The Pacific sleeper shark (Somniosus pacificus) is a shark of the family Somniosidae, the sleeper sharks. While primarily associated with temperate and subarctic waters of the Northern Pacific Ocean, it has been documented in the tropical Pacific and Antarctic Ocean as well. Reaching lengths of 4.4m(14 ft), an enormous Pacific sleeper shark was attracted to a bait in deep water outside Tokyo Bay, Japan, and filmed in 1989. The shark was estimated by Eugenie Clark to be about long. A single unconfirmed account exists of an enormous Pacific sleeper shark that potentially measured more than long. If true, this would make the species the largest extant macro-predatory shark, and the third largest shark overall after the whale shark and the basking shark.
Similar to the Greenland shark, the parasitic copepod Ommatokoita elongata can often be observed consuming the shark's corneal tissue, which degrades their eyesight.
Adaptations
Due to living in frigid depths, the sleeper shark's liver oil does not contain squalene, which would solidify into a dense, nonbuoyant mass. Instead, the low-density compounds in the sharks' liver are diacylglyceryl ethers <!-- (DAGE) --> and triacylglycerol, which maintain their fluidity even at the lowest temperatures. They also store very little urea in their skin (like many deep sea sharks), but like other elasmobranchs, have high concentrations of urea and trimethylamine oxide (nitrogenous waste products) within their tissues as osmoprotectants and to increase their buoyancy. Trimethylamine oxide also serves to counteract the protein-destabilizing tendencies of urea and pressure. Its presence in the tissues of both elasmobranch and teleost fish has been found to increase with depth.
Because food is relatively scarce on the deep sea floor, the sleeper shark is able to store food in its capacious stomach. The sleeper shark's jaws are able to produce a powerful bite due to their short and transverse shape. The upper jaw teeth of the sleeper shark are spike-like, while the lower jaw teeth consist of oblique cusps and overlapping bases. This arrangement allows grasping and sawing of food too large to swallow. Pacific sleeper sharks have a short caudal fin, which allows them to store energy for fast and violent bursts of energy to catch prey. The first evidence of the sharks in the western tropical Pacific emerged from a National Geographic video taken near the Solomon Islands in 2015.
The Pacific Sleeper shark inhabits in temperate and subarctic waters of the North Pacific Ocean, including offshore regions of California. Tagging studies done from 2019 to 2022 indicate that these sharks indicate moderate regional movements, with certain individuals traveling 3.9-145.1 meters from tagging sites over 31 say periods. The species primarily occupies mesopelagic depths. Tracked sharks ranged from 106–1,323m but spent more than 99% of their time between 200-600m, most commonly at 300-500m. Depth use was slightly greater during the day than at night. Recorded temperatures occupied depths ranged from 3.3 °C-11.0 °C.
In 2015 a Pacific sleeper shark was also recorded in the Tonga Trench, filmed in 2024.
In January 2025 the species was spotted in Antarctic waters, which represented the first time a shark had been spotted in such frigid waters.
Vertical movements
Pacific sleeper sharks exhibit extensive vertical migration patterns throughout the deep sea. This species practices systematic vertical oscillations, meaning descension and ascension that is methodical and lacks a transitional pause. They also perform irregular vertical movements and Diel vertical migration. This Diel vertical migration corresponds to hunting strategies characterized by approach of the surface at nighttime and travel down to the depths below the photic zone at night. This alludes to a cyclic and crepuscular pattern of movement. These vertical oscillations assist in the search for prey by Pacific sleeper sharks that also employ ambush, stealth, and cryptic coloration to hunt for prey. The median daily depth range of this species in the north-east Pacific Ocean has been found to be 184m, with the majority of time being spent in the ranged of 150 and 450m, though it is common for these sharks to ascend above 100m. The rate of vertical movement is described at a steady 6 km per day. The median depth changes per-minute are measured at between 4 and 6 meters per minute, while the higher speeds of vertical migration were approximately 40 to 41 meters per minute. The up-and-down pattern of swimming in Pacific sleeper sharks is a common characteristic of epipelagic shark species and is related to food finding or foraging in the deep sea environment.
One study examined the stomachs of 25 Pacific sleeper sharks, demonstrating that these sharks attain their diet from both the bottom and in the water column. These sharks perform vertical migration to feed.
Biology
Trophic ecology
Pacific sleeper sharks are thought to be both predators and scavengers. They can glide through the water with little body movement and little hydrodynamic noise, making them successful stealth predators. They feed by means of suction and cutting of their prey, possessing large mouths that can essentially inhale prey, with their teeth cut up any pieces that are too large to swallow.They show a characteristic rolling motion of the head when feeding. Since they lack a nictitating membrane that other sharks have, they roll their eyes back in their sockets to protect them from thrashing prey. Sleeper sharks are preyed on by the offshore ecotype of killer whale off British Columbia.
Diet and prey
Pacific sleeper sharks are a generalist predator species. A recent study of Pacific Sleeper Shark diet revealed that their primary prey are teleosts and cephalopods. Fast-swimming fish are most commonly consumed, such as Pacific salmon and albacore tuna, but they are generalist and known to consume other organisms too.
Diet of Pacific sleeper sharks is location dependent. In Northwest Pacific populations of this species, common prey found in the stomachs of these animals often includes chum salmon, walleye pollock, popeye grenadier (Coryphaenoides cinereus), giant grenadier (Albatrossia pectoralis), red squid (Berryteuthis magister), and Kamchatka flounders. Sleeper sharks found in Alaskan waters from seem to feed mostly on flounder, pollock, and cephalopods, while sleeper sharks long seem to consume teleosts and cephalopods, as well as marine mammals. A recent study in the Gulf of Alaska suggests that sleeper sharks may prey on juvenile Steller sea lions. Alaskan populations often feed on the giant Pacific octopus. These are also known to feed on bottom-dwelling fish, such as soles, flounders, Alaska pollock, rockfishes, along with shrimps, hermit crabs, and even marine snails. Larger Pacific sleeper sharks are also found to feed on fast-swimming prey, such as squids, Pacific salmon, and harbor porpoises.
Reproduction
Very little is known about the early life of Pacific sleeper sharks. They are believed to produce eggs that hatch inside the female's body (being ovoviviparous), but gestation time is unknown. Mothers can carry up to 300 eggs but only about 10% of these eggs fully develop into embryos. Male sharks have external reproductive organs called claspers which are hypothesized to be inserted into the cloaca of the female with whom they are mating. Its length at birth is about or less and tend to exhibit a lighter skin color than adults.
Human interaction and fisheries
Although the Pacific sleeper shark is not exactly a target for fisheries, it often gets captured by catch due to its large size and wide distribution throughout the North Pacific. These accidental interactions have become an increasing conservation concern. Recently, the International Union for Conservation of Nature has changed the specie's status on the IUCN Red List from Data Deficient to Near Threatened because of its vulnerability to fishing pressure and evidence of regional population declines.
Historically, Pacific sleeper sharks have not been specifically targeted by commercial fisheries. The only documented directed fishery occurred off Hualien, Taiwan.