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Teuthidodrilus
Teuthidodrilus
Teuthidodrilus
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Teuthidodrilus
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Annelida
Clade: Pleistoannelida
Clade: Sedentaria
Order: Terebellida
Family: Acrocirridae
Genus: Teuthidodrilus
Osborn, Madin & Rouse, 2010
Species:
T. samae
Binomial name
Teuthidodrilus samae
Osborn, Madin & Rouse, 2010

Teuthidodrilus samae, dubbed as the squidworm, is a species of acrocirrid marine annelid worms. It is free-swimming and can be found in the deep sea water column at depths of 2,039 to 2,912 m (6,690 to 9,554 ft). It feeds on marine snow and can grow to about 9 cm (3.5 in) in length and 1 cm (0.39 in) in width. It is named for the ten squid-like appendages emerging from its head. It was discovered in 2007 in the benthopelagic zone of the Celebes Sea, near the Tawi-Tawi islands of the Philippines. It is the only species in the genus Teuthidodrilus.[1][2]

Discovery

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Teuthidodrilus samae was discovered in the 2007 "Exploring the Inner Space of the Celebes Sea" expedition by the remotely operated underwater vehicle Global Explorer ROV operated from the Philippine research vessel BRP Hydrographer Presbitero. Seven specimens were observed and collected from the deep-water column of the seafloor) of the Celebes Sea near the Tawi-Tawi islands of the Philippines. This area is part of the Coral Triangle, a location known for its increased biodiversity. The specimens were recovered at depths ranging from 2,039 to 2,912 m (6,690 to 9,554 ft), all within the demersal zone of around 100 m (330 ft) from the seafloor.[1][3]

Taxonomy

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Teuthidodrilus samae is the only species classified in the genus Teuthidodrilus. It belongs to the family Acrocirridae of the class Polychaeta in the phylum Annelida. It is classified along with the genus Swima in the "swimming clade" within the family Acrocirridae. A similar undescribed and uncollected specimen observed from off western India by the Hercules 7 ROV in 2004 may represent a second species in the genus.[1]

The generic name comes from Greek for "squid worm", while the specific name is in honor of the Sama people of the Tawi-Tawi islands.[2] The holotype is deposited in the National Museum of the Philippines.[1]

Physical characteristics

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The collected specimens ranged in size from 2 to 9.4 cm (0.79 to 3.70 in) in body length. The holotype has a body width of around 1 cm (0.39 in). Adults are light brown when alive, becoming light black in color when preserved. Juveniles are almost transparent.[1]

The body is divided into 25 segments (chaetigers) with pairs of large flattened paddle-shaped notopodia, around 15 mm (0.59 in) in length. Each notopodium has greater than 50 chaetae (bristles) arranged into a fin-like shape, except the first segment which has less than 10. Alongside the notopodia are pairs of neuropodia, each with around 2 to 4 chaetae.[1][4]

The head segment (prostomium) supports five pairs of long appendages. Four pairs of appendages are sensory and breathing organs (branchiae) at least 68 mm (2.7 in) in length. They are arranged along the upper and side ridges of the head, arising from the pair of feather-like nuchal organs which analyze chemical signals in the sea. The fifth pair of appendages are grooved and coiled feeding palps arising from below the mouth, which is located in the front-bottom corner of the head.[1]

Their internal anatomy is relatively visible from the outside since their outer body is semi-transparent. Two parallel ventral nerve cords run lengthwise throughout the body, fusing into two pairs of ganglia in each segment. The gut forms three loops in the second to sixth segments. The circulatory system consists of a heart body and large vessels leading to the gills. The pair of nephridia extends from the first segment to the fifth segment. The female gonads are located in the second to fourth segments with beige-colored grape-like clusters of variously-sized ova (with a maximum diameter of 1 mm (0.039 in)).[1]

Behavioral characteristics

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Not much is known of this creature’s behavior other than its ability to swim with proficiency using their paddle-like notopodia. It is categorized as a suspension feeder since it consumes marine snow, which consists of pieces from animals, plants, feces and other organic materials that precipitate from the higher parts of the ocean towards the abyss.[1][5]

In total, sixteen specimens were observed and seven were collected within just a few dives suggesting that this animal is a common member of the benthopelagic community of the Celebes Sea basin.[1]

References

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Teuthidodrilus

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Teuthidodrilus is a of deep-sea worms in the Acrocirridae, containing the single described Teuthidodrilus samae, commonly known as the squidworm. This free-swimming inhabits the bentho-pelagic zone of the western , particularly the , at depths ranging from approximately 2000 to 3000 meters. First described in 2010, it represents a rare example of a pelagic member within a predominantly benthic of cirratuliform polychaetes. The squidworm measures up to 94 mm in length when alive and features a distinctive array of 10 anterior appendages—comprising five pairs of elongated palps and branchiae—that extend as long as or longer than its body, resembling squid tentacles. These appendages, along with broad, paddle-like notochaetae and six pairs of branched nuchal organs, enable efficient swimming and sensory perception in the dark, nutrient-scarce . T. samae is believed to be a suspension feeder, capturing such as using its tentacles. Discovered during a expedition using a remotely operated vehicle in the , the genus highlights the untapped of deep-pelagic habitats and the evolutionary transitions from benthic to pelagic lifestyles in annelids. Observations suggest Teuthidodrilus may be relatively common in its range, with potential undescribed species reported from the . Its unique morphology has drawn comparisons to cephalopods, underscoring the of swimming adaptations in unrelated marine taxa.

Taxonomy and Discovery

Taxonomy

Teuthidodrilus is a of marine annelids classified within the kingdom Animalia, Annelida, class Polychaeta, order Cirratuliformia, family Acrocirridae, with the sole being Teuthidodrilus samae Osborn, Madin & Rouse, 2011. The genus is monotypic, encompassing only T. samae as the described , first observed during a 2007 deep-sea expedition in the . Although currently monotypic with only T. samae described, potential undescribed have been observed in other regions, such as the . Phylogenetic analysis in the original description, incorporating morphological characters and genetic sequences from five genes (18S rRNA, 28S rRNA, 16S rRNA, COI, and CytB), positioned Teuthidodrilus within the Acrocirridae family, as sister to the ‘bomb’-bearing clade within the swimming clade of Cirratuliformia. This placement highlights its evolutionary ties to other cirratuliformians while distinguishing it through unique morphological traits, such as the arrangement of branchial filaments, which differ from those in the closely related family Cirratulidae.

Discovery

Teuthidodrilus samae was first observed in October 2007 during the NOAA-sponsored "Exploring the Inner Space of the " expedition in the waters off the islands in the . Scientists aboard the BRP Hydrographer Presbitero used the remotely operated vehicle (ROV) Max Rover Global Explorer to explore the deep-water column, where the creature was spotted swimming actively in the benthopelagic zone. This initial sighting captured attention due to its unusual appearance, prompting immediate interest in its identity. Seven specimens were collected during the same expedition at depths ranging from 2,028 to 2,912 meters using and suction samplers deployed from the ROV. These collections provided the material necessary for detailed analysis, confirming the organism's presence in the deep pelagic environment of the . The expedition, a between U.S. and Filipino researchers, aimed to document in this understudied region, yielding this as one of its notable discoveries. The species was formally described in 2011 by Karen J. Osborn, Laurence P. Madin, and Greg W. Rouse in the journal Biology Letters. Upon discovery, there was initial debate over whether the creature was a squid-like or a , given its ten elongated anterior appendages resembling tentacles. This was resolved through comprehensive morphological examination and phylogenetic analysis of five nuclear and mitochondrial genes, which placed it firmly within the polychaetes, specifically the family Acrocirridae. The genus name Teuthidodrilus derives from Greek roots meaning "squid ," while the specific epithet samae honors the Sama indigenous people of the near the collection site.

Physical Description

Body Structure

Teuthidodrilus samae exhibits an elongated, cylindrical body form that is well-adapted for a pelagic lifestyle in the deep ocean. This segmented polychaete annelid typically measures 2–9.4 cm in length and approximately 1 cm in width, with adults possessing 25 chaetigerous segments. The body is divided into these 25 or more segments, each bearing prominent paddle-shaped notopodia equipped with numerous chaetae that facilitate propulsion through the . These notopodia form broad, concavo-convex structures up to 15 mm long, tapering to fine points, enhancing the worm's swimming efficiency. Respiration is supported by branchial filaments, primarily consisting of four pairs of elongate, tapered branchiae located anteriorly and extending to lengths equal to the body. The body is enclosed in a thin gelatinous sheath, and live specimens appear partially transparent with brown pigmentation that darkens to black upon preservation. Juvenile individuals are nearly transparent, contrasting with the pigmented adults.

Appendages and Coloration

Teuthidodrilus samae possesses a distinctive array of head appendages that evoke the appearance of a , consisting of 10 large, tentacle-like structures emerging from the and peristomium. These include a pair of grooved, ciliated palps positioned frontally and coiled, which function primarily in feeding by capturing particulate matter, and four pairs (eight total) of elongate, tapered branchiae attached dorsally behind the palps for respiration and environmental sensing through their vascularization and ciliated surfaces. Each of these appendages can reach lengths equal to or exceeding the body, up to 68 mm or more in specimens measuring around 94 mm in total length. The branchiae feature prominent efferent, afferent, and circular vessels, facilitating oxygen exchange in the low-oxygen deep-pelagic environment, while also potentially aiding in chemosensory detection. Unlike tentacles, these appendages lack suckers, hooks, or rigid structures, instead being soft and flexible with smooth surfaces adapted for gentle manipulation and rather than predation or grasping. The nuchal organs, serving as chemosensory structures, are elaborated as a horseshoe-shaped ciliated ridge connecting six pairs of free-standing, oppositely branched supports dorsal to the branchiae, enhancing sensory capabilities without forming additional prominent tentacles. In terms of coloration, live specimens of T. samae exhibit a hue across the body and appendages. Upon preservation, the coloration darkens to , a common postmortem change in annelids due to oxidation.

Habitat and Distribution

Habitat Preferences

Teuthidodrilus samae inhabits the benthopelagic zone of the , primarily at depths ranging from 2,028 to 2,912 . This was first observed during a 2007 expedition in the of the , confirming its preference for midwater environments near the seafloor. The worm occupies a free-swimming position within approximately 100 above the seafloor, distinguishing it from strictly benthic polychaetes. It thrives in the aphotic conditions of the deep ocean, characterized by high hydrostatic (around 200–300 atmospheres) and low dissolved oxygen levels typical of abyssal waters (generally 2–3 ml/L). As a presumed suspension feeder, T. samae associates closely with the flux of —organic particle aggregates sinking from surface waters—which serves as its primary food source in the particle-poor deep-sea environment.

Geographic Distribution

Teuthidodrilus samae was first discovered in the benthopelagic zone of the , at the border between the and , near the islands, as part of the biodiverse region. Seven specimens were collected during an expedition in October 2007 using a remotely operated vehicle (ROV) at depths ranging from 2,028 to 2,912 m. Observations of similar Teuthidodrilus individuals have been reported in the , potentially representing undescribed species or conspecific populations. A specimen was recorded by the 7 on March 13, 2007, in the off (approx. 10°11′ N, 75°30′ E) at approximately 1,500 m depth, though no collection was made. Additionally, ROV footage from the captured another sighting at depths exceeding 2,500 m, uploaded in 2015 by the SERPENT project. Given its free-swimming, pelagic nature in the deep-water column, an distribution may be inferred for the genus Teuthidodrilus, but the confirmed range of T. samae remains restricted to the at around 2,500–3,000 m. The rarity of observations stems from the challenges in accessing and sampling deep-sea environments, with no verified populations of T. samae documented elsewhere as of 2025. Factors such as deep-ocean currents and the patchy distribution of sinking , its primary food source, likely constrain its range.

Behavior and Ecology

Locomotion and Feeding

Teuthidodrilus samae exhibits free-swimming locomotion adapted to its deep-sea pelagic habitat, primarily through undulating body motions that generate thrust in combination with the rhythmic paddling of specialized appendages. The paddle-like notopodia, each bearing over 50 chaetae arranged into broad, concavo-convex structures up to 15 mm long, provide the main mechanism, enabling efficient horizontal and vertical movement at depths of 2000–3000 m. These structures allow the worm to swim upright, facilitating and sustained cruising. Additionally, T. samae displays hovering near the seafloor or in the , approximately 100 m above the bottom. As a pelagic suspension feeder, T. samae sustains itself on —aggregates of organic , , planktonic remains, and fecal material sinking from surface waters—rather than engaging in predatory activities. Gut content analyses confirm the presence of such detrital particles, underscoring its role as a non-aggressive that passively intercepts food without active . The worm's paired grooved palps, which can extend longer than its 90 mm body length and are often coiled when not in use, play a central role in particle collection by extending into the water to capture and direct aggregates toward the mouth. The eight branchiae, arranged in four dorsal pairs and vascularized for , may also contribute to particle detection through their proximity to sensory nuchal organs, enhancing the efficiency of this low-energy feeding strategy.

Sensory and Reproductive Biology

Teuthidodrilus samae lacks eyes, a common among deep-sea polychaetes inhabiting aphotic depths below 2000 meters where is absent, necessitating reliance on non-visual sensory modalities for and prey detection. Instead, the species possesses six pairs of elaborate nuchal organs, consisting of free-standing, oppositely branched structures with ciliated ridges located on the head, which serve as primary chemosensory organs to detect chemical cues in the surrounding water. These organs, homologous to those in other cirratuliformians, enable the worm to sense dissolved organic compounds and environmental gradients in low-visibility conditions. The branchial filaments, comprising four pairs of elongate, tapered branchiae up to 68 mm in length and attached dorsally behind the nuchal organs, fulfill dual respiratory and sensory roles, potentially aiding in the detection of chemical signals through their vascularized, ciliated surfaces. Similarly, the grooved palps—tentacle-like appendages longer than the body and often coiled frontally—likely contribute to chemosensory and mechanoreceptive functions, as inferred from the palp morphology and sensory capabilities observed in cirratuliformian relatives such as other acrocirrid polychaetes, where these structures respond to tactile and chemical stimuli in turbid or particle-laden waters. This suite of appendages allows T. samae to perceive its environment effectively despite the perpetual darkness and sparse resources of the bentho-pelagic zone. Reproductive biology in Teuthidodrilus samae remains largely unknown, with no observations of behaviors, egg release, or larval stages documented as of November 2025. Gonads have been noted only in the specimen, located in chaetigers 2–4 and containing grape-like clusters of beige ova up to 1 mm in diameter, suggesting potential or akin to many s, though simultaneous hermaphroditism cannot be ruled out without further evidence. Life cycle details are equally sparse; juveniles are nearly transparent, facilitating in the , while adults develop a dark brown coloration and gelatinous sheath, indicating an ontogenetic shift possibly tied to increased pigmentation for UV protection or predator deterrence at depth. As a pelagic , T. samae likely employs broadcast spawning for fertilization, dispersing gametes into the to maximize encounter rates in the vast deep-sea environment, though this remains speculative pending direct observations.
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