Oarfish

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Pelagic lampriform fish belonging to Regalecidae

title: "Oarfish" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["regalecidae", "animal-families"] description: "Pelagic lampriform fish belonging to Regalecidae" topic_path: "general/regalecidae" source: "https://en.wikipedia.org/wiki/Oarfish" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Pelagic lampriform fish belonging to Regalecidae ::

|name = Oarfish |image = Cuvier-69-Gymnètre.jpg |image_caption = Giant oarfish |taxon = Regalecidae |subdivision_ranks = Genera |subdivision =

The oarfish is a large and extremely long pelagic lampriform fish belonging to the small family Regalecidae. Found in areas spanning from temperate ocean zones to tropical ones, yet rarely seen by humans, the oarfish family contains three species in two genera. One of these, the giant oarfish (Regalecus glesne), is the longest bony fish alive, growing up to about 8 m in length.

The common name oarfish is thought to allude either to their highly compressed and elongated bodies or to the now discredited belief that the fish "row" themselves through the water with their pelvic fins.-- The family name Regalecidae is derived from the Latin regalis, meaning "royal". Although the larger species are considered game fish and are fished commercially on a small scale, oarfish are rarely caught alive; their flesh is not well regarded for eating due to its gelatinous consistency.

Their rarity and large size, and their habit of lingering at the surface when sick or dying, make oarfish a probable source of historical sea serpent tales. Their beachings before storms have gained them a reputation as harbingers of doom, a folk belief reinforced by the numerous beachings before the disastrous 2011 Tōhoku earthquake and tsunami.

Description

::figure[src="https://upload.wikimedia.org/wikipedia/commons/9/90/Giant_Oarfish.jpg" caption="adj=on}} [[giant oarfish]], found washed up on the shore near [[San Diego]], [[California]], in September 1996"] ::

The dorsal fin originates from above the (relatively large) eyes and runs the entire length of the fish. Of the approximately 400 dorsal fin rays, the first 10 to 13 are elongated to varying degrees, forming a trailing crest embellished with reddish spots and flaps of skin at the ray tips. The pelvic fins are similarly elongated and adorned, reduced to one to five rays each. The pectoral fins are greatly reduced and situated low on the body. The anal fin is completely absent and the caudal fin may be reduced or absent as well, with the body tapering to a fine point. All fins lack true spines. At least one account, from researchers in New Zealand, described the oarfish as giving off "electric shocks" when touched.

As in other members of its order, the mouth can be protruded. The body has no scales. In the streamer fish (Agrostichthys parkeri), the skin is clad with hard tubercles; in Regalecus russelii, there are tubercules along the midline of the belly.

All species lack swim bladders, the number of gill rakers is variable, but R. russellii has more than R. glesne. Oarfish are silver in coloration; the body is marked with small dark spots.

The giant oarfish is by far the largest member of the family, at a length of 8 m The streamer fish reaches 3 m in length, while the largest recorded specimen of Regalecus russelii was 5.4 m.

Oarfish frequently practise autotomy, self-amputating the tail, presumably as an anti-predator adaptation. All captured R. russellii over 1.5 m long have autotomized tails; it is thought that they may autotomize their tails repeatedly. The break can occur near the tip of the tail so that only a part of the caudal fin is lost, or it may involve a few caudal vertebrae; in extreme cases the entire tail is lost. The wound heals but the tail does not regenerate.

Hyperossified bones have been documented in several oarfish washed up on the coast of California. These bony rays run along the entire dorsal length of the body. Their function is both to provide structural support to the spine during undulations (tail movement used for locomotion), and to prevent stress fractures that could occur from strong movement. Unlike many deep-sea fish, oarfish have no swim bladders for maintaining depth in the water column. It is likely that this forces more frequent tail undulations as the main mode of depth regulation in oarfish.

Evolution

Phylogeny

Through the analysis of the mitochondrial genome of Regalecus glesne, the phylogenetic placement of the giant oarfish was further verified. Oarfish are Lampriformes, so placed due to their morphology. Analysis of the mitochondrial genome of an R. glesne specimen clusters the species with Trachipterus trachypterus and Zu cristatus, two other Lampriformes.

Taxonomy

Oarfish were first described in 1772. Three extant species in two genera are described:

Environment and distribution

The oarfish inhabits the epipelagic to mesopelagic ocean layers, ranging from 250 meters (660 ft) to 1,000 meters (3,300 ft) and is rarely seen on the surface. A few have been found still barely alive, but usually if one floats to the surface, it dies due to depressurisation. At the depths the oarfish live, there are few or no currents. As a result, they build little muscle mass and they cannot survive in shallower turbulent water.

The members of the family have a worldwide range, with tropical, subtropical, and warm temperate distributions. The oarfish typically reside in the mesopelagic zone of the sea. However, human encounters with live oarfish are rare, and distribution information is collated from records of oarfish caught or washed ashore.

Ecology and life history

Behaviour

Rare encounters with divers and accidental catches have supplied what little is known of oarfish ethology (behavior) and ecology. In 2001, an oarfish was filmed alive in the wild. The 1.5 m fish was spotted by a group of U.S. Navy personnel during the inspection of a buoy in the Bahamas. The oarfish was observed to propel itself by an amiiform mode of swimming; that is, rhythmically undulating the dorsal fin while keeping the body itself straight. Perhaps indicating a feeding posture, oarfish have been observed swimming in a vertical orientation. In this posture, the downstreaming light would silhouette the oarfishes' prey, making them easier to spot.

An oarfish measuring 3.3 m and 63.5 kg was caught in February 2003 using a fishing rod baited with squid at Skinningrove, United Kingdom.{{cite news |url=http://www.timesonline.co.uk/tol/news/uk/article885150.ece |archive-url=https://web.archive.org/web/20090507224445/http://www.timesonline.co.uk/tol/news/uk/article885150.ece |url-status=dead |archive-date= May 7, 2009 |title=Woman angler lands legendary sea monster |access-date=25 February 2010 |last=Jenkins |first=Russell |date= 21 February 2003 |work=The Times |quote=The novice angler fishing off the rocks for mackerel thought that she must have hooked a big one. – Unfortunately the oarfish has been cut up into steaks for the pot.}}

In July 2008, scientists for the first time captured footage of an oarfish swimming in its natural habitat in the mesopelagic zone in the Gulf of Mexico. The fish was estimated to be between 5 and in length. Five observations of apparently healthy oarfish Regalecus glesne by remotely operated vehicles were reported from the northern Gulf of Mexico between 2008 and 2011 at depths within the epipelagic and mesopelagic zones. These observations include the deepest verified record of R. glesne (463 -). In the 2011 sighting, an oarfish has been observed to switch from swimming with a vertical posture to swimming laterally, using lateral undulations of its entire body. Oarfish were found to have late or slow flight responses towards approaching remotely operated vehicles, supporting the hypothesis that they have few natural predators.

From December 2009 to March 2010, unusual numbers of the slender oarfish Regalecus russelii{{cite web |url=https://journal.nsm.or.th/sites/default/files/2024-07/3.First%20of%20Regalecus%20russellii%20%28Cuvier%2C%201816%29_0.pdf |title= First of Regalecus russellii (Cuvier, 1816) from the southwestern Thailand |author= Sirikanya Chungthanawong |date= July 15, 2024 |publisher= National Science Museum, Thailand |access-date=January 4, 2026 |url-status=live |archive-url= https://web.archive.org/web/20260104131036/https://journal.nsm.or.th/sites/default/files/2024-07/3.First%20of%20Regalecus%20russellii%20%28Cuvier%2C%201816%29_0.pdf |archive-date=January 4, 2026 }} appeared in the waters and on the beaches of Japan.

In January 2019, two oarfish were found alive in the nets of fishermen on the Japanese island of Okinawa. As of August 2024, there had only been about 20 oarfish sightings recorded along the coast of California since 1901. However, in February 2025, a sighting was recorded on video in the shallow water in Baja California Sur, along Mexico’s Pacific Coast.

::figure[src="https://upload.wikimedia.org/wikipedia/commons/4/47/Regalecus_glesne_juvenile.png" caption="Juvenile ''[[Regalecus glesne]]''"] ::

Feeding ecology

Oarfish feed primarily on zooplankton, selectively straining tiny euphausiids, shrimp, and other crustaceans from the water. Small fish, jellyfish, and squid are also taken. It has been observed that oarfish eat by suctioning prey such as plankton blooms while in the water.

Reproduction and life history

The oceanodromous Regalecus glesne is recorded as spawning off Mexico from July to December; all species are presumed to not guard their eggs, and release brightly coloured, buoyant eggs, up to 6 mm across, which are incorporated into the zooplankton.

The eggs hatch after about three weeks into highly active larvae that feed on other zooplankton. The larvae have little resemblance to the adults, with long dorsal and pelvic fins and extensible mouths. Larvae and juveniles have been observed drifting just below the surface. In contrast, adult oarfish are rarely seen at the surface when not sick or injured. It is probable that the fishes go deeper as they mature.

From January to February 2019, researchers tested and recorded the first successful instance of artificial insemination and hatching of Regalecus russellii using gonads from two washed-up specimens. Compared to adults, the body structure of newly hatched oarfish larvae look more compressed. The larvae often swam using mainly their pectoral fins, facing downward, with their mouths constantly open. The larvae were invertebrates but had bones in their head area, as well as fins. They died of starvation four days after they hatched.

Female R. russelii have bifurcated ovaries with a cavity through which the eggs pass before they are laid. The testes of male oarfish are in the coelomic cavity near the digestive tract. There are two separate, disconnected testes, the left one being longer than the one on the right. A single female can produce hundreds of thousands, to millions of eggs. The eggs are laid in the water column, and they float freely in the water.

Predators and parasites

A 2015 study suggested that the shortfin mako shark and the sperm whale could both be predators of the oarfish, based on patterns of parasite transmission and analysis of oarfish viscera.

In folklore

::figure[src="https://upload.wikimedia.org/wikipedia/commons/6/64/Giant_oarfish_bermuda_beach_1860.jpg" caption="location=London}}"] ::

The slender oarfish, (宮の使い "Ryūgū-No-Tsukai"), known in Japanese folklore as the "Messenger from the Sea God's Palace", is said to portend earthquakes. The oarfish has been nicknamed the "doomsday fish" because, historically, appearances of the fish were linked with subsequent natural disasters, namely earthquakes or tsunamis. After the 2011 Tōhoku earthquake and tsunami which killed over 20,000 people, many in Japan pointed to the 20 oarfish washed up on the country's beaches in 2009 and 2010 as being a traditional harbinger of doom. A study published in 2019 states the relationship between the appearance of oarfish and subsequent earthquakes is an "illusory correlation".

Notes

References

References

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