Alepisaurus ferox explained

Alepisaurus ferox, also known as the long snouted lancetfish, longnose lancetfish, or cannibal fish, is a species of lancetfish found in the ocean depths down to 1,830 m (6,000 ft).[1] This species grows to 215cm (85inches) in total length and a weight of 9kg (20lb).

The appellation cannibal fish stems from discoveries of partially-digested conspecifics in captured specimens.

Habitat and ecosystem

Habitat

A. ferox lives in deep water oceans in the Western and Eastern Pacific, from the Aleutian Islands to Chile; the Western Atlantic, from the Gulf of Maine to the Gulf of Mexico, including the Caribbean Sea; in addition to the Northwest & Eastern Atlantic, Indian Ocean and China Sea.[2] The longnose lancetfish can also be found as far north as Russia.[3] This expansive geographic reach has caused for the species to be accidentally caught by some tuna fisheries.[4] Daily vertical migrations from the epipelagic all the way down to the mesopelagic or bathypelagic zones are undertaken to find food.[5]

Predators

The known predators for A. ferox include yellowfin tuna, opah, fur seals, Pacific cod, and salmon shark.[6] Predators are known to change depending on the ocean region.

Effect on ecosystem

A. ferox is known for its predatory and prey behaviors in the south-western and central-western Pacific Ocean. In such regions, studies have been conducted to investigate the effects the longnose lancetfish has on the surrounding ecosystems—and whether those impacts are negative or positive for said ecosystems.[7] When A. ferox was removed from these regions of the Pacific Ocean, there was a negative effect on the ecosystems that showed the importance of this species as both a predatory and prey type.

Characteristics and behavior

Appearance

The dorsal fin has about three rays strongly exerted, beginning with the third or fourth ray. It is known to have a large mouth with two fangs. It is generally pale, iridescent, and dark around the dorsal fin; all of its fins are either dark brown or black.

The stomach of A. ferox is similar to that of the other species in the suborder of Alepisauroidea.[8] The gut of the A. ferox is a large, blind-sac that also has a very unique biological response to food. The stomach will store food in the stomach and slowly digest the contents, allowing for a more in depth understanding of the exact diet the A. ferox have.

The large, sharp teeth of the lancetfish have two functions; breaking apart organisms too large to swallow whole and cutting trunk muscles to inhibit struggling. The teeth are not used for chewing otherwise.

Diet

Longnose lancetfish diet varies depending on its inhabited area. Studies of diet variation have produced inconsistent results. They are known to prey on 98 component families; individuals may even consume man made materials, such as plastic.

The longnose lancetfish is a migratory predator. It is known to travel to a depth of 1830m (6,000feet) in order to hunt. A study in Suruga Bay, Japan, investigated the stomach contents of various specimens that had washed ashore and found, along with indigestible materials, traces of marine species of the photic and aphotic zones. This study showed that the longnose lancetfish is a deep sea diving species capable of migrating across different sea depths.

As aforementioned, the longnose lancetfish is referred to as the cannibal fish due to its conspecific predation habits. The extent of cannibalistic behavior depends on the availability of non-conspecific prey, with frequency of these patterns ranging from 0 to 45.5%. Such is contingent upon the availability and ease of finding other prey. Size is an influencing factor; small lancetfish will not resort to cannibalism as quickly as larger fish.

Reproduction

The fish are hermaphroditic: they have both male and female reproductive parts at the same time.[9] Unlike other hermaphroditic fishes, A. ferox has two distinct testicular lobes that are independent from the ovarian region.[10] This species also has an absence of a pair of diverticulae in the female reproductive section, which in other hermaphrodites is used for spermatophore uptake.

Human impact

Plastic consumption

Plastic is ingested by approximately 30% of all A. ferox.[11] Macroplastic fragments and rope fragments were the most commonly found plastic in the stomach contents with white and clear colored plastics seeming to be favored.

Bycatch

A. ferox is commonly caught as bycatch for longline fisheries and is never the intended target. In the Philippines, studies of longline tuna fisheries revealed that they usually caught more A. ferox than any tuna. A. ferox also accounts for 2% of all bycatch by circle and j hook longline fisheries in the Bay of Bengal.[12] Survival of being bycatch in these types of nets is low - only one third of A. ferox survive.[13]

Further reading

External links

Notes and References

  1. 田正. 久保. 輝彌. 上野. 1970. 駿河湾産ミズウオの食性について. 魚類学雑誌. 17. 1. 22–28. 10.11369/jji1950.17.22.
  2. Web site: Alepisaurus ferox Lowe, 1833. FishBase. 14 January 2013.
  3. Orlov. Alexei M.. Ul'chenko. Vasily A.. 2002. A hypothesis to explain onshore records of long-nose lancetfish Alepisaurus ferox (Alepisauridae, Teleostei) in the North Pacific Ocean. Marine and Freshwater Research. en. 53. 2. 303–306. 10.1071/mf01166. 1448-6059.
  4. Web site: Alepisaurus ferox. fishesofaustralia.net.au. en. 2019-11-21.
  5. Portner. Elan J.. Polovina. Jeffrey J.. Choy. C. Anela. July 2017. Patterns in micronekton diversity across the North Pacific Subtropical Gyre observed from the diet of longnose lancetfish (Alepisaurus ferox). Deep Sea Research Part I: Oceanographic Research Papers. 125. 40–51. 10.1016/j.dsr.2017.04.013. 2017DSRI..125...40P . 0967-0637. free.
  6. Polovina. Jeffrey J.. Abecassis. Melanie. Howell. Evan A.. Woodworth. Phoebe. May 2009. Increases in the relative abundance of mid-trophic level fishes concurrent with declines in apex predators in the subtropical North Pacific, 1996–2006. Fishery Bulletin. 107. 523–531.
  7. Romanov. Evgeny V.. Ménard. Frédéric. Zamorov. Veniamin V.. Potier. Michel. 2008-01-01. Variability in conspecific predation among longnose lancetfish Alepisaurus ferox in the western Indian Ocean. Fisheries Science. en. 74. 1. 62–68. 10.1111/j.1444-2906.2007.01496.x. 2008FisSc..74...62R . 42124144. 1444-2906.
  8. Web site: How an Odd, Cannibalistic Fish Is Helping Us Understand the Mysteries of the Deep NOAA Fisheries. Fisheries. NOAA. 2019-05-02. www.fisheries.noaa.gov. EN-US. 2019-11-21.
  9. Smith. C. Lavett. Atz. Ethel H.. 1973-03-05. Hermaphroditism in the Mesopelagic Fishes Omosudis lowei and Alepisaurus ferox. Copeia. 1973. 1. 41. 10.2307/1442355. 0045-8511. 1442355.
  10. Beese. Kathleen. Beier. Konstantin. Baur. Bruno. 2006. Bursa tract diverticulum in the hermaphroditic land snail Arianta arbustorum (Stylommatophora: Helicidae): Morphology, function, and evolutionary implications. Journal of Morphology. 267. 8. 940–953. 10.1002/jmor.10451. 16676345. 24568939. 0362-2525. free.
  11. Choy. CA. Drazen. JC. 2013-06-27. Plastic for dinner? Observations of frequent debris ingestion by pelagic predatory fishes from the central North Pacific. Marine Ecology Progress Series. 485. 155–163. 10.3354/meps10342. 2013MEPS..485..155C . 0171-8630. free.
  12. Willey. Angel L.. Barker. Linda S.. Sampson. Mark. July 2016. A comparison of circle hook and J hook performance in the recreational shark fishery off Maryland. Fishery Bulletin. 114. 3. 370–372. 10.7755/fb.114.3.9. 0090-0656. free.
  13. Carruthers. Erin H.. Schneider. David C.. Neilson. John D.. November 2009. Estimating the odds of survival and identifying mitigation opportunities for common bycatch in pelagic longline fisheries. Biological Conservation. 142. 11. 2620–2630. 10.1016/j.biocon.2009.06.010. 2009BCons.142.2620C . 0006-3207.