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Bluespotted cornetfish

The bluespotted cornetfish (Fistularia commersonii) is a belonging to the Fistulariidae, characterized by its distinctive elongated, vertically flattened body that can reach up to 160 cm in total length, with a long whiplike tail filament, greenish dorsal coloration, silvery white ventral side, and two prominent blue stripes or spots along the back. Adults typically measure around 100 cm and feature orange dorsal and anal fins with transparent bases, while juveniles often display a more pronounced dark-barred pattern for . Native to the region, this oviparous, carnivorous inhabits reef-associated environments from shallow coastal waters to depths of at least 132 m, feeding primarily on small , shrimps, and squids. Distributed widely across tropical and subtropical waters, F. commersonii ranges from to in the , extending north to southern and south to and , with records also in the eastern central Pacific from to and as a Lessepsian migrant in the . It prefers benthopelagic habitats such as sandy bottoms adjacent to reefs, meadows, and beds, avoiding areas of heavy surge, and is often observed solitary or in loose schools at temperatures between 22–29°C. Ecologically, it plays a role as a mid-level predator with a of approximately 4.3, reaching at about 65 cm and having a generation time of around 2.2 years. Although commercially fished on a minor scale and traded in the aquarium industry, F. commersonii faces occasional risks from ciguatera poisoning in humans consuming it, but its global population is considered stable. The species holds a Least Concern status on the , assessed in 2016, due to its wide distribution and lack of major threats, though localized impacts from habitat degradation and invasive spread warrant monitoring.

Taxonomy and etymology

Classification

The bluespotted cornetfish, Fistularia commersonii, is classified within the domain Eukarya, kingdom Animalia, phylum Chordata, subphylum Vertebrata, class Actinopterygii, order Syngnathiformes, family Fistulariidae, genus Fistularia, and species F. commersonii . This placement situates it among ray-finned fishes characterized by bony skeletons and fins supported by lepidotrichia . The family Fistulariidae comprises a small group of four species of highly elongated marine fishes, closely related to the syngnathids (pipefishes and seahorses) within the order , sharing traits such as tubular snouts adapted for suction feeding on small prey . These fishes exhibit scaleless or minimally scaled bodies with tiny prickles and are distributed in tropical and subtropical and Atlantic waters . Scientific synonyms for F. commersonii include Fistularia commersoni Rüppell, 1838 (a variant), Fistularis commersoni Rüppell, 1838 (generic misspelling), Fistularia depressa Günther, 1880, and Fistularia tabacaria (non Linnaeus, 1758, a junior ) . These synonyms arise from historical taxonomic revisions based on morphological similarities to other cornetfishes . Phylogenetically, Fistularia is placed within the suborder Syngnathoidei of , forming a with Centriscidae and Aulostomidae that is sister to Solenostomidae and , as evidenced by molecular analyses of mitochondrial and nuclear genes that support the of the order . Genetic studies of introduced populations, particularly the Lessepsian migrant in the , reveal low diversity and evidence of bottlenecks, with indicating propagation from a limited number of founders from the , contrasting with higher variability in native Indo-Pacific ranges .

Naming

The genus name Fistularia is derived from the Latin word fistula, meaning "pipe" or "tube," a reference to the species' distinctive elongated, tubular snout that resembles a flute or conduit. This etymological choice highlights the morphological feature central to the family's identification, as noted in early taxonomic works. The specific epithet commersonii commemorates Philibert Commerson (1727–1773), a prominent French naturalist, botanist, and explorer who participated in Louis Antoine de Bougainville's circumnavigation expedition (1766–1769) and amassed extensive collections from the Indian Ocean, including specimens that informed later descriptions of Indo-Pacific marine life. Commerson's contributions to ichthyology and natural history were significant, though he did not formally describe this species himself; his specimens from Mauritius and surrounding waters provided foundational material for subsequent classifications. The species was first formally described in 1838 by Eduard Rüppell, a German naturalist, in his work Fishes of the Red Sea, based primarily on specimens collected from that region, while honoring Commerson's earlier encounters with the fish during his voyages. Rüppell's description established Fistularia commersonii as a distinct taxon, distinguishing it from congeners like Fistularia petimba through its coloration and fin characteristics. In common nomenclature, F. commersonii is widely known as the bluespotted cornetfish, smooth cornetfish, or smooth flutemouth in English, names that evoke its slender, pipe-like body and the blue spots along its dorsum. Regional variations include "trompeta" in Spanish, used in parts of Latin America and the Caribbean to denote its trumpet-shaped form, and similar terms like "trompette" in French Creole from Réunion Island. These vernacular names have persisted in fisheries and aquarium trade contexts across its native Indo-Pacific range.

Description

Body structure

The bluespotted cornetfish (Fistularia commersonii) possesses a slender, ribbon-like body that is vertically flattened and elongated, rather than laterally compressed, allowing for agile navigation through complex environments. It typically reaches a common length of 1 m total length (TL), with a maximum recorded size of 1.6 m TL. Key anatomical features include an elongated tubular snout that can extend up to nearly half the body length, equipped with longitudinal ridges and a small terminal mouth positioned at its tip for precise feeding. The species has large eyes adapted for detecting prey in varying light conditions, and its and anal fins are positioned far posteriorly on the body. A distinctive filament, which can extend up to the length of the body, projects from the forked caudal fin and is lined with sensory pores that aid in prey detection. Skeletal structure consists of 83–86 vertebrae, with the first four fused, and 5 branchiostegal rays supporting the operculum. The dorsal fin features 14–17 soft rays with no spines, the anal fin has 14–16 soft rays, and the pectoral fins are reduced with 14–16 rays, contributing to the streamlined form. Adaptations for reef life include a flexible body that facilitates maneuvering among corals and a skin mucus layer potentially reducing hydrodynamic drag through bacterial symbiosis. Studies have isolated from the mucus that exhibit drag-reducing properties in turbulent flow, enhancing swimming efficiency.

Coloration

The bluespotted cornetfish (Fistularia commersonii) displays a base coloration of greenish ly, which grades into silvery white ventrally, providing a subtle effect typical of many reef-associated fishes. Along the midline, two blue stripes or rows of distinct blue spots run longitudinally, enhancing its visual integration with marine environments. The and anal fins are orange with transparent bases, while the caudal filament remains white. This species possesses notable camouflage capabilities, rapidly altering its pigmentation to a dark-barred pattern when resting near the substrate or during nocturnal periods, which effectively disrupts its outline against varied backgrounds. The blue spots and stripes contribute to , mimicking the irregular of coral reefs or seagrass beds and thereby reducing detection by predators or prey in complex habitats. Ontogenetic variation in coloration is evident, with juveniles exhibiting a more pronounced spotted pattern and occasional dark barring for enhanced concealment during early life stages, whereas adults develop clearer, elongated blue stripes along the back.

Distribution and habitat

Native distribution

The bluespotted cornetfish (Fistularia commersonii) is native to the tropical and subtropical waters of the Indo-Pacific Ocean, with a broad geographic range spanning from East Africa and the Red Sea in the west to Rapa and in the east, extending northward to southern and southward to and . This distribution encompasses latitudes from approximately 37°N to 38°S and longitudes from 20°E to 70°W, including oceanic islands across the region. The species also occurs naturally along the eastern Pacific coast, from southern and the southward to , as well as around islands such as , Cocos, Malpelo, and the Galápagos. In its native range, the bluespotted cornetfish inhabits shallow coastal waters at depths ranging from 0 to 132 m, where it is typically found in structured environments conducive to predation. Preferred habitats include coral reefs, rocky substrates, sandy bottoms adjacent to reefs, and beds, often in benthopelagic zones. The shows a particular affinity for reef-associated areas and can also occur in brackishwater settings such as estuaries, lagoons, mangroves, and marshes. The bluespotted cornetfish tolerates warm marine conditions, with preferred water temperatures between 22°C and 28.9°C (mean 27.5°C) and salinities typically ranging from 30 to 35 , though it can adapt to slightly brackish environments. These tolerances align with its in stable, tropical neritic zones. Historical records of this native , predating 2000, were established through ichthyological surveys and assessments across the , including field collections and observations documented in regional fish inventories.

Introduced range

The bluespotted cornetfish (Fistularia commersonii) is a Lessepsian migrant that entered the via the , marking its primary introduced range outside its native distribution. The species was first recorded in the Mediterranean off the coast of , , in January 2000, initiating a rapid westward expansion. By 2004, populations had established in , and by 2007, the species reached the Gulf of Lions in the western Mediterranean, demonstrating its swift dispersal across the eastern and central basins. Genetic analyses reveal low diversity in introduced populations, with only two mitochondrial haplotypes detected compared to 46 in the native range, indicating a severe from a small founder population likely consisting of just a few individuals. This genetic constraint has not hindered rapid population growth, facilitated by high reproductive rates and tolerance to varied salinities. Secondary introductions via ballast water have been hypothesized for potential spread to Atlantic coasts, though no established populations have been confirmed there as of 2025. In the region, the species has extended into adjacent areas like the , aligning with its native origins but enhanced by canal-facilitated movements. As of 2025, the bluespotted cornetfish occupies the Levantine Basin and has expanded to the western Mediterranean, including , with recent studies from 2023–2025 documenting ongoing colonization and stable populations in previously marginal habitats. Distribution modeling predicts further potential spread into lower-salinity areas, supported by continued sightings in and waters.

Life history

Reproduction

The bluespotted cornetfish, Fistularia commersonii, is oviparous, with occurring in open water where eggs are scattered without . This reproductive classifies it as a nonguarder, typical of many pelagic fishes, where gametes are released into the water column to maximize dispersal. Sexual dimorphism is evident in gonadal development, with females exhibiting more pronounced oocyte stages and males showing cystic , supporting multiple spawning events. Individuals reach at lengths of 55–65 cm total length (TL), typically between 1 and 2 years of age. In its native tropical range, spawning occurs year-round, while in subtropical regions it is seasonal, often peaking during warmer months from May to October when water temperatures exceed 22°C. is high, with females producing 76,000–281,000 oocytes per spawning season through batch spawning, and relative fecundity ranging from 1,269–2,813 ova per cm TL; batch sizes are estimated at 10,000–50,000 eggs based on mass and ova distribution. During spawning, males and females form temporary pairs in the , releasing gametes without elaborate displays or post-spawning investment. Eggs are pelagic, spherical, and buoyant, measuring 1.5–2.1 mm in diameter with no oil droplets, hatching after 2–4 days at 27°C into planktonic larvae of 6–7 mm TL. These elongated larvae remain in the , relying on their streamlined form for dispersal before settling into juvenile habitats.

Growth and development

The bluespotted cornetfish, Fistularia commersonii, undergoes a planktonic larval stage lasting approximately 50–55 days post-hatching, during which individuals grow from an initial total length (TL) of about 7.5 mm to around 100 mm before transitioning to the pelagic juvenile phase. Flexion of the occurs at 15–18 mm TL, typically 12–18 days post-hatch, marking early morphological development, after which larvae exhibit increased swimming capabilities and begin active feeding on copepods and artemia. This extended pelagic larval duration facilitates wide dispersal, consistent with the species' invasive spread in non-native regions like the . Juveniles experience rapid initial , with size-at-age from Mediterranean populations indicating lengths of 35–45 TL by and 57–73 by 2, based on and vertebral analyses. Otolith-based studies in the central Mediterranean estimate s up to 5 years for individuals reaching 69–104 TL, with (VBGF) parameters of L_\infty = 101.4 and K = 0.52 year^{-1}, reflecting a (\Phi') of 3.73. Recent analyses from sites, such as , , confirm similar rapid juvenile , with dominant cohorts in the third year class averaging 77–87 TL and \Phi' = 3.65. In adulthood, growth slows considerably, with annual increments of 5–10 cm estimated from VBGF models across studies (e.g., K = 0.23–0.25 year^{-1} in Greek waters, L_\infty = 92.8–133.7 cm). Maximum observed ages reach 10–11 years in the Mediterranean, though some estimates suggest up to 16 years in Egyptian waters under lower exploitation. Growth rates in introduced Mediterranean ranges mirror those in origin areas, as evidenced by comparable size-at-age curves from 2023–2024 studies (e.g., age 4: 83 cm TL in Egypt; age 5: 92 cm in Greece). Overall longevity is estimated at 10–11 years, with females attaining larger sizes and longer lifespans than males. These patterns are influenced by environmental factors such as temperature and prey availability, which modulate somatic growth in temperate invasive contexts.

Ecology

Diet and foraging

The bluespotted cornetfish (Fistularia commersonii) is primarily piscivorous, with its diet dominated by small reef-associated fishes such as picarels (Spicara smaris), bogues (Boops boops), gobiids, blennies, and juveniles of sparids and atherinids. It complements this with crustaceans, including shrimps (decapods) and isopods, while cephalopods and other molluscs form a minor component. Prey selection favors elongated-bodied species and schooling fishes in the water column, with ontogenetic shifts toward larger pelagic and reef fishes as the predator grows. Stomach content analyses from the eastern and central Mediterranean reveal a heavily -based diet, comprising 96% of prey items by number and 99.95% by weight, with accounting for the remainder (approximately 4% by number and 0.05% by weight). In a 2014 from the central Mediterranean, contents were exclusively , primarily labrids, clupeids, and sparids. More recent analyses from non-Mediterranean populations, such as a 2023 , indicate 79% , 5% crustaceans, and 1% molluscs (including cephalopods), suggesting some regional variation but consistent piscivory. As an , the bluespotted cornetfish hovers motionless over beds or reefs, employing its elongated snout and protrusible mouth to rapidly suck in prey with a quick head movement, often ingesting them head-first to avoid entanglement with fin spines. It typically forages solitarily or in small groups along the bottom, targeting prey in shallow waters, with larger individuals diversifying tactics to include both benthic and pelagic pursuits. Key adaptations include prominent large eyes that enhance prey detection in low-light conditions, and a long whiplike tail filament, which can be as long as the body length and is equipped with sensory pores that aid in locating hidden or distant prey. These features, combined with the tubular snout functioning as a pipette, enable precise strikes among complex structures.

Behavior and social structure

The bluespotted cornetfish, Fistularia commersonii, is primarily a solitary predator that occasionally forms small groups or loose aggregations, particularly near reefs or food sources, with reports of schools comprising 10–20 individuals in some populations. Social interactions are generally minimal, with low levels of observed among conspecifics, as individuals tend to maintain distance unless converging on prey. This species exhibits diurnal to crepuscular activity patterns, remaining active during daylight hours for cruising and hunting, though it may extend foraging into twilight periods. Movement is characterized by slow, deliberate swimming over substrates or adjacent sandy bottoms, often holding the elongated body straight for stealthy approach, while rapid undulating motions enable quick bursts for pursuit or evasion. Individuals frequently use structures for cover, hovering or gliding just above the bottom to blend with the environment. Sensory behaviors include reliance on the filament, which is equipped with pores potentially aiding in vibration detection for prey location, complemented by large eyes suited for low-light conditions. plays a key role in evasion and tactics, with the species' disruptive dark banding pattern enhancing concealment against complex backgrounds. Bluespotted cornetfish are largely sedentary within reef habitats, showing limited dispersal and no evidence of long-distance individual beyond larval stages.

Invasive status and conservation

Ecological impacts

As an invasive species in the , the bluespotted cornetfish (Fistularia commersonii) exerts significant predation pressure on native fish populations, particularly targeting juveniles of reef-associated species such as sparids and labrids, which form a substantial portion of its diet and contribute to altered recruitment dynamics in coastal ecosystems. This predatory behavior disrupts local food webs by reducing the abundance of small benthic and pelagic fishes, with studies indicating that F. commersonii preferentially consumes juvenile prey in sizes correlating positively with predator length, thereby intensifying top-down control in invaded habitats. In addition to predation, F. commersonii engages in direct with native piscivorous fishes for spaces, prey resources, and foraging grounds, leading to overlaps that diminish availability for predators and potentially shift compositions in and habitats. Its presence in meadows, where it forages on associated , further influences benthic structures by altering prey dynamics and contributing to changes in use among . The invasion success of F. commersonii in the Mediterranean stems from its high reproductive output, characterized by multiple spawning events and a protracted spawning season from June to December, with elevated fecundity rates that support rapid population establishment and expansion. Coupled with tolerance to a range of salinities—evident from its ability to thrive in coastal environments transitioning from high-salinity Red Sea inflows to more variable Mediterranean conditions, overcoming abiotic barriers like low salinity that resist other invaders—this adaptability facilitates dominance in diverse habitats. Recent assessments from 2023 to 2025 highlight ongoing in the , with a 2024 study from waters documenting overexploited stocks (exploitation rate E = 0.619) and demographic parameters including slow growth (K = 0.187 yr⁻¹) and up to 16 years, while calling for further on feeding impacts on native taxa. A 2025 chromosome-level assembly supports studies of its invasion biology. Genetic analyses from 2016 reveal signatures of rapid adaptation, including 47 outlier loci (nearly half associated with and disease resistance), enabling F. commersonii to persist and proliferate despite novel environmental pressures in the invaded range. In its native Indo-Pacific range, F. commersonii functions as a piscivorous predator in shallow , sandy, and ecosystems, helping maintain balance by controlling populations of small fishes and crustaceans through bottom-oriented . This role contrasts with its disruptive effects in the Mediterranean, where the absence of natural controls amplifies its invasive impacts on stability.

Management and conservation

The bluespotted cornetfish (Fistularia commersonii) is assessed as Least Concern on the , with the global evaluation conducted in 2016 and no major updates reported as of 2025. In its native range, the species faces no significant threats, although populations are monitored for potential in localized fisheries. In the invaded , management strategies emphasize the encouraged removal of the species to mitigate its invasive potential, primarily through increased utilization in fisheries as a resource. Efforts include promoting harvest incentives in regions such as and to reduce local abundances. Additionally, proposals for physical and salinity barriers in the aim to halt further Lessepsian migrations of similar species. The species occurs within several marine protected areas in the Mediterranean, where it has been documented in surveys of Lessepsian invaders; however, regulatory measures remain limited or unregulated in many invaded zones. Research gaps persist, particularly the need for ongoing of population trends and expanded studies on to better inform invasion management. Looking ahead, climate change is projected to expand the species' range by weakening thermal barriers, potentially enabling further westward spread into the Atlantic Ocean via the Strait of Gibraltar.

Human uses

Fisheries

The bluespotted cornetfish, Fistularia commersonii, is captured primarily using gillnets and bottom trawls in the Mediterranean Sea, where it is often taken as bycatch in small-scale coastal fisheries. In reef-associated habitats of the Indo-Pacific, it is occasionally caught with traps and hook-and-line gear by artisanal fishers. Increasingly, targeted harvesting occurs in the eastern Mediterranean using static nets and hand or spear fishing to manage its invasive populations. Global yields from F. commersonii fisheries remain minor, contributing negligibly to overall captures due to its limited commercial targeting. In the invaded Mediterranean, particularly in the eastern basin, invasive alien species including F. commersonii can comprise over 50% of local catches in some areas, supporting higher localized yields for small-scale operations. The species is utilized mainly for human consumption, marketed fresh, salted, dried, or smoked, with lower-quality portions processed into fish meal. Its palatable white flesh, lacking prominent spines, has led to growing acceptance in Mediterranean markets, though its elongated, bony body limits broader appeal. In the Indo-Pacific, F. commersonii plays a minor role in small-scale fisheries, providing supplemental income to coastal communities. In Europe, 2010s and 2020s initiatives have promoted its harvest and consumption as a strategy for invasive species control, boosting fisher revenues in regions like Turkey where invasive species now account for 30-60% of fisher revenues. Sustainability concerns are present, with current rates in the Mediterranean at approximately 0.62 (E = 0.619 as of 2024), indicating the stock is despite its abundance. Ongoing monitoring is recommended to manage as targeted efforts expand.

Aquarium trade

The bluespotted cornetfish (Fistularia commersonii) is traded in the ornamental primarily for its unique elongated body and striking blue-spotted pattern, which appeal to aquarists seeking distinctive display species. Exports originate from countries, including , , and the , where it is collected from and habitats. Specimens in the trade are almost exclusively wild-caught juveniles, as full captive rearing remains difficult. trials have demonstrated potential, with juveniles raised from wild-collected eggs; larvae are fed adult copepods and Artemia, achieving transformation to juveniles after approximately 55 days at 27°C. Captive care demands spacious enclosures, with the species deemed suitable only for large public aquariums or zoo displays to provide ample swimming room for its maximum length of 160 cm. As a piscivorous predator, adults require a diet of small live , and small specimens have been maintained successfully in this manner. Key challenges include high stress sensitivity during transport and early rearing stages, where larvae often suffer from hyperinflation and become trapped at tank surfaces, reducing survival. The fish's predatory nature leads to aggression toward smaller tankmates, limiting compatibility in mixed exhibits. Occasional aquarium releases have facilitated its establishment in non-native areas, such as waters.

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