Cuvier's beaked whale explained

Cuvier's beaked whale, goose-beaked whale, or ziphius (Ziphius cavirostris) is the most widely distributed of all beaked whales in the family Ziphiidae.[1] It is smaller in size than most baleen whales—and indeed the larger toothed cetaceans (like orca and sperm whales)—yet it is large among the beaked whales and smaller cetaceans, appearing somewhat like a bigger and stockier bottlenose dolphin. Cuvier's beaked whale is pelagic, generally inhabiting waters deeper than, though it has been observed closer to shore on occasion. In these offshore waters, Cuvier's beaked whale executes some of the deepest, longest recorded dives among whales, and extant mammals, at, for 222 minutes. While likely diving to forage and hunt prey, such as cephalopods, and potentially evade predators (like the aforementioned orca), the frequency and exact reason for these extraordinary dives is unclear.[2] [3] Despite its deepwater habitat, it is one of the most frequently-spotted beaked whales when surfacing.[4]

Cuvier's beaked whale was named Ziphius cavirostris by Georges Cuvier based on a skull fragment which he believed to be a fossil from an extinct species.[5] He reused the genus name Ziphius from an undetermined species mentioned by historical sources.[6] The species name, cavirostris, comes from the Latin Latin: [[:wikt:cavus|cavus]] ("hollow") and Latin: [[:wikt:rostrum|rostrum]] ("beak"), and refers to the bony cavity of the nares (nasal bones), now known as the prenarial basin. This feature is now known to be unique to male Z. cavirostrus.[7]

Taxonomy

French naturalist and zoologist Georges Cuvier first described the species in Recherches sur les ossements fossiles ("Research on Fossil Bones", 1823)[8] based on a skull collected on the Mediterranean coast of France at Fos-sur-mer, Bouches-du-Rhône, in 1804. He named it Ziphius cavirostris from the Latin cavus for "hollow", or "concave", referring to the prenarial basin, a deep hollow in the skull which is now known from only the males of the species.[5] [7] Cuvier believed the skull represented the remains of an extinct species, and chose the genus name Ziphius to reflect another previously-undetermined species mentioned by historical authors.[8] Later, in 1850, paleontologist and zoologist Paul Gervais found the skull to be identical to that of a stranded (beached) whale carcass he had just examined.[9]

Cuvier's beaked whale is one of 22 species in the family Ziphiidae, and the only extant member of the genus Ziphius, with the other member being the extinct Ziphius compressus.[10] [11] Uniquely, no other species of ziphiid cetacean develops such dense rostral ossification of its prenarial basin.[5]

Description

The body of Cuvier's beaked whale is robust and cigar-shaped, similar to those of other beaked whales, and can be difficult to distinguish from many of the mesoplodont whales at sea. Males and females tend to be similar in size.The body of adult males is typically a dark gray, with their head being distinctly lighter, or even white. This light coloration extends along the posterior. Females vary in color from dark gray to a reddish-brown. The skin lightens on female's head to a lesser extent than in males, and does not extend along the posterior.[12] [13]

Sex determination in Cuvier’s beaked whales can be on the basis of genetics, observation of the genital area, the presence or absence of erupted teeth in adults, or presence of a calf. Pigmentation patterns can also give indications of gender. Adult males show a contrasted uniform white cape which usually extends to the dorsal fin zone. Individual coloration in adult males varies from dark to almost white. However, more than a third of adult females show "sharp" pigmentation patterns similar to adult males. Therefore males and females of this pattern cannot be distinguished using pigmentation pattern alone. The majority of adult females show a “soft” cluster of pigmentation features characterized by a brownish coloration and a shorter contrasting white cape. However, similar patterns have been observed in subadult animals of both sexes, so a "soft" pigmentation pattern alone is insufficient evidence to conclude that an animal is female.[14]

Cuvier's beaked whales at birth have a weight about and a length of . Calves are black or dark blue with a white belly. Females reach maturity at an average length of and males at, weighing about 2 to 3.5 tons.[15]

Cuvier's beaked whale is an odontocete — or toothed whale. Erupted teeth are only present in the adult males.[13] Males also develop two tusks in the right and left corners of their lower jaw. The tusks are possibly used for dueling between the males, though it has not been observed, but may also be used for fighting off threats such as orcas. Adults have many scars along their sides which can be used to identify individuals. The scars are thought, by researchers, to be from battles with males, predators, fights with squid, or cookiecutter sharks, which may score them or punch holes directly in their sides.[16] The frequency of scarring is higher in males than in females, and tends to increase with age.[13]

Their head is short and blunt, with a gradually sloping forehead, a small, poorly defined beak, and a slight melon. All the beaked whales have this general appearance, but Cuvier's beaked whale has a blunt shorter beak that distinguishes Cuvier's beaked whale from others in the family Ziphiidae. In profile, their small, softly defined rostrum gives them the nickname or alternative name of goose-beaked whale.[17]

Ecology

Diving

Satellite-linked tags have been used to track and study whale movement, with associated data suggesting that Cuvier's beaked whale follows a stereotypical dive pattern, often to a depth exceeding 800m (2,600feet). These dives, likely to be hunting expeditions, may last from 15 to 30 minutes, though sometimes considerably longer, before re-ascending for oxygen replenishment. They typically only surface for air fleetingly (2 to 8 min), perhaps in an effort to evade orcas or great white sharks; however, infrequently, the species will spend extended periods at the surface (30 to 310 min). Deep dives are followed by several shorter, shallower dives. Diving behavior shows little diel variation.[18]

Cuvier's beaked whale holds the records for both the deepest and the longest dives ever documented for any mammal;[19] in 2014, scientists reported that Cuvier's beaked whale, off the coast of California, dove to 9816feet below the ocean's surface, becoming the deepest documented dive for any mammal.[2] [20] [21] A study in 2020 reported Cuvier's beaked whale making a dive that lasted 222 minutes, the longest dive ever documented for any mammal.[3] [22] Supervising scientist Nicola Hodgkins noted that "the recorded dive-time of more than three hours is likely not typical, and instead the result of an individual pushed to its absolute limits".[22]

Like the similarly deep-diving sperm whales, it is possible that Cuvier's beaked whales have evolved modifications to their cardiovascular, metabolic, nervous and respiratory systems, among other adaptations, that enable them to make deep dives beyond their predicted aerobic capacity.[23] [24] Considering the species' ability to dive to almost 10000feet, and remain underwater for over two hours, at times, there are suggestions that they may likely be able to collapse or flatten their rib cage, and possibly their heart, lungs or other organs, while simultaneously decreasing their heart rate while at-depth.[25] They have been observed making a leaping flourish when entering a dive into the pelagic depths.

During shallow dives, Cuvier's beaked whales tend to be silent, possibly to avoid predators. Past 200m (700feet), they use echolocation as a hunting aid.[18] Exposure to high-frequency noises from anthropogenic sources, such as Navy sonar or explosives testing, appears to disrupt their behavior and has been linked to multiple mass stranding events, affecting hundreds of beaked whales.[5] [22]

Food and foraging

Relatively little is known of the diving and feeding behavior of Cuvier’s beaked whales. There is evidence that Cuvier's beaked whales make highly coordinated foraging dives in small social groups. Such behavior may reduce predation risk; it does not appear to affect the whales' foraging success.[26] [27]

It appears that Cuvier's beaked whale prefers diving deep and using a suction process to acquire fish. Diving deep to catch prey, Cuvier's beaked whales open their jaws, expand their throat and move their tongue in a way that creates a pressure change and sucks their prey, like squid and deep sea fish, directly into their mouths.[28] This species possess throat pleats, somewhat like a rorqual, that allows its throat to expand, presumably aiding in generating a stronger suction force.[29] Like a dolphin, it appears to wear a permanent smile due to its jaw structure.[4]

The "melon" of the whale, the bump on top of its head, contains its organ for echolocation.[30] [31] This means the whale can use sound waves to locate potential sources of food, which is helpful in the deep sea, where there is no sunlight. This deep diving with echolocation seems to help Cuvier's beaked whales avoid competition for their prey.

Scientists have used beached specimens to study the whale's eating habits via stomach analysis.[32] Examining Pacific Ocean whales, they found that cephalopods made up 98.0% (by number) and 87.7% (by mass) of Cuvier's beaked whale diet. Among these were at least 37 varieties of squid, of many different sizes, with both mesopelagic and bathypelagic squid.[33] Prey of Cuvier’s beaked whales include Cranchiidae, Onychoteuthidae, Brachioteuthidae, Enoploteuthidae, Octopoteuthidae, and Histioteuthidae, as well as deep-sea fish.[34]

Comparing the stomachs of the whales found in the Pacific Ocean to those found in the Mediterranean found that the Mediterranean whales predominantly ate squid from a 1,000 to 2,000-foot level, whereas in the Pacific, the whales found in Monterey, California in 2015, Taiwan in 1995, Alaska, and Baja California had access to much deeper water.

As well as catching prey in the benthopelagic zone, they consumed a mixture of crustaceans and cephalopods further down in the bathypelagic zone. Molluscs and octopus only found in these deep-sea regions are also sometimes eaten in the bathypelagic zone.A whale retrieved in Monterey in 2015 was observed to have eaten 200 squids, five fish, and one very deep-sea shrimp. The shrimp and most of the squid were seemingly bathypelagic, and the fish were giant grenadiers off the benthopelagic ocean bottoms.[32]

Range and habitat

Cuvier's has a cosmopolitan distribution in deep, offshore waters from the tropics to the cool, temperate seas. In the North Pacific, it occurs as far north as the Aleutians and in the North Atlantic as far north as Atlantic Canada in the west to Shetland in the east. In the Southern Hemisphere, it occurs as far south as Tierra del Fuego, South Africa, southern Australia, New Zealand, and the Chatham Islands. It also frequents such inland bodies of waters as the Gulfs of Mexico and the Caribbean and Mediterranean Seas.[35] The Mediterranean population might be genetically distinct from the North Atlantic population(s).[36]

Cuvier's beaked whale may be one of the most common and abundant of the beaked whales, with a worldwide population likely well over 100,000. An estimated 80,000 are in the eastern tropical Pacific, nearly 1,900 are off the west coast of the United States (excluding Alaska), and more than 15,000 are off Hawaii. The population in the Gulf of Mexico is extremely small and appeals have been made to have them made a protected species in this area.[37] this was rejected on the basis that there was insufficient scientific evidence to consider them a distinct population segment (DPS) under the Endangered Species Act (ESA).[38]

Interactions with humans

Whaling and fishing

Before 1955, it is estimated that Japanese whalers caught anywhere from 3 to 35 Cuvier's every year.[39] From 1955 until the 1990s, more than 4,000 Cuvier's beaked whales were reportedly caught. The species has reportedly been caught incidentally in fisheries in Colombia, in the Italian swordfish fishery, and in a drift gillnet fishery off California and Oregon on the U.S. west coast, where between 22 and 44 individuals died each year from 1992 to 1995.[39] Cuvier's beaked whale is covered by the Agreement on the Conservation of Small Cetaceans of the Baltic, North East Atlantic, Irish and North Seas (ASCOBANS) and the Agreement on the Conservation of Cetaceans in the Black Sea, the Mediterranean Sea and Contiguous Atlantic Area (ACCOBAMS). The species is further included in the Memorandum of Understanding Concerning the Conservation of the Manatee and Small Cetaceans of Western Africa and Macaronesia (Western African Aquatic Mammals MoU) and the Memorandum of Understanding for the Conservation of Cetaceans and Their Habitats in the Pacific Islands Region (Pacific Cetaceans MoU).[40]

Sonar and military maneuvers

Cuvier's beaked whale seems to have a bad reaction to sonar. Strandings and beachings often occur near naval bases where sonar may have been in use. Cuvier's beaked whale has been observed in Hawaii avoiding diving for food or avoiding an area where sonar is in use. A higher incidence of strandings has been recorded in noisy seas such as the Mediterranean and multiple mass strandings have occurred following operations by the Spanish Navy in the Canary Islands.[41] [42] In 2019, a review of evidence on the mass strandings of beaked whales linked to naval exercises where sonar was used concluded the effects of mid-frequency active sonar are strongest on Cuvier's beaked whales but vary among individuals or populations, and the strength of the whales' response may depend on whether the individuals had prior exposure to sonar. The report considered the most plausible explanation of the symptoms of decompression sickness such as gas embolism found in stranded whales to be the whales' response to sonar. It noted no more mass strandings had occurred in the Canary Islands once naval exercises using sonar were banned there, and recommended the ban be extended to other areas such as the Mediterranean, where mass strandings continue to occur.[43] [44]

See also

Further reading

External links

Notes and References

  1. Book: Grzimek, Bernhard . Grzimek's Animal Life Encyclopedia, Vol 15, Mammals IV . Gale Group . 2003 . 0-7876-5362-4 . Hutchins . Michael . 2nd . Farmington Hills, MI . Bernhard Grzimek . Kleiman . Devra G. . Geist . Valerius . McDade . Melissa C. . 3.
  2. Schorr . Gregory S. . Falcone . Erin A. . Moretti . David J. . Andrews . Russel D. . 26 March 2014 . First Long-Term Behavioral Records from Cuvier's Beaked Whales (Ziphius cavirostris) Reveal Record-Breaking Dives . PLOS ONE . 9 . 3 . e92633 . 2014PLoSO...992633S . 10.1371/journal.pone.0092633 . 3966784 . 24670984 . free.
  3. Quick . Nicola J. . Cioffi . William R. . Shearer . Jeanne M. . Fahlman . Andreas . Read . Andrew J. . 15 September 2020 . Extreme diving in mammals: first estimates of behavioural aerobic dive limits in Cuvier's beaked whales . The Journal of Experimental Biology . 223 . 18 . jeb222109 . 10.1242/jeb.222109 . 32967976 . free . 221886321.
  4. Web site: December 29, 2021 . Cuvier's Beaked Whale (Ziphius cavirostris) . NOAA Fisheries.
  5. Web site: Allen . B. M. . Brownell . R. L. . Mead . J. G. . 2011 . Species review of Cuvier's beaked whale, Ziphius cavirostris (report SC/63/SM17) . 8 June 2022 . Scientific Committee Documents. International Whaling Commission.
  6. Book: Cuvier, Georges . Recherches sur les ossemens fossiles . 1823 . 2nd . 5 . Paris . 350–2, fig. 7 . fr . Georges Cuvier . 3 February 2013 . 1.
  7. Omura . Hideo . 1972 . An osteological study of the Cuvier's beaked whale, Ziphius cavirostris, in the northwest Pacific . The Scientific Reports of the Whales Research Institute . 24 . 1–34.
  8. Book: Cuvier, Georges . Georges Cuvier . Recherches sur les ossemens fossiles . 2nd . 5 . 1823 . 1 . Paris . 350–2, fig. 7 . fr . 3 February 2013 .
  9. Turner . W . On the occurrence of Ziphius cavirostris in the Shetland Seas, and a comparison of its skull with that of Sowerby's whale (Mesoplodon Sowerbyi) . 1872 . Edinburgh . Transactions of the Royal Society of Edinburgh . 26 . 4 . 759–80 . 26145032 . 10.1017/s0080456800025618. 131076630 .
  10. Book: MacLeod, Colin D. . Beaked Whales, Overview . Wursig . Bernd . Thewissen . J. G. M. 'Hans' . Kovacs . Kit M. . Encyclopedia of Marine Mammals . Third . 27 November 2017 . Academic Press . 978-0-12-804381-3 . https://books.google.com/books?id=T3zGDgAAQBAJ&pg=PA82 . 80–82 . 8 June 2022 . en.
  11. Web site: Fossilworks Paleobiology Database .
  12. Book: 10.1016/B978-0-12-373553-9.00069-9 . Cuvier's Beaked Whale . Encyclopedia of Marine Mammals . 2009 . Second . Heyning . John E. . Mead . James G. . 294–295 . 978-0-12-373553-9 . William F. . Perrin . Bernd . Würsig . J.G.M. . Thewissen .
  13. Coomber . Frazer . Moulins . Aurelie . Tepsich . Paola . Rosso . Massimiliano . Sexing free-ranging adult Cuvier's beaked whales (Ziphius cavirostris) using natural marking thresholds and pigmentation patterns . Journal of Mammalogy . 9 June 2016 . 97 . 3 . 879–890 . 10.1093/jmammal/gyw033 . 26373107 . 29692471 . 5909803 .
  14. Coomber . Frazer . Moulins . Aurelie . Tepsich . Paola . Rosso . Massimiliano . 9 June 2016 . Sexing free-ranging adult Cuvier's beaked whales (Ziphius cavirostris) using natural marking thresholds and pigmentation patterns . Journal of Mammalogy . 97 . 3 . 879–890 . 10.1093/jmammal/gyw033 . 26373107 . 5909803 . 29692471.
  15. Web site: Cetacean Research & Rescue Unit Cuvier's beaked whale . 2020-12-08 . www.crru.org.uk.
  16. Rosso . Massimiliano . Ballardini . Marco . Moulins . Aurelie . Maurizio . Wurtz . Natural markings of Cuvier's beaked whale Ziphius cavirostris in the Mediterranean Sea . African Journal of Marine Science . April 2011 . 33 . 1 . 45–57 . 10.2989/1814232X.2011.572336 . 2011AfJMS..33...45R . 84751724 . 21 January 2022.
  17. Web site: Cuvier's Beaked Whale . The Australian Museum . 9 June 2022. April 21, 2022 . en.
  18. Shearer . Jeanne M. . Quick . Nicola J. . Cioffi . William R. . Baird . Robin W. . Webster . Daniel L. . Foley . Heather J. . Swaim . Zachary T. . Waples . Danielle M. . Bell . Joel T. . Read . Andrew J. . Diving behaviour of Cuvier's beaked whales (Ziphius cavirostris) off Cape Hatteras, North Carolina . Royal Society Open Science . 6 . 2 . 181728 . 10.1098/rsos.181728 . 6 February 2019 . 30891284 . 6408375 . 2019RSOS....681728S .
  19. News: Garcia de Jesus . Erin . A beaked whale's nearly four-hour-long dive sets a new record . Science News . 23 September 2020 .
  20. Lee, Jane J.. 2014-03-26. Elusive Whales Set New Record for Depth and Length of Dives Among Mammals. dead. National Geographic. https://web.archive.org/web/20140329065822/http://news.nationalgeographic.com/news/2014/03/140326-cuvier-beaked-whale-record-dive-depth-ocean-animal-science. 2014-03-29.
  21. News: March 26, 2014. How low can you go? This whale is the champion of deep diving. Reuters. in.reuters.com. Dunham. Will.
  22. News: McGrath . Matt . Mysterious beaked whale smashes mammal diving record . BBC News . 24 September 2020 .
  23. Braun . Camrin D. . Arostegui . Martin C. . Thorrold . Simon R. . Papastamatiou . Yannis P. . Gaube . Peter . Fontes . Jorge . Afonso . Pedro . The Functional and Ecological Significance of Deep Diving by Large Marine Predators . Annual Review of Marine Science . 3 January 2022 . 14 . 1 . 129–159 . 10.1146/annurev-marine-032521-103517 . 34416123 . 2022ARMS...14..129B . 237254422 . 1941-1405. free .
  24. Joyce . Trevor W. . Durban . John W. . Claridge . Diane E. . Dunn . Charlotte A. . Fearnbach . Holly . Parsons . Kim M. . Andrews . Russel D. . Ballance . Lisa T. . Physiological, morphological, and ecological tradeoffs influence vertical habitat use of deep-diving toothed-whales in the Bahamas . PLOS ONE . 11 October 2017 . 12 . 10 . e0185113 . 10.1371/journal.pone.0185113 . 29020021 . 5636075 . 2017PLoSO..1285113J . free .
  25. News: Palmer . Jane . Secrets of animals that dive deep into the ocean . 8 June 2022 . maxineu.bio . 15 January 2015.
  26. Alcázar-Treviño . Jesús . Johnson . Mark . Arranz . Patricia . Warren . Victoria E. . Pérez-González . Carlos J. . Marques . Tiago . Madsen . Peter T. . Aguilar de Soto . Natacha . Natacha Aguilar de Soto . Deep-diving beaked whales dive together but forage apart . Proceedings of the Royal Society B: Biological Sciences . 13 January 2021 . 288 . 1942 . 20201905 . 10.1098/rspb.2020.1905 . 33402065 . 7892404 .
  27. Aguilar de Soto . Natacha . Natacha Aguilar de Soto. Visser . Fleur . Tyack . Peter L. . Alcazar . Jesús . Ruxton . Graeme . Arranz . Patricia . Madsen . Peter T. . Johnson . Mark . Fear of Killer Whales Drives Extreme Synchrony in Deep Diving Beaked Whales . Scientific Reports . December 2020 . 10 . 1 . 13 . 10.1038/s41598-019-55911-3 . 32029750 . 7005263 . 2020NatSR..10...13A .
  28. Web site: A Deep Dive Into an Undersea Mystery: Beaked Whales . Headwaters Magazine . 9 June 2022 . 18 May 2019.
  29. Web site: Sea Wonder: Cuvier's Beaked Whale . National Marine Sanctuary Foundation . 9 June 2022.
  30. Zimmer . Walter M. X. . Johnson . Mark P. . Madsen . Peter T. . Tyack . Peter L. . Echolocation clicks of free-ranging Cuvier's beaked whales (Ziphius cavirostris) . The Journal of the Acoustical Society of America . June 2005 . 117 . 6 . 3919–3927 . 10.1121/1.1910225 . 16018493 . 2005ASAJ..117.3919Z . 1912/2358 . 9 June 2022 . en . 0001-4966. free .
  31. Cranford . Ted W . Krysl . Petr . Hildebrand . John A . Acoustic pathways revealed: simulated sound transmission and reception in Cuvier's beaked whale (Ziphius cavirostris) . Bioinspiration & Biomimetics . 1 March 2008 . 3 . 1 . 016001 . 10.1088/1748-3182/3/1/016001 . 18364560 . 2008BiBi....3a6001C . 26098966 . 9 June 2022 . 1748-3182.
  32. Adams . Josh . Walker . William A . Burton . Erica J . Harvey . James T . Stomach Contents of a Cuvier's Beaked Whale (Ziphius cavirostris) Stranded in Monterey Bay, California . Northwestern Naturalist . March 2015 . 96 . 1 . 93–98 . 10.1898/NWN14-10.1 . 83912214 . 9 June 2022.
  33. West . Kristi L. . Walker . William A. . Baird . Robin W. . Mead . James G. . Collins . Paul W. . Diet of Cuvier's beaked whales Ziphius cavirostris from the North Pacific and a comparison with their diet world-wide . Marine Ecology Progress Series . 4 July 2017 . 574 . 227–242 . 10.3354/meps12214 . 2017MEPS..574..227W . en . 0171-8630. free .
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  35. Book: Reeves . Randall R . Stewart . Brent S . Clapham . Phillip J . Powell . James A . National Audubon Society Guide to Marine Mammals of the World . 254 . 2002 . Alfred A. Knopf . 0375411410 .
  36. D.Holcer D.. Fortuna M.C.. Mackelworth C. P.. 2014. Status and Conservation of Cetaceans in the Adriatic Sea (pdf). United Nations Environment Programme. Mediterranean Action Plan. Regional Activity Centre for Specially Protected Areas. Retrieved on September 04, 2017
  37. Web site: Valdivia . Abel . PETITION TO LIST THE GULF OF MEXICO CUVIER'S BEAKED WHALE (ZIPHIUS CAVIROSTRIS) AS ENDANGERED OR THREATENED UNDER THE ENDANGERED SPECIES ACT . Center for Biological Diversity. October 11, 2017 . 9 June 2022.
  38. Web site: Endangered and Threatened Wildlife; 90-Day Finding on a Petition To List the Cuvier's Beaked Whale in the Gulf of Mexico as Threatened or Endangered Under the Endangered Species Act . Federal Register. March 25, 2019 . National Oceanic and Atmospheric Administration . 9 June 2022.
  39. Taylor . B. L. . Baird . R. . Barlow . J. . Dawson . S. M. . Ford . J. . Mead . J. G. . Notarbartolo di Sciara . G. . Wade . P. . Pitman . R. L. . 4 . Ziphius cavirostris . 2008 . 3 February 2013 .
  40. Web site: Species . Convention on the Conservation of Migratory Species of Wild Animals (CMS) .
  41. Web site: June 2006. Lethal Sounds: The use of military sonar poses a deadly threat to whales and other marine mammals. 3 February 2013. NRDC.
  42. Faerber . Meghan M. . Baird . Robin W. . Does a lack of observed beaked whale strandings in military exercise areas mean no impact has occurred? A comparison of stranding and detection probabilities in the Canary and the main Hawaiian Islands . Marine Mammal Science . March 2010 . 10.1111/j.1748-7692.2010.00370.x .
  43. Bernaldo de Quirós . Y. . Fernandez . A. . Baird . R. W. . Brownell . R. L. . Aguilar de Soto . N. . Natacha Aguilar de Soto . Allen . D. . Arbelo . M. . Arregui . M. . Costidis . A. . Fahlman . A. . Frantzis . A. . Gulland . F. M. D. . Iñíguez . M. . Johnson . M. . Komnenou . A. . Koopman . H. . Pabst . D. A. . Roe . W. D. . Sierra . E. . Tejedor . M. . Schorr . G. . Advances in research on the impacts of anti-submarine sonar on beaked whales . Proceedings of the Royal Society B: Biological Sciences . 30 January 2019 . 286 . 1895 . 20182533 . 10.1098/rspb.2018.2533 . 30963955 . 6364578 .
  44. News: Batchelor. Tom. 30 January 2019. Scientists demand military sonar ban to end mass whale strandings. The Independent.