperative to assess the Commerson’s dolphin population before these fisheries grow. The seasonal operation of in-shore gillnet fisheries are known to involve bycatch of cetaceans. Presently, there are no known estimates of gillnet bycatch. The bycatch problem in [[Argentina]] is political in nature.<ref name="Reeves (2005)" /> Improvements in fishing technology, awareness, and a large scale survey of Commerson’s dolphin populations and the impact of bycatch is essential.
+The expanding trawl fisheries devastated the [[Commerson's dolphin]] (''Cephalorhynchus commersonii'') populations in [[Patagonia]]. Trawl fisheries greatly expanded for twenty years until they crashed in 1997.<ref name="Reeves (2005)" /> [[Pelagic zone|Pelagic]] [[squid]] [[fisheries]] took over, which use [[Midwater trawling|pelagic trawls]] that are harmful to both dusky, short-beaked common dolphins and Commerson's dolphins. There are approximately 21,000 Commerson's dolphins remaining today.<ref name="Reeves (2005)" /> Two stocks have been identified in the population, but genetic information and bycatch levels are unknown. With [[anchovy]] fisheries expanding, it is imperative to assess the Commerson's dolphin population before these fisheries grow. The seasonal operation of in-shore gillnet fisheries are known to involve bycatch of cetaceans. Presently, there are no known estimates of gillnet bycatch. The bycatch problem in [[Argentina]] is political in nature.<ref name="Reeves (2005)" /> Improvements in fishing technology, public awareness, and a large-scale survey of the impact of bycatch on Commerson's dolphin populations are essential.
 === La Plata dolphins ===
-The [[La Plata Dolphin|La Plata]] or Franciscana dolphin (''Pontoporia blainvillei'') is the most threatened small cetacean in the southwest [[Atlantic Ocean]] due to bycatch.<ref name="Reeves (2005)" /> They are only found in the coastal waters of [[Argentina]], [[Brazil]], and [[Uruguay]].<ref name="WWF (2004)" /> This species has been divided into four ranges (FMU’s: Franciscana Management Units) for management and conservation purposes. These populations are genetically different. Mortality rates are 1.6% for FMU 4 and 3.3% for FMU 3 but it is unknown whether these estimates are accurate.<ref name="Reeves (2005)" /> [[Aerial survey]]s have proven inconclusive so far as to the population numbers of franciscanas. To rectify this situation, more surveys are needed as well as political commitment, awareness campaigns and bycatch mitigation techniques.
+The [[La Plata dolphin|La Plata]] or Franciscana dolphin (''Pontoporia blainvillei'') is the most threatened small cetacean in the southwest [[Atlantic Ocean]] due to bycatch.<ref name="Reeves (2005)" /> They are only found in the coastal waters of [[Argentina]], [[Brazil]], and [[Uruguay]].<ref name="WWF (2004)" /> This species has been divided into four ranges (FMU's: Franciscana Management Units) for management and conservation purposes. These populations are genetically different. Mortality rates are 1.6% for FMU 4 and 3.3% for FMU 3, but it is unknown whether these estimates are accurate.<ref name="Reeves (2005)" /> [[Aerial survey]]s have proven inconclusive so far as to the population numbers of franciscanas. To rectify this situation, more surveys are needed as well as political commitment, awareness campaigns, and bycatch mitigation techniques.
 === Harbour porpoises ===
-There is substantial incidental catches in fishing operations.<ref name="Hammond (2002)">Hammond et al. (2002)</ref> Often, the [[Harbour Porpoise]] (''Phocoena phocoena'') is killed by incidental by-catch (10, 11, 12). Gillnets pose a serious threat to the harbour porpoise as they are extremely susceptible to entanglement.<ref name="Jefferson (1994)">Jefferson & Curry (1994)</ref> A study by Caswell et al.<ref name="Caswell (1998)">Caswell et al. (1998)</ref> in the western [[North Atlantic]] combined the mean annual rate of increase of the harbour porpoise with the uncertainty of [[incidental mortality]] and [[Population dynamics of fisheries#Population size|population size]]. It was found that the incidental mortality exceeds critical values and therefore by-catch is a significant threat to the harbour porpoise.<ref name="Caswell (1998)" /> Harbour porpoises become entangled in nets due to their inability to detect the nets before collision.<ref name="Kastelein (1999)">Kastelein et al. (1999)</ref> In 2001, 80 harbour porpoises were killed in [[salmon]] gillnet fisheries in [[British Columbia]], [[Canada]].
+There is substantial incidental catches in fishing operations.<ref name="Hammond (2002)">Hammond et al. (2002)</ref> Often, the [[harbour porpoise]] (''Phocoena phocoena'') is killed by incidental bycatch (10, 11, 12). Gillnets pose a serious threat to the harbour porpoise as they are extremely susceptible to entanglement.<ref name="Jefferson (1994)">Jefferson & Curry (1994)</ref> A study by Caswell et al.<ref name="Caswell (1998)">Caswell et al. (1998)</ref> in the western [[North Atlantic]] combined the mean annual rate of increase of the harbour porpoise with the uncertainty of [[incidental mortality]] and [[Population dynamics of fisheries#Population size|population size]]. It was found that the incidental mortality exceeds critical values, thus showing bycatch is a significant threat to the harbour porpoise.<ref name="Caswell (1998)" /> Harbour porpoises become entangled in nets due to their inability to detect the nets before collision.<ref name="Kastelein (1999)">Kastelein et al. (1999)</ref> In 2001, 80 harbour porpoises were killed in [[salmon]] gillnet fisheries in [[British Columbia]], [[Canada]].
 === Hector's and Maui's dolphins ===
 [[File:Hectors Dolphin.jpg|thumb|Hector's dolphins have a unique rounded dorsal fin.]]
-In [[New Zealand]], these dolphins have a high rate of entanglement. [[Hector's dolphin]]  (''Cephalorhynchus hectori'') is endemic to the coastal waters New Zealand and there are about 7,400 in abundance.<ref name="WWF (2004)" /> A small population of Hector’s dolphins is isolated on the west coast of the island and have been declared a subspecies called [[Maui's Dolphin]]. Maui's dolphins (''Cephalofhynchus hectori maui'') are often caught in set nets and [[Pair trawling|pair trawlers]] resulting in less than 100 left in the wild.<ref name="WWF (2004)" />  For protection, a section of the dolphin’s range on the west coast has been closed to gillnet fisheries.
+In [[New Zealand]], these dolphins have a high rate of entanglement. [[Hector's dolphin]] (''Cephalorhynchus hectori'') is endemic to the coastal waters of New Zealand and there are about 7,400 in abundance.<ref name="WWF (2004)" /> A small population of Hector's dolphins is isolated on the west coast of the island and have been declared a subspecies called [[Maui's dolphin]]. Maui's dolphins (''Cephalorhynchus hectori maui'') are often caught in set nets and [[Pair trawling|pair trawlers]] resulting in less than 100 left in the wild.<ref name="WWF (2004)" /> For protection, a section of the dolphin's range on the west coast has been closed to gillnet fisheries.
 === Indo-Pacific humpback and bottlenose dolphins ===
-[[Drift net|Drift]] and bottom-set [[gillnet]]s are the biggest conservation threat to these dolphins in the [[Indian Ocean]]. There have only been assessments in some areas, such as [[Zanzibar]]. Hunting, until 1996, reduced the population and contributed to its decline. Now hunting has been replaced with [[eco-tourism]]. It was estimated in 2001 that there are 161 [[bottlenose dolphins]] (''Tursiops aduncus'') and 71 Indo-Pacific [[Humpback Dolphin]] (''Sousa chinensis'') that are left based on photo-identification mark-recapture techniques.<ref name="Reeves (2005)" /> A study on bycatch revealed over 160 incidences of bycatch since 2000. Approximately 30% of bycatch is in drift and bottom-set gillnets.<ref name="Reeves (2005)" /> Mortality is about 8% and 5.6% for bottlenose and humpback dolphins respectively .<ref name="Reeves (2005)" /> The mitigation of bycatch is imperative for these species and eco-tourism.
+[[Drift net|Drift]] and bottom-set [[gillnet]]s are the biggest conservation threat to these dolphins in the [[Indian Ocean]]. There have only been assessments in some areas, such as [[Zanzibar]]. Hunting, until 1996, reduced the population and contributed to its decline. Now hunting has been replaced with [[eco-tourism]]. It was estimated in 2001 that there are 161 [[bottlenose dolphins]] (''Tursiops aduncus'') and 71 Indo-Pacific [[humpback dolphin]] (''Sousa chinensis'') remaining based on photo-identification mark-recapture techniques.<ref name="Reeves (2005)" /> A study revealed over 160 incidences of bycatch since 2000. Approximately 30% of bycatch is in drift and bottom-set gillnets.<ref name="Reeves (2005)" /> Mortality is about 8% and 5.6% for bottlenose and humpback dolphins, respectively .<ref name="Reeves (2005)" /> The mitigation of bycatch is imperative for these species and for eco-tourism.
 === Irrawaddy dolphins ===
+[[File:Irrawaddy dolphin-Orcaella brevirostris by 2eight.jpg|thumb|Irrawaddy dolphin]]
-Based on a survey in 2001, fewer than 70 [[Irrawaddy dolphin]]s (''Orcaella brevirostris'') left in the upper region of the [[Malampaya Sound]] in the [[Philippines]] and 69 individuals in the [[Mekong River]].<ref name="Reeves (2005)" /> They have been severely impacted by lift nets, and crab gear and they are critically endangered. It is estimated that mortality from bycatch may be greater than 4.5% in Malampaya Sound and 5.8% in the Mekong River.<ref name="Reeves (2005)" /> The population is declining dramatically. Current bycatch levels are unsustainable and bycatch reduction measures as well as long-term systematic monitoring are urgently required. The elimination of gillnets from areas of high use is needed and economic incentives need to be provided to the local people.
+Based on a survey in 2001, fewer than 70 [[Irrawaddy dolphin]]s (''Orcaella brevirostris'') remain in the upper region of the [[Malampaya Sound]] in the [[Philippines]] and only 69 individuals in the [[Mekong River]].<ref name="Reeves (2005)" /> They have been severely impacted by lift nets and crab gear, thus critically endangered. It is estimated that mortality from bycatch may be greater than 4.5% in Malampaya Sound and 5.8% in the Mekong River.<ref name="Reeves (2005)" /> The population is declining dramatically. Current bycatch levels are unsustainable, and bycatch reduction measures, as well as long-term systematic monitoring, are urgently required. The elimination of gillnets from areas of high use is needed, and economic incentives need to be provided to the local people.
-=== Spinner and Fraser’s dolphins ===
+=== Spinner and Fraser's dolphins ===
-[[File:Spinner dolphins.jpg|thumb|right|Spinner dolphins.]]
+[[File:Spinner dolphins.jpg|thumb|right|Spinner dolphins]]
-In the [[Philippines]], [[tuna]] [[driftnet]] [[fisheries]] have a substantial impact on the populations. One tuna fishery alone kills 400 [[Spinner Dolphin]] (''Stenella longirostris'') and [[Fraser's dolphin]]s (''Lagenodelphis hosei'') each year.<ref name="Reeves (2005)" /> Round-haul nets are an even greater concern with a bycatch of up to 3000 dolphins per year.<ref name="Reeves (2005)" /> Dolphins that are bycaught often end up as shark bait for [[longline fishing|longline]] fisheries. There is not enough data to conclude total bycatch for the Philippines. Initial assessment indicates that bycatch is not sustainable. Monitoring of dolphin populations and fisheries is urgently needed.
+In the [[Philippines]], [[tuna]] [[driftnet]] [[fisheries]] have a substantial impact on the populations. One tuna fishery alone kills 400 [[spinner dolphin|spinner dolphins]] (''Stenella longirostris'') and [[Fraser's dolphin]]s (''Lagenodelphis hosei'') each year.<ref name="Reeves (2005)" /> Round-haul nets are an even greater concern with a bycatch of up to 3000 dolphins per year.<ref name="Reeves (2005)" /> Dolphins that are bycaught often end up as shark bait for [[longline fishing|longline]] fisheries. There is not enough data to conclude the total bycatch for the Philippines. Initial assessment indicates that bycatch is not sustainable. Monitoring of dolphin populations and fisheries is urgently needed.
 === Yangtze River dolphins and finless porpoises ===
 [[File:Lipotes vexillifer.png|thumb|right|Illustration of a Baiji dolphin.]]
-The Yangtze River or [[Baiji]] dolphin (''Lipotes vexillifer'') is the most endangered cetacean and is only found in the [[Yangtze River]], [[China]]. A survey conducted in 1997 found only thirteen dolphins.<ref name="WWF (2004)" /> The Yangtze River [[finless porpoise]] (''Neophocaena phocaenoides asiaeorientalis'') also lives in the Yangtze River. Abundance has declined and there are fewer than 2000 dolphins left.<ref name="WWF (2004)" /> This may be due, in part, to the construction of the [[Three Gorges Dam]] which covers a significant amount of the dolphin’s habitat. Both species are often subject to entanglement in gillnets.
+The Yangtze River or [[Baiji]] dolphin (''Lipotes vexillifer'') is one of the most endangered cetaceans that is only found in the [[Yangtze River]], [[China]]. A survey conducted in 1997 found only thirteen dolphins.<ref name="WWF (2004)" /> A later survey in 2006 found no individuals in their former range, and as such, the species was declared [[functionally extinct]] - the first cetacean to become functionally extinct primarily due to bycatch (among other factors). However, there have been various sightings since then.<ref>{{Cite web |date=2009-07-09 |title="Extinct" white-flag dolphin spotted in Yangtze River |url=http://news.xinhuanet.com/english/2007-08/29/content_6627940.htm |access-date=2024-09-16 |archive-url=https://web.archive.org/web/20090709060701/http://news.xinhuanet.com/english/2007-08/29/content_6627940.htm |archive-date=2009-07-09 }}</ref><ref>{{Cite news |last=Phillips |first=Tom |date=2016-10-11 |title=China's 'extinct' dolphin may have returned to Yangtze river, say conservationists |url=https://www.theguardian.com/world/2016/oct/11/china-extinct-dolphin-returned-yangtze-river-baiji |access-date=2024-09-16 |work=The Guardian |language=en-GB |issn=0261-3077}}</ref><ref>{{Cite web |title=The Search for the Baiji |url=https://www.theworldofchinese.com/2019/02/the-search-for-the-river-goddess/ |access-date=2024-09-16 |website=The World of Chinese |language=en}}</ref><ref>{{Cite web |title=中华白鱀豚功能性灭绝十年后疑似重现长江，科考队称拍到两头_绿政公署_澎湃新闻-The Paper |url=https://m.thepaper.cn/wifiKey_detail.jsp?contid=1684992&from=wifiKey# |access-date=2024-09-16 |website=m.thepaper.cn}}</ref> The [[Yangtze finless porpoise|Yangtze River finless porpoise]] (''Neophocaena phocaenoides asiaeorientalis'') also lives in the Yangtze River. Abundance has declined; there are fewer than 2000 porpoises left.<ref name="WWF (2004)" /> This may be due, in part, to the construction of the [[Three Gorges Dam]], which covers a significant amount of the dolphin's natural habitat. Both species are often subject to entanglement in gillnets.
 === Vaquita ===
+[[File:Vaquita2 Olson NOAA crop2.jpg|thumb|A vaquita surfacing.]]
-The [[vaquita]] (''Phocoena sinus'') is highly endangered and is endemic to the upper [[Gulf of California]], [[Mexico]]. They are killed in both gillnets and trawl nets from [[Commercial fishing|commercial]] and [[Artisan fishing|artisanal fishing]]. As of 2004 there are less than 100 vaquitas left in the Gulf of California.<ref name="WWF (2004)" />
+The [[vaquita]] (''Phocoena sinus'') is the smallest and most endangered cetacean. Endemic to the upper [[Gulf of California]]<nowiki/>in [[Mexico]], they are killed in both gillnets and trawl nets from [[Commercial fishing|commercial]] fishing and [[poaching]]. The vaquita shares its habitat with the [[totoaba]] (''Totoaba macdonaldi''')''''', a highly valued fish in [[Black market|black markets]] due to the [[Traditional Chinese medicine|perceived medicinal value]] of its [[swim bladder]].<ref>{{Cite web |last=Stickney • • |first=R. |date=2013-04-24 |title=Multi-Million Dollar Fish Bladder Factory Uncovered in Calexico |url=https://www.nbcsandiego.com/news/local/totoaba-smuggling-san-diego-fish-bladder-factory-uncovered-calexico/2057730/#ixzz2RYWZ9VDD |access-date=2024-09-16 |website=NBC 7 San Diego |language=en-US}}</ref> As of 2024, there are less than 8 individuals left in the Gulf of California, making the species [[Functional extinction|functionally extinct]] similar to the baiji.<ref name="WWF (2004)" /><ref>{{Cite web |last=devon11 |date=2024-06-11 |title=Vaquita Survey 2024 - Executive Summary |url=https://seashepherd.org/2024/06/11/executive_summary/ |access-date=2024-09-16 |website=Sea Shepherd Conservation Society |language=en-US}}</ref>
 == Mitigating bycatch ==
 === Acoustic deterrent devices ===
-The use of acoustic alarms to mitigate by-catch and also to protect aquaculture sites has been proposed but has advantages and risks associated with the alarms. [[Acoustic deterrent devices]], or pingers, have reduced the number of cetaceans caught in gill nets. Harbour porpoises have been effectively excluded from bottom-set gill nets during many experiments for instance in the [[Gulf of Maine]],<ref name="Kraus (1997)">Kraus et al. (1997)</ref> along the [[Olympic Peninsula]],<ref name="Gearin (2000)">Gearin et al. (2000)</ref> in the [[Bay of Fundy]],<ref name="Trippel (2003)">Trippel et al. (2003)</ref> and in the [[North Sea]].<ref name="Larsen (1997)">Larsen (1997)</ref> All of these studies show up to a 90% decrease in harbour porpoise bycatch. Pingers work because they produce a sound that is aversive (20; 15).  There has been a recent re-evaluation of the potential of pingers<ref name="Reeves (1996)">Reeves et al. (1996)</ref> and their use in other fisheries due to their growing success.
+The use of acoustic alarms to mitigate by-catch and to protect aquaculture sites has been proposed. [[Acoustic deterrent devices]], or pingers, have reduced the number of cetaceans caught in gill nets. Harbour porpoises have been effectively excluded from bottom-set gill nets during many experiments for instance in the [[Gulf of Maine]],<ref name="Kraus (1997)">Kraus et al. (1997)</ref> along the [[Olympic Peninsula]],<ref name="Gearin (2000)">Gearin et al. (2000)</ref> in the [[Bay of Fundy]],<ref name="Trippel (2003)">Trippel et al. (2003)</ref> and in the [[North Sea]].<ref name="Larsen (1997)">Larsen (1997)</ref> All of these studies show up to a 90% decrease in harbour porpoise bycatch. Pingers work by producing a sound that is aversive to the cetaceans (20; 15). There has been a recent re-evaluation of the potential benefit of pingers,<ref name="Reeves (1996)">Reeves et al. (1996)</ref> and their use in other fisheries has expaneded due to their growing success.
-An experiment on the [[California]] drift gill net fishery demonstrated how acoustic pingers reduce marine mammal bycatch.<ref name="Barlow (2003)">Barlow & Cameron (2003)</ref> It was shown that bycatch was significantly reduced for common dolphins and [[sea lion]]s. Bycatch rates were also lower for other cetacean species like the [[Northern right whale dolphin]], [[Pacific white-sided dolphin]], [[Risso’s dolphin]] and [[Dall's Porpoise]]. It is agreed upon that the more pingers on a net, the less bycatch. There was a 12-fold decrease in common dolphin entanglement using a net with 40 pingers.<ref name="Barlow (2003)" />
+An experiment on the [[California]] drift gill net fishery demonstrated how acoustic pingers reduce marine mammal bycatch.<ref name="Barlow (2003)">Barlow & Cameron (2003)</ref> It showed that bycatch was significantly reduced for common dolphins and [[sea lion]]s. Bycatch rates were also lower for other cetacean species, such as the [[Northern right whale dolphin]], [[Pacific white-sided dolphin]], [[Risso's dolphin]], and [[Dall's porpoise]]. It is agreed upon that the more pingers on a net, the less bycatch. There was a 12-fold decrease in common dolphin entanglement using a net with 40 pingers.<ref name="Barlow (2003)" />
-However, the widespread use of pingers along [[coastline]]s effectively excludes cetaceans such as porpoises from prime [[habitat]] and resources.<ref name="Culik (2001)">Culik et al. (2001)</ref> Cetaceans which are extremely sensitive to noise are effectively being driven from their preferred coastal habitats by the use of acoustic devices. In poorer quality habitat, harbour porpoises are subjected to increased competition for resources. This situation is recognized as range contraction which can be a result of [[climate change]], [[human impact on the environment|anthropogenic]] activity, or [[Population dynamics of fisheries|population]] decline. Large scale range contractions are considered indicative of impending [[extinction]].<ref name="Boughton (2005)">Boughton et al. (2005)</ref> A similar form of deterrent is noise pollution originating from vessel traffic.
+However, the widespread use of pingers along [[coastline]]s effectively excludes cetaceans such as porpoises from their prime [[habitat]] and resources.<ref name="Culik (2001)">Culik et al. (2001)</ref> Cetaceans, extremely sensitive to noise, are effectively driven from their preferred coastal habitats by the use of these acoustic devices. In poorer quality habitats, harbour porpoises are subjected to increased competition for resources. This situation is recognized as range contraction, which can be a result of [[climate change]], [[human impact on the environment|anthropogenic]] activity, or [[Population dynamics of fisheries|population]] decline. Large-scale range contractions are considered indicative of impending [[extinction]].<ref name="Boughton (2005)">Boughton et al. (2005)</ref> A similar form of deterrent is noise pollution originating from vessel traffic.
 === Barium sulfate ===
-A promising [[gillnet]] that is effective in reducing bycatch for [[harbor porpoise]]s contains [[barium sulfate]].  These nets are detected at a greater distance than conventional nets because the barium sulfate reflects the [[Animal echolocation|echolocation]] signal, and also renders the nets more visible.  Barium sulfate makes the nets stiffer if it is added at high concentration. All three factors: echo reflectivity, stiffness, and visibility may be important in reducing bycatch.<ref>Mooney et al (2004)</ref><ref>Mooney et al (2007)</ref> Fish takes in the [[Bay of Fundy]] were normal, except for haddock takes, which were down by 3-5%.<ref>Trippel et al (2008)</ref>   The advantage of this approach is that it is passive and thus does not require batteries, and there is no “dinner bell" effect. The potential advantage of these nets is greatest in the [[Artisan fishing|artisanal fishery]]. [[NOAA]] would like further testing to verify the effectiveness of the nets.
+A promising [[gillnet]] that is effective in reducing bycatch for [[harbor porpoise]]s contains [[barium sulfate]]. These nets are detected at a greater distance than conventional nets because the barium sulfate reflects the cetaceans' [[Animal echolocation|echolocation]] signal, thus rendering the nets more detectable by these animals. Barium sulfate makes the nets stiffer if it is added at high concentration. All three factors - echo reflectivity, stiffness, and visibility - may be important in reducing bycatch.<ref>Mooney et al (2004)</ref><ref>Mooney et al (2007)</ref> Echo reflectivity appears to depend on particle size, not density. The denser iron oxide produced no reduction in bycatch. Fish takes in the [[Bay of Fundy]] were normal, except for haddock takes, which were down by 3-5%.<ref>Trippel et al (2008)</ref> The advantage of this approach is that it is passive and thus does not require batteries, and there is no "dinner bell" effect. The potential advantage of these nets is greatest in the [[Artisan fishing|artisanal fishery]]. [[NOAA]] is planning further testing to verify the effectiveness of the nets.
 === Fishing regulations and management ===
-Management and regulation are lacking in many [[fisheries]] today. [[Fisheries management|Management measures]] are urgently needed to monitor fisheries (and [[Illegal, unreported and unregulated fishing|illegal fisheries]]) to protect cetaceans. Efforts to document bycatch should focus on [[Gillnet|gill-net]] fisheries because cetaceans are more likely to be caught in gill-nets. Conservation efforts should be directed to areas where marine mammal bycatch is high but where no infrastructure exists to assess the impact.<ref name="Read (2006)" /> There is a lack of reporting on a global scale of cetacean bycatch.
+Management and regulation are severely lacking in many [[fisheries]] today. [[Fisheries management|Management measures]] are urgently needed to monitor fisheries (and [[Illegal, unreported and unregulated fishing|illegal fisheries]]) to protect cetaceans. Efforts to document bycatch should focus on [[Gillnet|gill-net]] fisheries, because cetaceans are more likely to be caught in gill-nets. Conservation efforts should be directed to areas where marine mammal bycatch is high but where no infrastructure exists to assess the impact.<ref name="Read (2006)" /> In general, there is a lack of reporting on a global scale of cetacean bycatch.
-In the U.S. the [[Marine Mammal Protection Act of 1972|Marine Mammal Protection Act]] prohibits the use and sale of marine mammals captured by fisheries.<ref name="Read (2006)" /> Similar legislation prohibits the use and sale of marine mammals in other countries. A marine mammal mortality monitoring program for commercial fisheries occurs in the U.S. where “Take Reduction Teams" observe the extent of bycatch and then formulate strategies to reduce bycatch and Take Reduction Plans are put into place.<ref name="Read (2006)" />
+In the U.S., the [[Marine Mammal Protection Act of 1972|Marine Mammal Protection Act]] prohibits the use and sale of marine mammals captured by commercial fisheries.<ref name="Read (2006)" /> Similar legislations prohibit the use and sale of marine mammals in other countries. A marine mammal mortality monitoring program for commercial fisheries is operating in the U.S., where "Take Reduction Teams" observe the extent of bycatch and then formulate strategies to reduce bycatch, with "Take Reduction Plans" put into place.<ref name="Read (2006)" />
 === Temporary closure ===
-Temporary closure of fisheries during the short period of the year when cetaceans are migrating through the area would decrease bycatch significantly.<ref>Murray et al.(2000)</ref>
+As another potential mitigation measure, temporary closure of fisheries during the short periods of the year when cetaceans are migrating through the area would significantly decrease bycatch.<ref>Murray et al.(2000)</ref>
 === Observers on boat ===
-[[Fisheries observer|Observers]] are on [[fishing vessel]]s spoting cetaceans in the water so that they can be avoided.<ref>Animal Freedom (2008)</ref>
+Another mitigation measure is to use [[Fisheries observer|observers]] on [[fishing vessel]]s to spot cetaceans in the water in order to avoid bycatch.<ref>Animal Freedom (2008)</ref>
 ==== In the U.S. ====
-Some programs like [[Earth Island Institute]]’s [[Dolphin Safe Label]] certification claim to require certification from onboard observers. However, the only fishery in the world where independent scientific observers certify whether or not a dolphin has been harmed is the Eastern Tropical Pacific, home to the AIDCP Treaty program. For all other tuna fisheries of the world, the efficacy of onboard observer certification has come under increasing scrutiny as such programs have proven indefensible or unmanageable:
+Some programs like [[Earth Island Institute]]'s [[Dolphin Safe Label]] certification claim to require certification from onboard observers. However, the only fishery in the world where independent scientific observers certify whether a dolphin has been harmed is the Eastern Tropical Pacific, home to the AIDCP Treaty program. For all other tuna fisheries of the world, the efficacy of onboard observer certification has come under increasing scrutiny as such programs have proven indefensible or unmanageable:
-<ref>{{cite web | title = The fairy tale of US "dolphin safe" labeling False claims, unintended consequences | url =  http://ictsd.org/downloads/2012/07/dolphin-safe-fairy-tale.pdf | date = July 1, 2012 | accessdate = January 9, 2014}}</ref>
+<ref>{{cite web | title = The fairy tale of US "dolphin safe" labeling False claims, unintended consequences | url =  http://ictsd.org/downloads/2012/07/dolphin-safe-fairy-tale.pdf | date = July 1, 2012 | access-date = January 9, 2014}}</ref>
-''In an interview with Radio Australia last year, Mark Palmer of EII confirmed that it is mostly the case that EII monitors do not go on board of the vessels, and their organization does not have the kind of resources to put observers on the “many thousands" of ships that are out there catching tuna.<ref>{{cite web|title=EII On-board Observers, Ghosts? |url=http://pna.atuna.com/ViewArticle.asp?ID=13501 |date=July 1, 2012 |accessdate=January 9, 2014 |deadurl=yes |archiveurl=https://web.archive.org/web/20140107212232/http://pna.atuna.com/ViewArticle.asp?ID=13501 |archivedate=January 7, 2014 |df= }}</ref>''
+''In an interview with Radio Australia last year, Mark Palmer of EII confirmed that it is mostly the case that EII monitors do not go on board of the vessels, and their organization does not have the kind of resources to put observers on the "many thousands" of ships that are out there catching tuna.<ref>{{cite web|title=EII On-board Observers, Ghosts? |url=http://pna.atuna.com/ViewArticle.asp?ID=13501 |date=July 1, 2012 |access-date=January 9, 2014 |url-status=dead |archive-url=https://web.archive.org/web/20140107212232/http://pna.atuna.com/ViewArticle.asp?ID=13501 |archive-date=January 7, 2014 }}</ref>''
-Additionally, environmental groups have criticized Earth Island Institute’s support of U.S. policies that do not require independent, on-board observation and instead only rely on self-certification by fishing captains, and that even where they may at some point in the future require independent observers, the lack of uniformity in tracing and verifying certifications in different countries means non-certified products can become certified if they are simply taken to the right port.<ref>{{cite web | title = Trade Dispute With Mexico Over 'Dolphin-Safe' Tuna Heats Up | url =  https://www.npr.org/2013/10/03/228941329/trade-dispute-with-mexico-over-dolphin-safe-tuna-heats-up | date = July 1, 2012 | accessdate = January 9, 2014}}</ref>
+Additionally, environmental groups have criticized Earth Island Institute's support of U.S. policies that do not require independent, on-board observation and instead only rely on self-certification by fishing captains. Even if there is a requirement of independent observers, the lack of uniformity in tracing and verifying certifications in different countries implies that non-certified products can still become certified if they are taken to a different port.<ref>{{cite news |date=July 1, 2012 |title=Trade Dispute With Mexico Over 'Dolphin-Safe' Tuna Heats Up |url=https://www.npr.org/2013/10/03/228941329/trade-dispute-with-mexico-over-dolphin-safe-tuna-heats-up |archive-url=https://web.archive.org/web/20140107204454/https://www.npr.org/2013/10/03/228941329/trade-dispute-with-mexico-over-dolphin-safe-tuna-heats-up |archive-date=2014-01-07 |access-date=January 9, 2014 |newspaper=NPR.org}}</ref>
 === Other ways of mitigating bycatch ===
-*Implement gear technology (changes in [[fishing tackle|fishing gear]] and practices) documented to mitigate cetacean bycatch<ref>{{cite journal|last=Gilman|first=E|author2=Brothers, N |author3=McPherson, G |author4=Dalzell, P |title=Review of cetacean interactions with longline gear|journal=Journal of Cetacean Research and Management|year=2006|volume=8|issue=2|pages=215–223|display-authors=etal}}</ref>
+*Implementing gear technology (changes in [[fishing tackle|fishing gear]] and practices) was documented to mitigate cetacean bycatch.<ref>{{cite journal|last=Gilman|first=E|author2=Brothers, N |author3=McPherson, G |author4=Dalzell, P |title=Review of cetacean interactions with longline gear|journal=Journal of Cetacean Research and Management|year=2006|volume=8|issue=2|pages=215–223|doi=10.47536/jcrm.v8i2.717|s2cid=83811349|display-authors=etal|doi-access=free}}</ref>
-*Buy tuna and other seafood that has a [[dolphin safe label]].
+*Buying tuna and other seafood that has a [[dolphin safe label]].
-*Buy [[Sustainable seafood]]. To find out which seafood is produced sustainably (i.e. using cetacean friendly gear), refer to World Wildlife Fund Global to access worldwide sustainable seafood guides<ref>[http://wwf.panda.org/what_we_do/how_we_work/conservation/marine/sustainable_fishing/sustainable_seafood/seafood_guides/ "Sustainable Seafood: Consumer Guides"], ''World Wildlife Fund Global'' 2013</ref>
+*Buying [[Sustainable seafood]].<ref>[http://wwf.panda.org/what_we_do/how_we_work/conservation/marine/sustainable_fishing/sustainable_seafood/seafood_guides/ "Sustainable Seafood: Consumer Guides"], ''World Wildlife Fund Global'' 2013</ref>
-*Support sustainable seafood companies and restaurants<ref>[http://www.montereybayaquarium.org/cr/cr_seafoodwatch/sfw_consumers.aspx "Seafood Watch"] {{webarchive |url=https://web.archive.org/web/20130119092951/http://www.montereybayaquarium.org/cr/cr_seafoodwatch/sfw_consumers.aspx |date=January 19, 2013 }}, ''Monterey Bay Aquarium'' 2013</ref>
+*Supporting sustainable seafood companies and restaurants.<ref>[http://www.montereybayaquarium.org/cr/cr_seafoodwatch/sfw_consumers.aspx "Seafood Watch"] {{webarchive |url=https://web.archive.org/web/20130119092951/http://www.montereybayaquarium.org/cr/cr_seafoodwatch/sfw_consumers.aspx |date=January 19, 2013 }}, ''Monterey Bay Aquarium'' 2013</ref>
-*Raise international awareness to assess, monitor and mitigate bycatch problems<ref name="Fishing Technology Service (2008)">Fishing Technology Service (2008)</ref>
+*Raising international awareness to assess, monitor, and mitigate bycatch problems.<ref name="Fishing Technology Service (2008)">Fishing Technology Service (2008)</ref>
-*Create legislation on responsible fishing practices.<ref name="Fishing Technology Service (2008)" />
+*Creating legislation on responsible fishing practices.<ref name="Fishing Technology Service (2008)" />
-*Develop and promote industry adoption of "Best Practice Guidelines" for fishing operations<ref name="Fishing Technology Service (2008)" />
+*Developing and promote industry adoption of "Best Practice Guidelines" for fishing operations.<ref name="Fishing Technology Service (2008)" />
 == References ==
@@ Line 105: / Line 107: @@
 *Animal Freedom (2008) [http://www.animalfreedom.org/english/information/bycatch.html ''Cetacean Bycatch'']
 *Barlow, J & Cameron, GA (2003). ''Field experiments show that acoustic pingers reduce marine mammal bycatch in the Californian drift gill net fishery.'' Marine Mammal Science. 19: 265-283.
-* Boughton, DA, Fish, H, Pipal, K, Goin, J, Watson, F, Casagrande, J, and M Stoecker (2005). ''Contraction of the southern range limit for anadromous Oncorhynchus mykiss.'' NOAA Technical Memorandum NMFS. NOAA-TM-NMFS-SWFSC-380. U.S. Department of Commerce.
+* Boughton, DA, Fish, H, Pipal, K, Goin, J, Watson, F, Casagrande, J, and M Stoecker (2005). ''[https://repository.library.noaa.gov/view/noaa/3433 Contraction of the southern range limit for anadromous Oncorhynchus mykiss].'' NOAA Technical Memorandum NMFS. NOAA-TM-NMFS-SWFSC-380. U.S. Department of Commerce.
 * Caswell, H, Brault, S, Read, AJ, and TD Smith (1998). ''Harbour porpoise and fisheries: an uncertain analysis of incidental mortality.'' Ecological Applications. 8(4): 1226–1238.
 * Culik, BM, Koschinski, S, Tregenza, N, and GM Ellis (2001). ''Reactions of harbour porpoises Phocoena phocoena and herring Clupea harengus to acoustic alarms.'' Marine Ecology Progress Series. 211: 155-260.
 * Demaster, DJ, Fowler, CW, Perry, SL, and ME Richlen (2001). ''Predation and competition: the impact of fisheries on marine mammal populations over the next one hundred years.'' Journal of Mammalogy. 82: 641-651.
-* Fishing Technology Service (2008) [ftp://ftp.fao.org/FI/brochure/REBYC/next_level/brochure.pdf ''Managing bycatch and reducing discards: Taking it to the next level'']
+* Fishing Technology Service (2008) [https://web.archive.org/web/20170518211942/ftp://ftp.fao.org/FI/brochure/REBYC/next_level/brochure.pdf ''Managing bycatch and reducing discards: Taking it to the next level'']
 * Gearin, PJ, Gosho, ME, Laake, JL, Cooke, L, DeLong, R, and KM Hughes (2000). ''Experimental testing of acoustic alarms (pingers) to reduce bycatch of harbor porpoise, Phocoena phocoena, in the state of Washington.'' Journal of Cetacean Research and Management. 2:1-9.
 * Hammond, PS, Berggren, P, Benke, H, Borchers, DL, Collet, A, Heide-Jorgensen, MP, Heimlich, S, Hiby, AR, Leopold, MF, and N Oien (2002). ''Abundance of harbour porpoise and other cetaceans in the North Sea and adjacent waters.'' Journal of Applied Ecology. 39: 361-376.
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 * Larsen, F (1997). ''Effekten af akustiske alarmer pa bifangst as marsvin i garn.'' Report number 44-97 (unpublished). Available from the Danish Institute for Fisheries Research, Jaegersborgvei 64-66, DK- 2800&nbsp;kg. Lyngby, Denmark.
 * Miragliuolo, A, Mussi, B, and G Bearzi (2002). ''Observations of driftnetting off the island of Ischia, Italy, with indirect evidence of dolphin bycatch.'' European Cetacean Research. 4pp.
-* Monterey Bay Aquarium (2013) [http://www.montereybayaquarium.org/cr/seafoodwatch.aspx ''Seafood Watch'']
+* Monterey Bay Aquarium (2013) [http://www.montereybayaquarium.org/cr/seafoodwatch.aspx ''Seafood Watch''] {{Webarchive|url=https://web.archive.org/web/20130225063250/http://www.montereybayaquarium.org/cr/seafoodwatch.aspx |date=2013-02-25 }}
-* Mooney, TA, Nachtigall, P and Au, WWL, (2004). [http://www.ingentaconnect.com/content/eaam/am/2004/00000030/00000002/art00002%3Bjsessionid=21191h4mj7h3.alexandra "Target strength of a nylon monofilament and an acoustically enhanced gillnet: predictions of biosonar detection ranges."] ''Aquat. Mamm.'', '''30''': 220-26.
+* {{cite journal|author1=Mooney, TA|author2=Nachtigall, P|author3=Au, WWL|year=2004|doi=10.1578/AM.30.2.2004.220|title=Target strength of a nylon monofilament and an acoustically enhanced gillnet: predictions of biosonar detection ranges|journal=Aquatic Mammals|volume=30|issue=2 |pages=220–26}}
-* Mooney, TA, Au, WWL, Nachtigall, P, and Trippel, EA (2007). [http://icesjms.oxfordjournals.org/cgi/content/full/64/7/1324 "Acoustic and stiffness properties of gillnets as they relate to marine mammal bycatch."] ''ICES J. Mar. Sci.'', '''64''': 1324–32.
+* Mooney, TA, Au, WWL, Nachtigall, P, and Trippel, EA (2007). [https://archive.today/20120711083800/http://icesjms.oxfordjournals.org/cgi/content/full/64/7/1324 "Acoustic and stiffness properties of gillnets as they relate to marine mammal bycatch."] ''ICES J. Mar. Sci.'', '''64''': 1324–32.
 * Murray, KT, Read, AJ, and AR Solow. 2000. ''The use of time/area closures to reduce bycatches of harbour porpoises: lessons from the Gulf of Maine sink gillnet fishery.'' Journal of Cetacean Research and Management. 2(2): 135-141.
 * Read, AJ, Drinker, P, and S Northridge (2006). ''Bycatch of marine mammals in the U.S. and Global Fisheries.'' Conservation Biology. 20(1): 163-169.
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 == External links ==
 {{external media
-|align=center
+|float=center
 |width=300px
 |video1=[https://www.youtube.com/watch?v=eG0cWYsfvKo Saving a humpback whale from fisherman's nets] – ''YouTube''
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 *[http://www.snopes.com/critters/crusader/whalethanks.asp Newspaper article describes an ensnared whale who seemingly thanked her rescuers]
 *[http://www.worldwildlife.org/news/displayPR.cfm?prID=203 Scientists rank endangered dolphins and porpoises most in need of immediate action]
-*[http://www.greenpeace.org.uk/media/reports/cetacean-bycatch-and-pelagic-trawling A WWF Press Release about bycatch]
+*[https://web.archive.org/web/20110520235342/http://www.greenpeace.org.uk/media/reports/cetacean-bycatch-and-pelagic-trawling A WWF Press Release about bycatch]
 *[http://www.animalfreedom.org/english/information/bycatch.html A cetacean bycatch web page by Animal Freedom]
 *[http://www.ens-newswire.com/ens/jul2002/2002-07-24-06.asp New project will tackle whale entanglement, article by Environmental News Service]